Disclosure of Invention
Based on the above, the present invention aims to provide a child care device with a self-cleaning function, so as to solve the technical problems set forth in the background art.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a children severe nursing device with self-cleaning function, includes the base plate, and locates the infant frame at base plate top, infant frame includes bears the box, locates bear box one end and with bear the extension rod of box intercommunication's locating tube, the other end, and the bottom is connected the base plate, the top is connected the supporting seat of locating tube outer wall, bear the outside cover of box and be equipped with the modularization cabin device, bear the bottom of the box and be equipped with automatic kill the device, be equipped with on the base plate and overlap and locate the outside germ scope decision device of modularization cabin device;
The modularized cabin device comprises a first rotating plate sleeved outside the positioning pipe and connected with the base plate in a sliding manner, a plurality of rotating rings sequentially arranged on one side of the first rotating plate and sleeved outside the bearing box, a translation driving part arranged on the base plate, a second rotating plate arranged at the execution end of the translation driving part and sleeved outside the extension rod, and a switching driving part arranged on the base plate and used for driving the first rotating plate or the rotating rings or the second rotating plate to rotate, wherein the first rotating plate is connected with adjacent rotating rings in a rotating manner, two adjacent rotating rings are connected with each other in a rotating manner, and magnetic linkage parts are arranged between the first rotating plate and the adjacent rotating rings, between the two adjacent rotating rings and between the second rotating plate and the adjacent rotating rings;
The automatic sterilizing device comprises a comprehensive sterilizing component arranged at one side of the bottom of the bearing box and a single-area sterilizing component arranged at the other side of the bottom of the bearing box.
Preferably, the germ range judging device comprises an arch frame arranged on the base plate and a plurality of cameras arranged on the outer wall of the arch frame. In the preferred embodiment, the patient posture is conveniently photographed by the germ range judging device when the patient sneezes, so that the coverage of the spray can be judged.
Preferably, the comprehensive sterilization component comprises an n-shaped sterilization spray pipe arranged at the bottom of the bearing box, a first extension plate arranged at the bottom of the n-shaped sterilization spray pipe, a first resistance heating plate arranged on the outer wall of the first extension plate, and a first liquid source pipe, wherein one end of the first resistance heating plate is communicated with the n-shaped sterilization spray pipe, and the other end of the first liquid source pipe extends to the outside of the positioning pipe. In the preferred embodiment, simultaneous sterilization of the first swivel plate, swivel and second swivel plate is facilitated by the overall sterilization means.
Preferably, the single-zone sterilization component comprises a first linear module arranged at the bottom of the bearing box, a moving block arranged at the execution end of the first linear module, a direct sterilization spray pipe with one end rotationally connected with the bottom of the moving block, two magnetic blocks symmetrically arranged at two sides of the direct sterilization spray pipe, two first electromagnetic blocks arranged at the bottom of the moving block and distributed in a mutually perpendicular manner, a second liquid source pipe with one end communicated with the direct sterilization spray pipe and the other end extending to the outside of the positioning pipe, a second extension plate arranged at the bottom of the direct sterilization spray pipe, and a second resistance type heating plate arranged on the outer wall of the second extension plate. In the preferred embodiment, the first swivel plate or swivel or second swivel plate is individually killed by a single zone killing feature.
Preferably, the translation driving component comprises two second linear modules symmetrically arranged on the base plate, and two sliding rail blocks respectively connected with the execution ends of the second linear modules at two ends of the bottom, and the outer wall of the second rotating plate is in sliding connection with the sliding rail blocks. In the preferred embodiment, the second rotating plate is conveniently moved by the translation driving part so as to conveniently open or close the modularized cabin device.
Preferably, the switching driving component comprises a third linear module arranged on the base plate, a driving motor arranged at the execution end of the third linear module, and a driving wheel arranged at the execution end of the driving motor. In the preferred embodiment, the first rotating plate or the rotating ring or the second rotating plate is conveniently rotated by switching the driving component.
Preferably, the magnetic attraction linkage component comprises a second electromagnetic block arranged on the swivel. In the preferred embodiment, the first swivel plate, swivel and second swivel plate are facilitated to rotate together by a second electromagnetic block.
Preferably, the base plate is provided with a magnetic attraction limiting component at the bottom of the swivel, and the magnetic attraction limiting component comprises a transverse plate arranged on the base plate and a plurality of third electromagnetic blocks arranged on the transverse plate and distributed in a linear array. In the preferred embodiment, the first rotating plate, the rotating ring and the second rotating plate are conveniently and stably fixed through the magnetic attraction limiting part.
Preferably, the outer wall of the bearing box is provided with an air bag plugging part, and the air bag plugging part comprises an air bag arranged on the outer wall of the bearing box, and an air source pipe with one end communicated with the air bag and the other end extending to the outside through the positioning pipe. In the preferred embodiment, the sealing or unsealing between the carrier box and the first swivel plate, swivel and second swivel plate is achieved by means of an air bag closure member.
Preferably, the base plate is provided with an auxiliary ventilation component, the auxiliary ventilation component comprises two fourth linear modules symmetrically arranged on the base plate, a bidirectional linear module which is arranged on the upper portion of the swivel and is connected with the execution end of the fourth linear module through a support rod, an air inlet pipe arranged at one execution end of the bidirectional linear module, an air outlet pipe arranged at the other execution end of the bidirectional linear module, and a plurality of operation holes arranged on the outer wall of the swivel. In this preferred embodiment, the replacement of the air in the modular cabin installation is facilitated by the auxiliary ventilation means.
In summary, the invention has the following advantages:
the device is convenient for quick replacement and cleaning of the germ pollution area in the severe nursing box;
The germ range judging device is convenient for shooting the posture of the patient when the patient sneezes, so as to judge the coverage range of the spray;
The modularized cabin device is convenient to replace a polluted cabin section, the second rotating plate is convenient to drive to move through the translation driving part in the modularized cabin device so as to conveniently open or close the modularized cabin device, the first rotating plate or the rotating ring or the second rotating plate is convenient to drive to rotate through the switching driving part, the first rotating plate, the rotating ring and the second rotating plate are convenient to rotate together through the second electromagnetic block, the first rotating plate, the rotating ring and the second rotating plate are convenient to be stably fixed through the magnetic limiting part, the bearing box and the first rotating plate, the rotating ring and the second rotating plate are sealed or unsealed through the air bag plugging part, and the air in the modularized cabin device is convenient to replace through the auxiliary ventilation part;
The automatic disinfection device is convenient for disinfect the polluted cabin section or the whole cabin, the automatic disinfection device is convenient for simultaneously disinfecting the first rotating plate, the rotating ring and the second rotating plate through the comprehensive disinfection component, and the single-area disinfection component is convenient for independently disinfecting the first rotating plate, the rotating ring or the second rotating plate.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.
Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.
Examples
Referring to fig. 1, 2, 6 and 7, in a preferred embodiment of the present invention, a child care device with self-cleaning function includes a base plate 10, and a child-care support 11 disposed on top of the base plate 10, the child-care support 11 includes a carrying case 111, a positioning tube 112 disposed at one end of the carrying case 111 and communicating with the carrying case 111, an extension rod 113 at the other end, and a supporting seat 114 with a bottom end connected to the base plate 10 and a top end connected to an outer wall of the positioning tube 112, a modularized cabin device 20 is sleeved outside the carrying case 111, an automatic sterilizing device 30 is disposed at a bottom of the carrying case 111, and a germ range determining device 40 sleeved outside the modularized cabin device 20 is disposed on the base plate 10; the germ range determination device 40 includes an arch 41 provided on the base plate 10, and a plurality of cameras 42 provided on the outer wall of the arch 41.
In this embodiment, when in use, a user opens the modular cabin device 20 to place a patient on the carrying case 111, closes the modular cabin device 20, monitors the patient by the germ range determination device 40, records the posture of the patient when the patient sneezes, and transmits the posture picture information of the patient to the controller, the controller analyzes the posture picture information to obtain the pollution area information, and triggers the modular cabin device 20 to switch the pollution module according to the pollution area information, and at the same time triggers the automatic sterilizing device 30 to clean the switched module;
Further, when the germ range judging device 40 works, the plurality of cameras 42 monitor the patient, record the posture of the patient when the patient sneezes, and transmit the picture information of the posture of the patient to the controller;
Further, the harness of the therapeutic apparatus may be passed into the carrier box 111 from the positioning tube 112 and out of the opening in the carrier box 111 to monitor the patient's physical symptoms.
Referring to fig. 2,3, 4, 8, and 10, in another preferred embodiment of the present invention, the modular cabin device 20 includes a first rotating plate 21 sleeved outside the positioning tube 112 and having an outer wall slidingly connected to the base plate 10, a plurality of rotating rings 22 sequentially disposed at one side of the first rotating plate 21 and sleeved outside the carrying case 111, a translation driving member 23 disposed on the base plate 10, a second rotating plate 24 disposed at an execution end of the translation driving member 23 and sleeved outside the extension rod 113, and a switching driving member 25 disposed on the base plate 10 and used for driving the first rotating plate 21 or the rotating rings 22 or the second rotating plate 24 to rotate, wherein two adjacent rotating rings 22 are rotatably connected, and magnetic linkage members 26 are disposed between the first rotating plate 21 and the adjacent rotating ring 22, between two adjacent rotating rings 22, and between the second rotating plate 24 and the adjacent rotating ring 22; the translation driving part 23 comprises two second linear modules 231 symmetrically arranged on the base plate 10, and a sliding rail block 232 with two ends at the bottom connected with the execution ends of the second linear modules 231 respectively, the outer wall of the second rotating plate 24 is slidably connected with the sliding rail block 232, the switching driving part 25 comprises a third linear module 251 arranged on the base plate 10, a driving motor 252 arranged on the execution end of the third linear module 251, and a driving wheel 253 arranged on the execution end of the driving motor 252, the magnetic linkage part 26 comprises a second electromagnetic block 261 arranged on the rotating ring 22, the base plate 10 and the bottom of the rotating ring 22 are provided with magnetic limiting parts 27, the magnetic limiting parts 27 comprise transverse plates 271 arranged on the base plate 10, and a plurality of third electromagnetic blocks 272 disposed on the transverse plate 271 and distributed in a linear array, wherein the outer wall of the bearing box 111 is provided with an air bag plugging member 28, the air bag plugging member 28 comprises an air bag 281 disposed on the outer wall of the bearing box 111, an air source pipe 282 with one end communicated with the air bag 281 and the other end extending to the outside through the positioning pipe 112, an auxiliary ventilation member 29 is disposed on the base plate 10, the auxiliary ventilation member 29 comprises two fourth linear modules 291 symmetrically disposed on the base plate 10, a bidirectional linear module 292 disposed on the upper portion of the swivel 22 and connected with the execution end of the fourth linear modules 291 through a support rod, an air inlet pipe 293 disposed at one execution end of the bidirectional linear module 292, an air outlet pipe 294 disposed at the other execution end, and a plurality of operation holes 295 disposed at the outer wall of two swivel 22.
It should be noted that, in the present embodiment, when the modular cabin device 20 works, the actuating end of the second linear module 231 drives the second rotating plate 24 to move, so that the second rotating plate 24 is separated from the extension rod 113, and the modular cabin device 20 is opened, after a patient enters and lies in the carrying case 111, the actuating end of the second linear module 231 drives the second rotating plate 24 to reset, when the patient contaminates the internal space of the modular cabin device 20 due to a disease such as sneeze, the switching driving part 25 will rotate and replace the first rotating plate 21, the rotating ring 22 and the second rotating plate 24, so that the portion of the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 after being killed is rotated to the upper portion of the carrying case 111, and the contaminated portion is rotated to the bottom of the carrying case 111;
the air bag plugging member 28 is removed before the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 rotate, and the automatic sterilizing device 30 kills the polluted part when the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 rotate;
Further, when the switching driving component 25 works, the execution end of the third linear module 251 drives the driving motor 252 to move so as to move the driving motor 252 to a specified position, the execution end of the driving motor 252 drives the driving wheel 253 to rotate, and the driving wheel 253 drives the first rotating plate 21 or the rotating ring 22 or the second rotating plate 24 to rotate;
further, when the air bag plugging member 28 works, the air source pipe 282 may be connected to an air source system, and the air source system may perform pressurization and air supply or decompression suction on the air bag 281, so that the air bag 281 seals or unseals the gaps between the bearing box 111 and the first rotating plate 21, the rotating ring 22 and the second rotating plate 24;
Further, when the auxiliary ventilation component 29 works, the air inlet pipe 293 can be connected with an air source system, the air outlet pipe 294 can be connected with an air outlet system, the execution end of the fourth linear module 291 drives the bidirectional linear module 292 to move, and the bidirectional linear module 292 drives the air inlet pipe 293 and the air outlet pipe 294 to move so as to enable the air inlet pipe 293 and the air outlet pipe 294 to be matched and clamped with the operation hole 295, clean air enters through the air inlet pipe 293 at the moment, and polluted air is discharged through the air outlet pipe 294;
further, when the magnetic attraction linkage part 26 works, the second electromagnetic block 261 at the corresponding position is started, and the second electromagnetic block 261 is electrified to magnetically attract so as to connect the first rotating plate 21 or the rotating ring 22 or the second rotating plate 24 to be rotated together into a whole;
Further, when the magnetic attraction limiting member 27 is operated, the third electromagnetic block 272 is energized to generate a magnetic force to magnetically attract and fix the first rotating plate 21, the rotating ring 22 and the second rotating plate 24.
Referring to fig. 5, 7, 9 and 11, in another preferred embodiment of the present invention, the automatic sterilizing device 30 includes a comprehensive sterilizing unit 31 disposed at one side of the bottom of the carrier box 111 and a single-zone sterilizing unit 32 disposed at the other side. The comprehensive sterilization component 31 comprises an n-shaped sterilization spray pipe 311 arranged at the bottom of the bearing box 111, a first extension plate 312 arranged at the bottom of the n-shaped sterilization spray pipe 311, a first resistance type heating plate 313 arranged at the bottom of the first extension plate 312, and a first liquid source pipe 314 with one end communicated with the n-shaped sterilization spray pipe 311 and the other end extended to the outside of the positioning pipe 112, the single-area sterilization component 32 comprises a first linear module 321 arranged at the bottom of the bearing box 111, a moving block 322 arranged at the execution end of the first linear module 321, a direct sterilization spray pipe 323 with one end rotationally connected with the bottom of the moving block 322, two magnetic blocks 324 symmetrically arranged at two sides of the direct sterilization spray pipe 323, two first electromagnetic blocks 325 arranged at the bottom of the moving block 322 and distributed in mutually perpendicular mode, a second liquid source pipe 326 with one end communicated with the direct sterilization spray pipe 323 and the other end extended to the outside of the positioning pipe 112, a second extension plate 327 arranged at the bottom of the direct sterilization spray pipe 323, and a second resistance type heating plate 328 arranged at the outer wall of the second electromagnetic blocks 327.
In this embodiment, when the overall sterilizing unit 31 works, the access end of the first liquid source pipe 314 is connected to the sterilizing liquid supply system, and the sterilizing liquid is sprayed on the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 through the n-shaped sterilizing spray pipe 311 after passing through the first liquid source pipe 314, so as to perform sterilizing operation, and the sterilizing liquid is dried in an auxiliary manner after the first resistive heating plate 313 is electrified, so that the sterilizing operation is completed;
further, when the single-zone sterilizing component 32 works, the access end of the second liquid source pipe 326 is connected with the sterilizing liquid supply system, the execution end of the first linear module 321 drives the direct sterilizing spray pipe 323 to move to a designated position, sterilizing liquid is sprayed out of the direct sterilizing spray pipe 323 through the second liquid source pipe 326 to sterilize the swivel 22, the second resistance heating plate 328 is used for assisting in drying the sterilizing liquid after sterilizing, when the direct sterilizing spray pipe 323 needs to sterilize the first swivel plate 21 or the second swivel plate 24, one of the first electromagnetic blocks 325 is electrified to generate repulsive force with the same polarity as the magnetic block 324, and the other first electromagnetic block 325 is electrified to generate attractive force opposite to the magnetic block 324, so that the direct sterilizing spray pipe 323 rotates at the moment to sterilize the first swivel plate 21 or the second swivel plate 24.
The working principle of the invention is as follows:
The electrical components in the invention are triggered to run by the PLC;
When the device is used, a user opens the modularized cabin device 20 to place a patient on the carrying box 111, the modularized cabin device 20 is closed, the germ range judging device 40 monitors the patient and records the posture of the patient when the patient sneezes, and transmits the posture picture information of the patient to the controller, the controller acquires pollution area information after analysis, and triggers the modularized cabin device 20 to switch pollution modules according to the pollution area information, and simultaneously triggers the automatic sterilizing device 30 to clean the switched modules;
when the germ range judging device 40 works, the plurality of cameras 42 monitor the patient, record the posture of the patient when the patient sneezes, and transmit the picture information of the posture of the patient to the controller;
the wire harness of the therapeutic instrument can enter the bearing box 111 from the positioning tube 112 and pass out from the opening on the bearing box 111 so as to monitor the physical sign of the patient;
when the modular cabin device 20 works, the execution end of the second linear module 231 drives the second rotating plate 24 to move, so that the second rotating plate 24 is separated from the extension rod 113, and the modular cabin device 20 is opened, after a patient enters and lies in the carrying box 111, the execution end of the second linear module 231 drives the second rotating plate 24 to reset, when the patient contaminates the inner space of the modular cabin device 20 due to a disease such as sneeze, the switching driving part 25 rotates and replaces the first rotating plate 21, the rotating ring 22 and the second rotating plate 24, so that the sterilized parts of the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 are rotated to the upper part of the carrying box 111, and the polluted parts are rotated to the bottom of the carrying box 111;
the air bag plugging member 28 is removed before the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 rotate, and the automatic sterilizing device 30 kills the polluted part when the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 rotate;
When the switching driving component 25 works, the execution end of the third linear module 251 drives the driving motor 252 to move so as to move the driving motor 252 to a specified position, the execution end of the driving motor 252 drives the driving wheel 253 to rotate, and the driving wheel 253 drives the first rotating plate 21 or the rotating ring 22 or the second rotating plate 24 to rotate;
When the air bag plugging member 28 works, the air source pipe 282 can be connected with an air source system, and the air source system can be used for pressurizing, supplying air or sucking air in the air bag 281 in a decompression mode, so that the air bag 281 seals or unseals gaps among the bearing box 111, the first rotating plate 21, the rotating ring 22 and the second rotating plate 24;
when the auxiliary ventilation part 29 works, the air inlet pipe 293 can be connected with an air source system, the air outlet pipe 294 can be connected with an air outlet system, the execution end of the fourth linear module 291 drives the bidirectional linear module 292 to move, the bidirectional linear module 292 drives the air inlet pipe 293 and the air outlet pipe 294 to move so as to enable the air inlet pipe 293 and the air outlet pipe 294 to be matched and clamped with the operation hole 295, clean air enters through the air inlet pipe 293, and polluted air is discharged through the air outlet pipe 294;
When the magnetic attraction linkage part 26 works, the second electromagnetic block 261 at the corresponding position is started, and the second electromagnetic block 261 is electrified to magnetically attract so as to connect the first rotating plate 21 or the rotating ring 22 or the second rotating plate 24 to be rotated together into a whole;
When the magnetic attraction limiting part 27 works, the third electromagnetic block 272 is electrified to generate magnetic force so as to magnetically attract and fix the first rotating plate 21, the rotating ring 22 and the second rotating plate 24;
When the comprehensive sterilization component 31 works, the access end of the first liquid source pipe 314 is connected with a sterilization liquid supply system, sterilization liquid passes through the first liquid source pipe 314 and is sprayed on the first rotating plate 21, the rotating ring 22 and the second rotating plate 24 through the n-shaped sterilization spray pipe 311 so as to perform sterilization, and the sterilization liquid is dried in an auxiliary manner after the first resistance heating plate 313 is electrified, so that the sterilization work is completed;
When the single-area sterilizing component 32 works, the access end of the second liquid source pipe 326 is connected with a sterilizing liquid supply system, the execution end of the first linear module 321 drives the direct sterilizing spray pipe 323 to move to a designated position, sterilizing liquid is sprayed out through the direct sterilizing spray pipe 323 after passing through the second liquid source pipe 326 so as to sterilize the swivel 22, the sterilizing liquid is dried in an auxiliary mode through the second resistance heating plate 328 after sterilization, when the direct sterilizing spray pipe 323 needs to sterilize the first swivel plate 21 or the second swivel plate 24, one of the first electromagnetic blocks 325 is electrified to generate repulsive force with the same polarity as the magnetic block 324, the other first electromagnetic block 325 is electrified to generate attractive force opposite to the magnetic block 324, and at the moment, the direct sterilizing spray pipe 323 rotates so as to sterilize the first swivel plate 21 or the second swivel plate 24.
Although embodiments of the invention have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the invention as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the invention, provided that such modifications are within the scope of the appended claims.