CN111282005A - Storage device of medicine bottle disinfection line - Google Patents

Abstract

The invention provides a storage device for a medicine bottle disinfection line, which comprises: the storage box body is provided with a first through hole and a second through hole which penetrate through the side surface of the storage box body respectively; the paying-off reel is arranged in the storage box and rotates by taking the hollow part matched with the first through hole as an axis, and the paying-off reel releases the medicine bottle disinfection line wound on the paying-off reel through rotation; the take-up reel is arranged in the storage box and rotates by taking the hollow part matched with the second through hole as an axis, and the take-up reel collects the medicine bottle disinfection line released by the pay-off reel through rotation; the cleaning guide wheel is arranged at one corner position of the top of the storage box body, the cleaning guide wheel transmits the medicine bottle disinfection line released by the paying-off reel to the take-up reel in a guiding manner, and the medicine bottle disinfection line is contacted to the medicine bottle to be disinfected. The invention effectively prevents the pollution or loss of the medicine bottle disinfection line, and automatically completes the disinfection of the medicine bottle by matching with the medicine bottle disinfection equipment, thereby greatly improving the disinfection efficiency.

Description

Storage device of medicine bottle disinfection line

Technical Field

The invention relates to a storage device, in particular to a storage device for a medicine bottle disinfection line.

Background

At present, a medicine bottle is generally disinfected by utilizing a disinfection line such as cotton threads, and an operator firstly drops alcohol into the cotton threads during disinfection and then manually wipes the part needing disinfection in the medicine bottle by utilizing the cotton threads. However, the manual sterilization mode is easy to pollute or lose cotton threads, and the cotton threads are easy to wind on hands of operators in the sterilization process, so that the sterilization efficiency is seriously reduced.

Disclosure of Invention

The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key or critical elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.

The invention aims to overcome the defects that in the prior art, a disinfection line is easy to pollute or lose, and the disinfection line is easy to wind around hands of an operator in a disinfection process, so that the disinfection efficiency is seriously reduced, and provides a storage device for a medicine bottle disinfection line.

The technical problem is solved by the following technical scheme:

a storage device for a vial sterilization line, comprising:

the storage box body is provided with a first through hole and a second through hole which penetrate through the side face of the storage box body respectively;

the pay-off reel is arranged in the storage box and rotates by taking the hollow part matched with the first through hole as an axis, and the pay-off reel is used for releasing the medicine bottle disinfection line wound on the pay-off reel through rotation;

the take-up reel is arranged in the storage box and rotates by taking the hollow part matched with the second through hole as an axis, and the take-up reel is used for taking up the medicine bottle disinfection line released by the pay-off reel through rotation;

the cleaning guide wheel is arranged at one corner position of the top of the storage box body and used for guiding and transmitting the medicine bottle disinfection line released by the paying-off reel to the take-up reel and contacting the medicine bottle disinfection line to a medicine bottle to be disinfected.

Optionally, the receiving device further comprises a driving stick;

the storage box body is also provided with a third through hole penetrating through the side surface of the storage box body;

the driving stick is arranged in the containing box body and rotates by taking the hollow part matched with the third through hole as an axis;

the drive rod is used for collecting through the rotation that the unwrapping wire spool releases the medicine bottle disinfection line and convolute the round, still is used for with the coiling round after the medicine bottle disinfection line direction is transmitted to clean leading wheel department.

Optionally, the receiving device further comprises a transition guide wheel;

the transition guide wheel is arranged at the other angular position of the top of the containing box body;

the transition guide wheel is used for guiding and transmitting the medicine bottle disinfection line passing through the wiping guide wheel to the take-up reel.

Optionally, the storage device further comprises a cycloidal stick and a wire adjusting wheel;

the containing box body is also provided with a fourth through hole penetrating through the side surface of the containing box body;

the cycloidal stick is arranged in the containing box body and rotates by taking a hollow part matched with the fourth through hole as an axis;

the wire adjusting wheel is movably sleeved on the cycloid stick and moves up and down along the extension direction of the cycloid stick along with the rotation of the cycloid stick;

the wire adjusting wheel is used for guiding and transmitting the medicine bottle disinfection wire passing through the transition guide wheel to the take-up reel, and adjusting the winding position of the medicine bottle disinfection wire on the take-up reel through up-down movement.

Optionally, a first guide groove and a second guide groove are formed in the containing box body;

the two ends of the first guide groove are respectively connected to the positions of the driving roller and the wiping guide wheel, the two ends of the second guide groove are respectively connected to the positions of the transition guide wheel and the cycloid roller, and the first guide groove and the second guide groove are used for guiding the transmission direction of the medicine bottle disinfection line.

Optionally, a buffer spring is further disposed at the bottom of the wiping guide wheel.

Optionally, a plurality of paying-off observation holes are respectively formed in the side surfaces of the paying-off reel.

Optionally, a plurality of take-up observation holes are respectively formed in the side surface of the take-up reel.

Optionally, the side surface of the storage box body is further provided with a first observation hole and a second observation hole respectively.

Optionally, the storage box body adopts a cartridge clip structure.

A medicine bottle disinfection device comprises a penicillin bottle disinfection mechanism, an ampoule bottle disinfection mechanism, a disinfectant supply mechanism, a control module and a shell;

the penicillin bottle disinfection mechanism and the ampoule bottle disinfection mechanism are respectively arranged in the shell, and the penicillin bottle disinfection mechanism is fixedly arranged at the top of the ampoule bottle disinfection mechanism;

the penicillin bottle disinfection mechanism comprises a first accommodating mechanism, a first linear driving mechanism, a first medicine bottle disinfection line driving mechanism and a first disinfectant dropper;

the first accommodating mechanism forms a preset included angle with the horizontal direction and is used for accommodating an accommodating device of a medicine bottle disinfection line so as to form the preset included angle with the horizontal direction;

the first linear driving mechanism is arranged at the bottom of the first accommodating mechanism and is used for aligning and conveying the medicine bottle disinfection line on the wiping guide wheel of the accommodating device to a bottle mouth position of a penicillin bottle placed along the vertical direction;

the first medicine bottle disinfection line driving mechanism is used for driving a take-up reel of the storage device to rotate;

the drip nozzle of the first disinfectant dropper is arranged at a position facing the wiping guide wheel and is used for dripping disinfectant into the medicine bottle disinfection line;

the control module is respectively in communication connection with the first linear driving mechanism and the first medicine bottle disinfection line driving mechanism, and is configured to respectively send a first starting signal to the first linear driving mechanism and the first medicine bottle disinfection line driving mechanism so as to start the first linear driving mechanism and the first medicine bottle disinfection line driving mechanism;

the ampoule bottle disinfection mechanism comprises a second containing mechanism, a second linear driving mechanism, a second medicine bottle disinfection line driving mechanism and a second disinfectant dropper;

the second containing mechanism is arranged along the horizontal direction and is used for containing a receiving device of a medicine bottle disinfection line so as to load the receiving device into the second containing structure along the horizontal direction;

the second linear driving mechanism is arranged at the bottom of the second accommodating mechanism and is used for aligning and conveying the medicine bottle sterilizing line on the wiping guide wheel of the accommodating device to the bottleneck position of the ampoule bottle placed along the vertical direction;

the second medicine bottle disinfection line driving mechanism is used for driving the take-up reel of the storage device to rotate;

the drip nozzle of the second disinfectant dropper is arranged at a position facing the wiping guide wheel and is used for dripping disinfectant into the medicine bottle disinfection line;

the control module is respectively in communication connection with the second linear driving mechanism and the second medicine bottle disinfection line driving mechanism, and the control module is configured to respectively send a second starting signal to the second linear driving mechanism and the second medicine bottle disinfection line driving mechanism so as to start the second linear driving mechanism and the second medicine bottle disinfection line driving mechanism;

the disinfectant liquid supply mechanism is used for respectively supplying disinfectant liquid to the first disinfectant liquid dropper and the second disinfectant liquid dropper.

Optionally, the disinfectant supplying mechanism comprises a disinfectant bottle and a disinfectant supplying pump;

the disinfection bottle is connected with the disinfectant supply pump through a water pipe;

the disinfection bottle is internally provided with disinfectant, and the disinfectant supply pump is used for pumping the disinfectant from the disinfection bottle through the water pipe and supplying the disinfectant to the first disinfectant dropper and the second disinfectant dropper respectively.

Optionally, the vial sterilizing device further comprises a gravity sensor;

the gravity sensor is in communication connection with the control module;

the gravity sensor is configured to detect weight information of the sterilization vial and send the weight information to the control module.

Optionally, the vial disinfection device further comprises a display module;

the display module is in communication connection with the control module;

the control module is configured to send the received weight information to the display module;

the display module is configured to display the weight information.

Optionally, the display module comprises a liquid crystal display.

Optionally, the vial disinfection device further comprises an alarm module;

the alarm module is in communication connection with the control module;

the control module is also configured to generate alarm information and send the alarm information to the alarm module when the weight in the received weight information is smaller than a preset weight;

and the alarm module is configured to output an alarm prompt when receiving the alarm information.

Optionally, the first linear driving mechanism includes a first linear motor, a first linear slide rail, and a first slider;

the first sliding block is fixedly arranged at the bottom of the first accommodating mechanism, the first sliding block is arranged on the first linear sliding rail, and the first linear motor is configured to drive the first sliding block to slide on the first linear sliding rail so as to align and convey the medicine bottle disinfection line to the position of the bottle opening of a penicillin bottle which is arranged along the vertical direction;

the second linear driving mechanism comprises a second linear motor, a second linear slide rail and a second slide block;

the second slider is fixedly arranged at the bottom of the second accommodating mechanism, the second slider is arranged on the second linear sliding rail, and the second linear motor is configured to drive the second slider to slide on the second linear sliding rail so as to align and convey the medicine bottle disinfection line to the bottleneck position of the ampoule bottle placed along the vertical direction.

Optionally, the preset included angle is set to be 30-60 degrees.

Optionally, the sanitizing liquid comprises alcohol.

A penicillin bottle disinfection device comprises a penicillin bottle disinfection mechanism, a disinfectant supply mechanism, a control module and a shell;

the penicillin bottle disinfection mechanism is arranged in the shell;

the penicillin bottle disinfection mechanism comprises an accommodating mechanism, a linear driving mechanism, a medicine bottle disinfection line driving mechanism and a disinfectant dropper;

the accommodating mechanism forms a preset included angle with the horizontal direction and is used for accommodating an accommodating device of the medicine bottle disinfection line so as to form the preset included angle with the horizontal direction;

the linear driving mechanism is arranged at the bottom of the accommodating mechanism and is used for aligning and conveying the medicine bottle disinfection line on the wiping guide wheel of the accommodating device to a bottle mouth position of a penicillin bottle placed along the vertical direction;

the medicine bottle disinfection line driving mechanism is used for driving the take-up reel of the receiving device to rotate;

the drip nozzle of the disinfectant dropper is arranged at a position facing the wiping guide wheel and is used for dripping disinfectant into the medicine bottle disinfection line;

the control module is respectively in communication connection with the linear driving mechanism and the medicine bottle disinfection line driving mechanism, and is configured to send starting signals to the linear driving mechanism and the medicine bottle disinfection line driving mechanism respectively so as to start the linear driving mechanism and the medicine bottle disinfection line driving mechanism;

the disinfectant liquid supply mechanism is used for supplying disinfectant liquid to the disinfectant liquid dropper.

Optionally, the disinfectant supplying mechanism comprises a disinfectant bottle and a disinfectant supplying pump;

the disinfection bottle is connected with the disinfectant supply pump through a water pipe;

the disinfection bottle is internally provided with a disinfection solution, and the disinfection solution supply pump is used for pumping the disinfection solution from the disinfection bottle through the water pipe and supplying the disinfection solution to the disinfection solution dropper.

Optionally, the penicillin bottle disinfection equipment further comprises a gravity sensor;

the gravity sensor is in communication connection with the control module;

the gravity sensor is configured to detect weight information of the sterilization vial and send the weight information to the control module.

Optionally, the penicillin bottle disinfection equipment further comprises a display module;

the display module is in communication connection with the control module;

the control module is configured to send the received weight information to the display module;

the display module is configured to display the weight information.

Optionally, the display module comprises a liquid crystal display.

Optionally, the penicillin bottle disinfection equipment further comprises an alarm module;

the alarm module is in communication connection with the control module;

the control module is also configured to generate alarm information and send the alarm information to the alarm module when the weight in the received weight information is smaller than a preset weight;

and the alarm module is configured to output an alarm prompt when receiving the alarm information.

Optionally, the linear driving mechanism includes a linear motor, a linear slide rail and a slide block;

the slider is fixed set up in hold the bottom of mechanism, the slider install in on the linear slide rail, linear electric motor configuration is configured to the drive the slider is in slide on the linear slide rail to with the bottle disinfection line alignment conveying to the bottleneck position department of the xiLin bottle of placing along vertical direction.

Optionally, the preset included angle is set to be 30-60 degrees.

Optionally, the sanitizing liquid comprises alcohol.

An ampoule bottle disinfection device comprises an ampoule bottle disinfection mechanism, a disinfectant supply mechanism, a control module and a shell;

the ampoule bottle disinfection mechanism is arranged in the shell;

the ampoule bottle disinfection mechanism comprises a containing mechanism, a linear driving mechanism, a medicine bottle disinfection line driving mechanism and a disinfectant dropper;

the accommodating mechanism is arranged along the horizontal direction and is used for accommodating a receiving device of a medicine bottle disinfection line so as to load the receiving device into the accommodating structure along the horizontal direction;

the linear driving mechanism is arranged at the bottom of the accommodating mechanism and is used for aligning and conveying the medicine bottle sterilizing line on the wiping guide wheel of the accommodating device to a bottleneck position of an ampoule bottle placed along the vertical direction;

the medicine bottle disinfection line driving mechanism is used for driving the take-up reel of the receiving device to rotate;

the drip nozzle of the disinfectant dropper is arranged at a position facing the wiping guide wheel and is used for dripping disinfectant into the medicine bottle disinfection line;

the control module is respectively in communication connection with the linear driving mechanism and the medicine bottle disinfection line driving mechanism, and is configured to send starting signals to the linear driving mechanism and the medicine bottle disinfection line driving mechanism respectively so as to start the linear driving mechanism and the medicine bottle disinfection line driving mechanism;

the disinfectant liquid supply mechanism is used for supplying disinfectant liquid to the disinfectant liquid dropper.

Optionally, the disinfectant supplying mechanism comprises a disinfectant bottle and a disinfectant supplying pump;

the disinfection bottle is connected with the disinfectant supply pump through a water pipe;

the disinfection bottle is internally provided with a disinfection solution, and the disinfection solution supply pump is used for pumping the disinfection solution from the disinfection bottle through the water pipe and supplying the disinfection solution to the disinfection solution dropper.

Optionally, the ampoule disinfecting device further comprises a gravity sensor;

the gravity sensor is in communication connection with the control module;

the gravity sensor is configured to detect weight information of the sterilization vial and send the weight information to the control module.

Optionally, the ampoule bottle disinfection device further comprises a display module;

the display module is in communication connection with the control module;

the control module is configured to send the received weight information to the display module;

the display module is configured to display the weight information.

Optionally, the display module comprises a liquid crystal display.

Optionally, the ampoule bottle disinfection device further comprises an alarm module;

the alarm module is in communication connection with the control module;

the control module is also configured to generate alarm information and send the alarm information to the alarm module when the weight in the received weight information is smaller than a preset weight;

and the alarm module is configured to output an alarm prompt when receiving the alarm information.

Optionally, the linear driving mechanism includes a linear motor, a linear slide rail and a slide block;

the slider is fixed set up in hold the bottom of mechanism, the slider install in on the linear slide rail, linear electric motor configuration is configured to the drive the slider is in slide on the linear slide rail to align the conveying of medicine bottle disinfection line to the bottleneck position department of the ampoule placed along vertical direction.

Optionally, the sanitizing liquid comprises alcohol.

A detection device for a medicine bottle disinfection line comprises a medicine bottle disinfection line driving mechanism, a coding disc, a photoelectric detection sensing assembly and a control module (the control module can be shared), wherein the medicine bottle disinfection line driving mechanism comprises a main driving motor, a driving shaft, a first transmission shaft, a take-up driving shaft and a pay-off shaft;

the main driving motor is used for driving the driving shaft to rotate, the driving shaft is used for driving the first transmission shaft to rotate, the first transmission shaft is used for driving the take-up driving shaft to rotate, the take-up driving shaft is used for being matched with a hollow part of a take-up reel of a storage device of a medicine bottle disinfection line and driving the take-up reel to rotate, the pay-off reel is used for being matched with a hollow part of a pay-off reel of the storage device, and the rotation of the pay-off reel drives the pay-off reel to rotate;

the coding disc is coaxial with the pay-off shaft and is sleeved on the pay-off shaft;

the photoelectric detection sensing assembly is in communication connection with the control module and is configured to generate angular displacement information of the pay-off shaft through a detection hole in the coding disc and send the angular displacement information to the control module;

the control module is configured to generate current margin information of a vial sterilization line on the payout reel based on the received angular displacement information.

Optionally, the drug bottle sterilization line driving mechanism further comprises a second transmission shaft and a driving shaft;

the driving shaft is also used for driving the second transmission shaft to rotate, the second transmission shaft is used for driving the driving shaft to rotate, and the driving shaft is used for matching with a hollow part of a driving stick of the storage device and driving the driving roller to rotate.

Optionally, the medicine bottle disinfection line driving mechanism further comprises a line adjusting driving motor and a line swinging shaft;

the cycloid driving motor is used for driving the cycloid shaft to rotate, the cycloid shaft is used for being matched with a hollow part of a cycloid stick of the storage device and driving the cycloid stick to rotate, and therefore the cycloid wheel of the storage device moves up and down along the extending direction of the cycloid stick along with the rotation of the cycloid stick.

Optionally, when the storage box of the storage device limits the movement of the wire adjusting wheel, the control module is further configured to generate a reverse rotation signal to the wire adjusting driving motor;

the wire adjusting driving motor is configured to drive the cycloid shaft to rotate reversely when receiving the reverse rotation signal.

Optionally, the detection device further includes an alarm module (the alarm module can be shared);

the alarm module is in communication connection with the control module;

the control module is also configured to generate alarm information and send the alarm information to the alarm module when the current allowance in the received current allowance information is smaller than a preset allowance;

the control module is also configured to generate alarm information and send the alarm information to the alarm module when a containing box body of the containing device limits the movement of the line regulating wheel;

and the alarm module is configured to output an alarm prompt when receiving the alarm information.

On the basis of the common knowledge in the field, the preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

the accommodating device for the medicine bottle disinfection line, provided by the invention, can store the medicine bottle disinfection line, so that the medicine bottle disinfection line is effectively prevented from being polluted or lost, the accommodating structure of the accommodating device is reasonable in design, and the medicine bottle disinfection equipment is matched to automatically sterilize the medicine bottle, so that the disinfection efficiency is greatly improved.

Drawings

The features and advantages of the present disclosure will be better understood upon reading the detailed description of embodiments of the disclosure in conjunction with the following drawings. In the drawings, components are not necessarily drawn to scale, and components having similar relative characteristics or features may have the same or similar reference numerals.

Fig. 1 is a cross-sectional view of a receiving device of a vial sterilization line according to a preferred embodiment of the present invention.

Fig. 2 is a perspective view of a receiving device for a vial sterilization line according to a preferred embodiment of the present invention.

Fig. 3 is a front view schematically showing a vial sterilizing apparatus according to a preferred embodiment of the present invention.

FIG. 4 is a side view of the vial sterilization device according to the preferred embodiment of the present invention.

Fig. 5 is a perspective view of a vial sterilizing apparatus according to a preferred embodiment of the present invention.

Fig. 6 is a schematic front view of a penicillin bottle sterilizing apparatus according to a preferred embodiment of the present invention.

Fig. 7 is a schematic side view of a penicillin bottle sterilizing apparatus according to a preferred embodiment of the present invention.

Fig. 8 is a front view schematically illustrating an ampoule disinfecting apparatus according to a preferred embodiment of the present invention.

Fig. 9 is a schematic side view of an ampoule disinfecting apparatus according to a preferred embodiment of the present invention.

Fig. 10 is a schematic top view of an ampoule disinfecting apparatus according to a preferred embodiment of the present invention.

Fig. 11 is a schematic structural view of a detection device of a vial sterilization line according to a preferred embodiment of the present invention.

Fig. 12 is a side view schematically showing a detection device for a vial sterilization line according to a preferred embodiment of the present invention.

Description of reference numerals:

storage case 11

First observation hole 111

Second observation hole 112

First guide groove 113

Second guide groove 114

Pay-off reel 12

First through-hole 121

Hollow portion 122 of the payoff reel

Paying-offobservation hole 123

Take-up reel 13

Second via 131

Hollow portion 132 of take-up spool

Take-upobservation hole 133

Drivingrod 14

Third via 141

Hollow part 142 of the drive rod

Cycloid stick 151

Hollow part of cycloid stick

Fourth throughhole 153

Wipingguide wheel 16

Buffer spring 161

Transition guide wheel 17

Medicinebottle disinfection line 18

Exit andentrance 21 of xiLin bottle disinfection mechanism

Penicillin bottle 22

First disinfectant dropper 23

Inlet andoutlet 31 of ampoule bottle sterilizing mechanism

Ampoule 32

Second disinfectant dropper 33

Sterilizingbottle 41

Disinfectantliquid supply pump 42

Gravity sensor 43

Display module 44

Housing 5

Linear drive mechanism 6

Medicine bottle disinfectionline actuating mechanism 7

Driveshaft 71

First driveshaft 72

Second drive shaft 73

Take-up drive shaft 74

Driveshaft 75

Pay-offspool 76

Coding disc 761

Photoelectricdetection sensing assembly 762

Cycloid shaft 77

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. It is noted that the aspects described below in connection with the figures and the specific embodiments are only exemplary and should not be construed as imposing any limitation on the scope of the present invention.

The following description is presented to enable any person skilled in the art to make and use the invention and is incorporated in the context of a particular application. Various modifications, as well as various uses in different applications will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to a wide range of embodiments. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

In the following detailed description, numerous specific details are set forth in order to provide a more thorough understanding of the invention. It will be apparent, however, to one skilled in the art that the practice of the invention may not necessarily be limited to these specific details. In other instances, well-known structures and devices are shown in block diagram form, rather than in detail, in order to avoid obscuring the present invention.

Note that where used, the designations left, right, front, back, top, bottom, positive, negative, clockwise, and counterclockwise are used for convenience only and do not imply any particular fixed orientation. In fact, they are used to reflect the relative position and/or orientation between the various parts of the object.

As shown in fig. 1 and 2, the present embodiment provides a storage device for a vial sterilization line, the storage device includes astorage box 11, a line-releasingreel 12, a line-receivingreel 13, a drivingrod 14, acycloid rod 151, a line-adjusting wheel (not specifically shown), a wipingguide wheel 16, abuffer spring 161, and atransition guide wheel 17.

In the present embodiment, the sterilizingthread 18 is cotton thread, but the type is not particularly limited, and may be selected according to the actual situation.

In this embodiment, thestorage case 11 has a cartridge structure.

Specifically, a first throughhole 121 penetrating through the side surface of thestorage box body 11 is formed on the side surface of thestorage box body 11 near the bottom position, the pay-off reel 12 is disposed in thestorage box body 11 and rotates around ahollow portion 122 of the pay-off reel coinciding with the first throughhole 121, and the pay-off reel 12 is used for releasing thevial sterilizing line 18 wound around the pay-off reel 12 by rotation.

A second through hole 131 (a position opposite to the first through hole 121) penetrating through the side surface of thestorage box body 11 is formed on the side surface of thestorage box body 11 near the top position, the take-up reel 13 is disposed in thestorage box body 11 and rotates around ahollow portion 132 of the take-up reel matched with the second throughhole 131, and the take-up reel 13 is used for taking up the medicinebottle disinfection line 18 released from the pay-off reel 12 through rotation.

Set up the third through-hole 141 that runs throughstorage box 11's side onstorage box 11's the side that is close to the right side position, driverod 14 sets up instorage box 11, and use thehollow portion 142 of the drive rod identical with third through-hole 141 as the axle center rotation, driverod 14 is used for taking up medicinebottle disinfection line 18 of unwrappingwire reel 12 release through the rotation and makes a round (the number of turns can be adjusted according to actual conditions, but should not too much),drive rod 14 still is used for transmitting the medicinebottle disinfection line 18 direction after the coiling round to wipingguide pulley 16 department.

The side surface of thestorage box body 11 close to the left side position is provided with a fourth through hole 153 (the position opposite to the third through hole 141) penetrating through the side surface of thestorage box body 11, thecycloid rod 151 is arranged in thestorage box body 11 and rotates by taking thehollow part 152 of the cycloid rod matched with the fourth throughhole 153 as an axis, the wire regulating wheel is movably sleeved on thecycloid rod 151 and moves up and down along the extending direction of thecycloid rod 151 along with the rotation of the cycloid rod 151 (namely moves up and down along the thickness direction of the storage box body 11), the wire regulating wheel is used for guiding and transmitting the medicinebottle disinfection line 18 passing through thetransition guide wheel 17 to the take-up reel 13 and regulating the winding position of the medicinebottle disinfection line 18 on the take-up reel 13 by moving up and down so that the medicinebottle disinfection line 18 is uniformly wound on the take-up reel 13.

Wipeguide pulley 16 and set up in the right side corner position department atstorage box body 11's top, wipeguide pulley 16 and be used for the medicinebottle disinfection line 18 direction transmission to thetransition guide pulley 17 department withdrive roller 14 release to still be used for contacting medicinebottle disinfection line 18 to need disinfect on the medicine bottle, wipeguide pulley 16's bottom still is equipped withbuffer spring 161, when medicinebottle disinfection line 18 contacts to need disinfect the medicine bottle,buffer spring 161 is used for playing the cushioning effect.

Thetransition guide wheel 17 is arranged at a left side corner position of the top of thestorage box body 11, and thetransition guide wheel 17 is used for guiding and transmitting the medicinebottle disinfection line 18 passing through the wipingguide wheel 16 to the line adjusting wheel.

The containingbox body 11 is further provided with afirst guide groove 113 and asecond guide groove 114 respectively, two ends of thefirst guide groove 113 are connected to the positions of the drivingroller 14 and the wipingguide wheel 16 respectively, two ends of thesecond guide groove 114 are connected to the positions of thetransition guide wheel 17 and thecycloid roller 151 respectively, and thefirst guide groove 113 and thesecond guide groove 114 are used for guiding the transmission direction of the medicinebottle disinfection line 18.

In this embodiment, a newbottle disinfection line 18 is released from the pay-off reel 12 and is transmitted to the wipingguide wheel 16 through the drivingroller 14, after disinfection use, the usedbottle disinfection line 18 is wound on the take-up reel 13 through thetransition guide wheel 17 and the wire adjusting wheel to complete recovery, after all use, the usedbottle disinfection line 18 on the take-up reel 13 is taken out, and the newbottle disinfection line 18 is wound on the pay-off reel 12 again, or the pay-off reel 12 can be directly replaced.

In this embodiment, a plurality of paying-off observation holes 123 (8 are shown in this embodiment, 4 are respectively opened on each side) are respectively opened on two sides of the paying-off reel 12, the paying-off observation holes 123 are used for observing the allowance or winding condition of the medicinebottle disinfection line 18 on the paying-off reel 12, a plurality of taking-up observation holes 133 (8 are shown in this embodiment, 4 are respectively opened on each side) are respectively opened on two sides of the taking-upreel 13, and the taking-up observation holes 133 are used for observing the allowance or winding condition of the medicinebottle disinfection line 18 on the taking-upreel 13.

In this embodiment, each side of thestorage box body 11 is further provided with a first observation hole 111 and asecond observation hole 112, respectively, the first observation hole 111 is used for cooperating with the paying-offobservation hole 123 and observing the allowance or winding condition of the medicinebottle disinfection line 18 on the paying-off reel 12, and thesecond observation hole 112 is used for cooperating with the taking-upobservation hole 133 and observing the allowance or winding condition of the medicinebottle disinfection line 18 on the taking-upreel 13.

As shown in fig. 3 to 5, the present embodiment further provides a medicine bottle disinfecting apparatus used in cooperation with the receiving device, where the medicine bottle disinfecting apparatus includes a penicillin bottle disinfecting mechanism, an ampoule bottle disinfecting mechanism, a disinfectant supplying mechanism, a control module (not specifically shown in the figures), adisplay module 44, an alarm module (not specifically shown in the figures), and ahousing 5.

As shown in fig. 6 and 7, the present embodiment further provides a penicillin bottle disinfection apparatus used in cooperation with the storage device, where the penicillin bottle disinfection apparatus includes a penicillin bottle disinfection mechanism, a disinfectant supply mechanism, a control module, adisplay module 44, an alarm module, and ahousing 5.

As shown in fig. 8 to 10, the present embodiment further provides an ampoule bottle disinfection apparatus used in cooperation with the storage device, where the ampoule bottle disinfection apparatus includes an ampoule bottle disinfection mechanism, a disinfectant supply mechanism, a control module, adisplay module 44, an alarm module, and ahousing 5.

The penicillin bottle disinfection mechanism and the ampoule bottle disinfection mechanism are respectively arranged in theshell 5, and in the embodiment, the penicillin bottle disinfection mechanism is fixedly arranged at the top of the ampoule bottle disinfection mechanism.

Specifically, xiLin bottle disinfection mechanism includes that first access &exit 21, first straight line drive mechanism, first medicine bottle disinfection line drive mechanism and firstantiseptic solution burette 23 that hold mechanism, xiLin bottle disinfection mechanism.

The first containing mechanism and the horizontal direction form a preset included angle and is used for containing the containing device, so that the containing device and the horizontal direction form the preset included angle, and the containing device is inserted into the first containing mechanism from an inlet and anoutlet 21 of the penicillin bottle disinfection mechanism.

In this embodiment, the preset included angle is set to be 30 to 60 degrees, and preferably, the preset included angle is 45 degrees.

The first linear driving mechanism is arranged at the bottom of the first accommodating mechanism and is used for aligning and conveying the medicinebottle disinfection line 18 on the wipingguide wheel 16 of the accommodating device completely inserted into the first accommodating structure to the position of the bottle mouth of thepenicillin bottle 22 placed along the vertical direction, so that the disinfection of the position of the bottle mouth of thepenicillin bottle 22 is carried out.

In this embodiment, referring to fig. 12, the linear driving mechanism 6 (referred to as the first linear driving mechanism herein) includes a linear motor (not specifically shown), a linear slide rail (not specifically shown), and a slide block (not specifically shown), the slide block is fixedly disposed at the bottom of the first accommodating mechanism, the slide block is mounted on the linear slide rail, and the linear motor is configured to drive the slide block to slide on the linear slide rail so as to align and convey thevial sterilization line 18 to the vial opening position of thevial 22 placed in the vertical direction.

The first medicine bottle disinfection line driving mechanism is used for driving the take-up reel 13 of the storage device to rotate.

The nozzle of thefirst disinfectant dropper 23 is disposed at a position facing the wipingguide wheel 16, and is used to drop disinfectant to thevial disinfection line 18, so that thevial disinfection line 18 at the wipingguide wheel 16 is wetted by the disinfectant.

In this embodiment, the disinfectant is alcohol, but the type of the disinfectant is not particularly limited, and the disinfectant may be selected according to actual situations.

The control module is respectively in communication connection with the first linear driving mechanism and the first medicine bottle disinfection line driving mechanism, and the control module is configured to respectively send a first starting signal to the first linear driving mechanism and the first medicine bottle disinfection line driving mechanism so as to start the first linear driving mechanism and the first medicine bottle disinfection line driving mechanism.

Ampoule disinfection mechanism includes that the second holds mechanism, ampoule disinfection mechanism's access &exit 31, second straight line actuating mechanism, second medicine bottle disinfection line actuating mechanism and secondantiseptic solution burette 33.

The second accommodating mechanism is arranged along the horizontal direction and is used for accommodating the receiving device so as to load the receiving device into the second accommodating mechanism along the horizontal direction, and the receiving device is inserted into the second accommodating mechanism from the inlet andoutlet 31 of the ampoule bottle disinfection mechanism.

The second linear driving mechanism is disposed at the bottom of the second accommodating mechanism and is used for aligning and conveying the medicinebottle sterilizing line 18 on the wipingguide wheel 16 of the accommodating device fully inserted into the second accommodating structure to the bottleneck position of theampoule bottle 32 placed along the vertical direction, so that theampoule bottle 32 is sterilized at the bottleneck position.

In the present embodiment, referring to fig. 12, the linear driving mechanism 6 (referred to as the second linear driving mechanism, in this embodiment, the second linear driving mechanism has the same structure as the first linear driving mechanism) includes a linear motor, a linear slide rail, and a slider, the slider is fixedly disposed at the bottom of the second accommodating mechanism, the slider is mounted on the linear slide rail, and the linear motor is configured to drive the slider to slide on the linear slide rail, so as to align and convey the medicinebottle disinfection line 18 to the bottleneck position of theampoule bottle 32 placed in the vertical direction.

The second medicine bottle disinfection line driving mechanism is used for driving the take-up reel 13 of the storage device to rotate.

The nozzle of thesecond disinfectant dropper 33 is disposed at a position facing the wipingguide wheel 16, and is used for dropping disinfectant to the medicinebottle disinfection line 18, so that the medicinebottle disinfection line 18 at the wipingguide wheel 16 is wetted by the disinfectant.

The control module is respectively in communication connection with the second linear driving mechanism and the second medicine bottle disinfection line driving mechanism, and the control module is configured to respectively send a second starting signal to the second linear driving mechanism and the second medicine bottle disinfection line driving mechanism so as to start the second linear driving mechanism and the second medicine bottle disinfection line driving mechanism.

The disinfectant supplying mechanism is used for supplying disinfectant to thefirst disinfectant dropper 23 and thesecond disinfectant dropper 33 respectively.

In the present embodiment, the disinfecting liquid supplying mechanism includes a disinfectingbottle 41, a disinfectingliquid supplying pump 42 and agravity sensor 43.

The sterilizingbottle 41 is connected to a sterilizingliquid supply pump 42 via a water pipe (not specifically shown).

The sterilizingbottle 41 is filled with a sterilizing liquid, and a sterilizing liquid supply pump 42 (a floating pump may be used) is provided for drawing the sterilizing liquid from the sterilizingbottle 41 through the water pipe and supplying the sterilizing liquid to the first sterilizingliquid dripping nozzle 23 and the second sterilizingliquid dripping nozzle 33, respectively.

Thegravity sensor 43, thedisplay module 44 and the alarm module are respectively in communication connection with the control module.

Thegravity sensor 43 is configured to detect weight information of thesterilization bottle 41 and send the weight information to the control module.

The control module is configured to send the received weight information to thedisplay module 44.

Thedisplay module 44 is configured to display the weight information so that a user can view the remaining amount of the sterilizing fluid in real time.

In this embodiment, thedisplay module 44 is a liquid crystal display, but the type of the display module is not particularly limited, and may be selected accordingly according to actual situations.

The control module is further configured to generate alarm information and send the alarm information to the alarm module when the weight in the received weight information is smaller than a preset weight.

And the alarm module is configured to output an alarm prompt when receiving the alarm information so as to prompt a user to add disinfectant into thedisinfection bottle 41.

As shown in fig. 11 and 12, the present embodiment further provides a detection device for a medicine bottle disinfection line used in cooperation with the receiving device and the medicine bottle disinfection apparatus, and in the present embodiment, the detection device may be disposed in the medicine bottle disinfection apparatus.

The detection device includes a drug bottle disinfection line driving mechanism 7 (i.e. the first drug bottle disinfection line driving mechanism or the second drug bottle disinfection line driving mechanism, in this embodiment, the first drug bottle disinfection line driving mechanism and the first drug bottle disinfection line driving mechanism have the same structure), anencoding disk 761, a photoelectricdetection sensing assembly 762, an alarm module (which can share the alarm module), and a control module (which can share the control module).

The medicine bottle disinfectingline driving mechanism 7 comprises a drivingshaft 71, afirst transmission shaft 72, asecond transmission shaft 73, a line taking-up drivingshaft 74, a drivingshaft 75, a line paying-offshaft 76, acycloid shaft 77, a main driving motor (not specifically shown in the figure) and a line adjusting driving motor (not specifically shown in the figure).

Specifically, after the storage device is completely inserted into the first accommodating mechanism or the second accommodating mechanism, the main driving motor is used for driving the drivingshaft 71 to rotate, the drivingshaft 71 is used for driving thefirst driving shaft 72 to rotate, thefirst driving shaft 72 is used for driving the wire collecting drivingshaft 74 to rotate, and the wire collecting drivingshaft 74 is used for cooperating with thehollow portion 132 of the wire collecting reel of the storage device and driving thewire collecting reel 13 to rotate.

The drivingshaft 71 is further used for driving thesecond transmission shaft 73 to rotate, thesecond transmission shaft 73 is used for driving the drivingshaft 75 to rotate, the drivingshaft 75 is used for being matched with thehollow part 142 of the driving rod of the storage device and driving the drivingroller 14 to rotate, so that the linear speed of the medicinebottle disinfection line 18 is uniformly controlled, and the rotation of the take-up reel 13 can be limited by limiting the rotation of the drivingroller 14.

In this embodiment, the drivingshaft 71, thefirst transmission shaft 72, thesecond transmission shaft 73, the wirerewinding driving shaft 74 and the drivingshaft 75 can be respectively realized by a gear structure or a friction wheel structure, and the structure and the matching manner are not particularly limited, and can be adjusted accordingly according to actual conditions.

The pay-offshaft 76 is used for being matched with thehollow part 122 of the pay-off reel of the storage device, and the rotation of the pay-off reel 12 (when the take-up reel 13 rotates) drives the rotation of the pay-offshaft 76.

Theencoding disc 761 is coaxial with the pay-offshaft 76 and is sleeved on the pay-offshaft 76.

The photodetection sensing assembly 762 is communicatively connected to the control module, and the photodetection sensing assembly 762 is configured to generate angular displacement information of the pay-offshaft 76 through a detection hole on thecode disc 761 and transmit the angular displacement information to the control module.

The control module is configured to generate current remaining amount information for thevial sterilization line 18 on thepayout reel 12 based on the received angular displacement information.

The control module is further configured to generate first alarm information and send the first alarm information to the alarm module when the current allowance in the received current allowance information is smaller than a preset allowance.

And the alarm module is configured to output an alarm prompt when receiving the first alarm information so as to prompt a user to pay off the insufficient allowance of the medicinebottle disinfection line 18 on thescroll 12.

The wire adjusting driving motor is used for driving thecycloid shaft 77 to rotate, thecycloid shaft 77 is used for being matched with thehollow part 152 of the cycloid stick of the containing device and driving thecycloid stick 151 to rotate, so that the wire adjusting wheel of the containing device moves up and down along the extending direction of thecycloid stick 151 along with the rotation of thecycloid stick 151.

When thestorage box body 11 of the storage device limits the movement of the wire adjusting wheel (when the movement of the wire adjusting wheel is limited, the wire adjusting driving motor can generate instantaneous current, and the control module can detect the instantaneous current), the control module is also configured to generate a reverse rotation signal to the wire adjusting driving motor.

The thread adjusting driving motor is configured to drive thecycloid reel 77 to rotate reversely when receiving the reverse rotation signal, so that the thread adjusting wheel continuously reciprocates up and down, thereby uniformly winding thevial sterilizing thread 18 on the take-up reel 13.

The control module is further configured to generate second alarm information and send the second alarm information to the alarm module when thestorage box body 11 of the storage device limits the movement of the wire adjusting wheel (namely, the movement distance range of the wire adjusting wheel is the thickness range of the storage box body 11).

And the alarm module is configured to output an alarm prompt when receiving the second alarm information so as to prompt that the swingingshaft 77 needs to be driven to rotate reversely.

The storage device of medicine bottle disinfection line that this embodiment provided can deposit medicine bottle disinfection line, prevents effectively that the pollution of medicine bottle disinfection line from or losing, storage device accomodates structural design rationally, but also uses medicine bottle disinfecting equipment through the cooperation to come the disinfection of accomplishing the medicine bottle, has greatly improved disinfection efficiency.

The medicine bottle disinfecting equipment that this embodiment provided can accomplish the disinfection to the medicine bottle automatically, has guaranteed the disinfection quality of each medicine bottle effectively, has greatly improved disinfection efficiency moreover.

The xiLin bottle disinfecting equipment that this embodiment provided can accomplish the disinfection to xiLin bottle automatically, has guaranteed the disinfection quality of each xiLin bottle effectively, has greatly improved disinfection efficiency moreover.

The ampoule disinfection equipment that this embodiment provided can accomplish the disinfection to the ampoule automatically, has guaranteed the disinfection quality of each ampoule effectively, has greatly improved disinfection efficiency moreover.

But the detection device of the medicine bottle disinfection line that this embodiment provided is the current surplus of medicine bottle disinfection line in the automated inspection storage device, and the surplus is not enough then in time indicates the user to change, has guaranteed the quantity of medicine bottle disinfection line effectively, prevents extravagantly, has greatly improved disinfection efficiency moreover.

While, for purposes of simplicity of explanation, the methodologies are shown and described as a series of acts, it is to be understood and appreciated that the methodologies are not limited by the order of acts, as some acts may, in accordance with one or more embodiments, occur in different orders and/or concurrently with other acts from that shown and described herein or not shown and described herein, as would be understood by one skilled in the art.

The previous description of the disclosure is provided to enable any person skilled in the art to make or use the disclosure. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the spirit or scope of the disclosure. Thus, the disclosure is not intended to be limited to the examples and designs described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a storage device of medicine bottle disinfection line which characterized in that includes:

the storage box body is provided with a first through hole and a second through hole which penetrate through the side face of the storage box body respectively;

the pay-off reel is arranged in the storage box and rotates by taking the hollow part matched with the first through hole as an axis, and the pay-off reel is used for releasing the medicine bottle disinfection line wound on the pay-off reel through rotation;

the take-up reel is arranged in the storage box and rotates by taking the hollow part matched with the second through hole as an axis, and the take-up reel is used for taking up the medicine bottle disinfection line released by the pay-off reel through rotation;

the cleaning guide wheel is arranged at one corner position of the top of the storage box body and used for guiding and transmitting the medicine bottle disinfection line released by the paying-off reel to the take-up reel and contacting the medicine bottle disinfection line to a medicine bottle to be disinfected.

2. The storage device of claim 1, further comprising a drive stick;

the storage box body is also provided with a third through hole penetrating through the side surface of the storage box body;

the driving stick is arranged in the containing box body and rotates by taking the hollow part matched with the third through hole as an axis;

the drive rod is used for collecting through the rotation that the unwrapping wire spool releases the medicine bottle disinfection line and convolute the round, still is used for with the coiling round after the medicine bottle disinfection line direction is transmitted to clean leading wheel department.

3. The storage device of claim 2, further comprising a transition guide;

the transition guide wheel is arranged at the other angular position of the top of the containing box body;

the transition guide wheel is used for guiding and transmitting the medicine bottle disinfection line passing through the wiping guide wheel to the take-up reel.

4. The storage device of claim 3, further comprising a cycloidal stick and a wire regulating wheel;

the containing box body is also provided with a fourth through hole penetrating through the side surface of the containing box body;

the cycloidal stick is arranged in the containing box body and rotates by taking a hollow part matched with the fourth through hole as an axis;

the wire adjusting wheel is movably sleeved on the cycloid stick and moves up and down along the extension direction of the cycloid stick along with the rotation of the cycloid stick;

the wire adjusting wheel is used for guiding and transmitting the medicine bottle disinfection wire passing through the transition guide wheel to the take-up reel, and adjusting the winding position of the medicine bottle disinfection wire on the take-up reel through up-down movement.

5. The storage device of claim 4, wherein the storage box body is provided with a first guide groove and a second guide groove;

the two ends of the first guide groove are respectively connected to the positions of the driving roller and the wiping guide wheel, the two ends of the second guide groove are respectively connected to the positions of the transition guide wheel and the cycloid roller, and the first guide groove and the second guide groove are used for guiding the transmission direction of the medicine bottle disinfection line.

6. The storage device as claimed in claim 1, wherein a buffer spring is further provided at the bottom of the wiping roller.

7. The storage device of claim 1, wherein the side surfaces of the pay-off reel are respectively provided with a plurality of pay-off observation holes.

8. The storage device of claim 1, wherein a plurality of wire-receiving observation holes are respectively formed on the side surfaces of the wire-receiving reel.

9. The storage device of claim 1, wherein the side surface of the storage box body is further provided with a first observation hole and a second observation hole respectively.

10. The storage device according to any one of claims 1 to 9, wherein the storage box body is of a cartridge structure.

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