CN218113323U - Self-discharging type test paper bottle - Google Patents

Abstract

The utility model discloses a from ejection of compact type test paper bottle, including outer storage bottle, ejection of compact subassembly and interior storage bottle, outer storage bottle includes outer body and outer bottle lid, thereby one side of outer bottle lid articulates the open-top of accessible rotation with opening or closed outer body mutually with one side of outer body, outer bottle lid is equipped with the push rod among the inner chamber that extends into outer body with the articulated department of outer body, the top and the bottom of interior storage bottle are equipped with discharge gate and the socket of relative setting respectively, ejection of compact subassembly includes casing, location strip, drive mechanism and cutting, the casing is located among the inner chamber of outer body, drive mechanism can receive the pushing effect of push rod and promote the cutting upwards to stretch into in the storage bottle and upwards ejecting a slice test paper along the discharge gate at outer bottle lid rotation and open outer body's open-top's in-process, drive mechanism can pull the cutting under natural state and reply the normal position downwards, and the test paper is taken conveniently, is difficult for touching other test papers.

Description

Self-discharging type test paper bottle

[ technical field ] A

The utility model relates to a technical field of test paper bottle especially from the technical field of ejection of compact type test paper bottle.

[ background of the invention ]

Biochemical test paper is a type of paper in which biochemical reagents are immobilized on the paper to test for biochemical substances in blood, urine, feces, and other body fluids, such as bilirubin, proteins, glucose, hemoglobin, ketone bodies, nitrite, urobilinogen, etc. in serum, plasma, or urine. In life, blood glucose test strips are relatively common and are usually used together with a blood glucose meter to measure the blood glucose content.

At present, a test paper bottle for containing blood glucose test paper in the market generally comprises a cylindrical bottle body with a bottle opening arranged at the top and a bottle cap for closing the bottle opening. When a user needs to take out one blood glucose test strip from the test paper bottle, in order to avoid touching other blood glucose test strips by fingers, the bottle body is shaken to move all the blood glucose test strips to the bottle mouth, and then the blood glucose test strips are taken out. However, the problem that the finger touches other blood glucose test strips by mistake, which is likely to cause the change of the biological activity of other test strips and finally causes the deviation of the test result, cannot be completely avoided by the taking method.

In addition, the utility model patent of publication No. CN215205947U discloses a blood sugar test paper bottle, its accessible is to the mode of bottle downward sloping and application of force shake when using, make and get into the intraoral blood sugar test paper of direction and guide slot ground guide down from the opening outside the bottle and get into in the clamp of U-shaped splint, thereby the briquetting of clamp both sides is pressed to usable thumb and forefinger application of force simultaneously, backing plate through both sides in the U-shaped clamp is with the blood sugar test paper clamping, the application of force upwards drags the U-shaped splint again, make the first slider of U-shaped clamp both sides, the second slider is from first riser, roll-off between the second riser, then install the test paper on the blood glucose meter with the help of U-shaped splint. Although the test paper bottle is not easy to pollute other blood glucose test paper, the user still needs to shake the bottle body continuously in operation to enable one blood glucose test paper to extend out of the bottle body along the opening, which is troublesome, and because the opening is small, if the number of the blood glucose test paper in the bottle is small, the remaining few blood glucose test paper can be difficult to ensure to accurately and quickly fall out along the opening.

[ Utility model ] content

The utility model aims at solving the problem among the prior art, propose from ejection of compact type test paper bottle, can realize the single automatic release monolithic test paper that uncaps, take convenient and be difficult for touching other test papers.

In order to achieve the above object, the utility model provides a from ejection of compact type test paper bottle, including outer storage bottle, ejection of compact subassembly and interior storage bottle, outer storage bottle includes outer body and outer bottle lid, thereby one side of outer bottle lid articulates the open-top with opening or sealing outer body's of accessible mutually with one side of outer body, the articulated department of outer bottle lid and outer body is equipped with the push rod among the inner chamber that extends into outer body, the top and the bottom of interior storage bottle are equipped with discharge gate and the socket of relative setting respectively, ejection of compact subassembly includes casing, location strip, drive mechanism and cutting, the casing is located among the inner chamber of outer body, interior storage bottle is through a plurality of location strips and unsettled setting among the inner chamber of casing, the one end of drive mechanism and cutting is connected and all is located the casing, drive mechanism can be pushed the cutting by the extrusion effect of push rod and promote the cutting upwards stretch into in the storage bottle and upwards push out the test paper along the discharge gate upwards in the test paper in the normal position of the pull-up of outer bottle lid rotation and open outer body, the cutting mechanism can reply the normal position downwards under the natural state.

Preferably, the outer walls of the outer bottle body and the outer bottle cap are respectively provided with a clamping point and a buckle which can be mutually clamped and connected relative to the hinged sides of the outer bottle body and the outer bottle cap.

Preferably, an arc-shaped sliding groove is formed in the outer wall of the outer bottle body and close to the hinged position of the outer bottle body and the outer bottle cap, a sliding rod is arranged on the push rod, and the sliding rod is connected in the arc-shaped sliding groove in a sliding mode.

Preferably, the transmission mechanism comprises a rotating shaft, a shaft rod, a seat shaft and a feeding spring, the seat shaft is positioned at the bottom of the inner cavity of the shell, the middle part of the seat shaft is hinged with the shell, two ends of the seat shaft are hinged with one end of the shaft rod and one end of the inserting strip respectively, the middle part of the rotating shaft is hinged with the shell, one end of the rotating shaft can be pushed by the push rod, the other end of the rotating shaft is hinged with the other end of the shaft rod, the hinged end of the seat shaft and the shaft rod is further fixed with one end of the feeding spring, and the other end of the feeding spring is fixed with the shell and has an extending elastic trend, so that the inserting strip can be forced to move downwards along the inserting opening in the process that the outer bottle cap rotates and the top opening of the outer bottle body is closed.

Preferably, the inner storage bottle comprises an inner bottle body and an inner bottle cap, the top opening of the inner bottle body is closed by the inner bottle cap, the discharge port and the socket are respectively located on the inner bottle cap and the inner bottle body, the bottom of the inner bottle body is provided with a downward extending annular convex wall surrounding the discharge port, and when the outer bottle cap closes the top opening of the outer bottle body, the top end of the insert is located in a channel of the annular convex wall.

Preferably, the outer wall of the inner bottle body is further provided with an opening, the discharging assembly further comprises an auxiliary spring, one end of the auxiliary spring is fixed with the shell, the other end of the auxiliary spring can extend into the inner cavity of the inner bottle body along the opening, and the auxiliary spring has an extending elastic trend so as to push the residual test paper in the bottle to move towards one side close to the discharging port and the socket.

Preferably, the inner storage bottle further comprises a push plate, the push plate is located in the inner cavity of the inner bottle body, and one end, extending into the inner cavity of the inner bottle body, of the auxiliary spring is fixed with the push plate.

Preferably, a partition plate is further obliquely installed in the inner cavity of the inner bottle body, and the distance between the partition plate and the bottle bottom of the inner bottle body is gradually reduced from one side close to the opening to one side close to the socket.

Preferably, the partition plate divides an inner cavity of the inner bottle body into an upper cavity and a lower cavity which are arranged up and down, the upper cavity is used for placing test paper, the lower cavity is filled with drying agents, and the partition plate is further provided with a plurality of air holes.

Preferably, the outer wall of the inner bottle body is also provided with a plurality of limiting strips which can be matched with the positioning strips for limiting.

The utility model has the advantages that:

1. the outer bottle body and the outer bottle cap which are hinged at one end are arranged to jointly form an outer storage bottle, a push rod extending into the outer bottle body is additionally arranged at the hinged position of the outer bottle cap, and meanwhile, the shell, the positioning strip, the transmission mechanism and the inserting strip are arranged to jointly form a discharging assembly;

2. the annular convex wall extending downwards is arranged at the bottom of the inner bottle body and surrounds the discharge hole, so that the top end of the cutting can be temporarily stored in the channel of the annular convex wall when the material is not discharged, the cutting is limited to vertically move only, and the smooth linkage among the outer bottle cap, the transmission mechanism and the cutting is ensured;

3. the opening is additionally arranged on the outer wall of the inner bottle body, and the push plate is arranged in the inner bottle body, so that the auxiliary spring can be utilized to push the rest test paper to integrally move towards one side of the inner bottle body with the discharge hole and the socket, and the smooth discharge of the subsequent test paper is ensured;

4. the inner cavity of the inner bottle body is divided into an upper cavity and a lower cavity which are arranged up and down by adopting the inclined partition plate with a plurality of air holes, so that the test paper can be obliquely placed in the upper cavity and can move between the discharge hole and the socket one by one under the action of gravity, and the lower cavity can be filled with a drying agent, thereby avoiding the influence of moisture in the air on the normal detection of the test paper;

5. through set up location strip and spacing that can mutually support respectively in casing and interior body department, the setting of storage bottle unsettled all the time is in predetermineeing position department in can guaranteeing.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a front sectional view of a self-discharging test paper bottle according to the present invention when the outer cap is closed;

FIG. 2 is a front sectional view of the self-discharging test paper bottle of the present invention when the outer cap is opened;

FIG. 3 is a front view of the outer storage bottle of the self-discharging type test paper bottle of the present invention when the outer bottle cap is opened;

FIG. 4 is a schematic view of the internal structure of the discharging assembly of the self-discharging type test paper bottle of the present invention;

FIG. 5 is a front view of the inner storage bottle of the self-discharging type test paper bottle of the present invention;

fig. 6 is a front sectional view of the inner storage bottle of the self-discharging test paper bottle of the present invention.

In the figure: 1-outer storage bottle, 11-outer bottle body, 111-clamping point, 112-arc chute, 12-outer bottle cap, 121-push rod, 122-buckle, 123-slide bar, 2-discharging component, 21-shell, 22-positioning bar, 23-transmission mechanism, 231-rotating shaft, 232-shaft lever, 233-seat shaft, 234-feeding spring, 24-inserting bar, 25-auxiliary spring, 3-inner storage bottle, 31-inner bottle body, 311-limiting bar, 312-inserting opening, 313-annular convex wall, 32-inner bottle cap, 321-discharging opening, 33-push plate, 34-clapboard and 4-test paper.

[ detailed description ] A

Referring to fig. 1 to 6, the self-discharging type test paper bottle of the present invention comprises an outer storage bottle 1, adischarging component 2 and an inner storage bottle 3, wherein the outer storage bottle 1 comprises anouter bottle body 11 and anouter bottle cap 12, one side of theouter bottle cap 12 is hinged to one side of theouter bottle body 11 so as to open or close the top opening of theouter bottle body 11 through rotation, apush rod 121 extending into the inner cavity of theouter bottle body 11 is disposed at the hinged position of theouter bottle cap 12 and theouter bottle body 11, adischarging port 321 and asocket 312 are disposed at the top and the bottom of the inner storage bottle 3 respectively, thedischarging component 2 comprises ahousing 21, apositioning strip 22, atransmission mechanism 23 and aninsertion strip 24, theshell 21 is located in the inner cavity of theouter bottle body 11, the inner storage bottle 3 is suspended in the inner cavity of theshell 21 through a plurality ofpositioning strips 22, thetransmission mechanism 23 is connected with one end of theinsert strip 24 and is located in theshell 21, thetransmission mechanism 23 can push theinsert strip 24 to extend upwards into the inner storage bottle 3 along the insertion opening 312 and push out one piece oftest paper 4 upwards along the discharge opening 321 under the pushing action of thepush rod 121 in the process that theouter bottle cap 12 rotates and opens the top opening of theouter bottle body 11, and thetransmission mechanism 23 can pull theinsert strip 24 to return to the original position downwards in a natural state.

The outer walls of theouter body 11 and theouter bottle cap 12 and the hinged sides of theouter body 11 and theouter bottle cap 12 are respectively provided with a clamping point 111 and abuckle 122 which can be clamped with each other.

An arc-shapedsliding groove 112 is formed in the outer wall of theouter bottle body 11 and close to the hinged position of theouter bottle cap 12, asliding rod 123 is arranged on thepush rod 121, and thesliding rod 123 is connected in the arc-shapedsliding groove 112 in a sliding mode.

Thetransmission mechanism 23 includes arotation shaft 231, ashaft 232, aseat shaft 233 and aloading spring 234, theseat shaft 233 is located at the bottom of the inner cavity of thehousing 21, the middle portion of theseat shaft 233 is hinged to thehousing 21, two ends of the seat shaft are hinged to theshaft 232 and one end of theinsert 24, the middle portion of therotation shaft 231 is hinged to thehousing 21, one end of therotation shaft 231 can be pushed by thepush rod 121, the other end of the rotation shaft is hinged to the other end of theshaft 232, the hinged end of theseat shaft 233 and theshaft 232 is further fixed to one end of theloading spring 234, and the other end of theloading spring 234 is fixed to thehousing 21 and has an elastic tendency of elongation so as to force theinsert 24 to move downward along the insertion opening 312 during the process of theouter bottle cap 12 rotating and closing the top opening of theouter bottle body 11.

The inner storage bottle 3 comprises aninner bottle body 31 and aninner bottle cap 32, the top opening of theinner bottle body 31 is closed by theinner bottle cap 32, thedischarge hole 321 and thesocket 312 are respectively located on theinner bottle cap 32 and theinner bottle body 31, the bottom of theinner bottle body 31 is provided with a downward extendingannular convex wall 313 around thedischarge hole 321, and when theouter bottle cap 12 closes the top opening of theouter bottle body 11, the top end of theinsert 24 is located in the channel of theannular convex wall 313.

The outer wall of theinner bottle body 31 is further provided with an opening, thedischarging assembly 2 further comprises anauxiliary spring 25, one end of theauxiliary spring 25 is fixed to thehousing 21, the other end of the auxiliary spring can extend into the inner cavity of theinner bottle body 31 along the opening, and theauxiliary spring 25 has an elastic extending trend to push theremaining test paper 4 in the bottle to move towards one side close to thedischarging port 321 and thesocket 312.

The inner storage bottle 3 further comprises apush plate 33, thepush plate 33 is located in the inner cavity of theinner bottle body 31, and one end of theauxiliary spring 25 extending into the inner cavity of theinner bottle body 31 is fixed with thepush plate 33.

Apartition plate 34 is further obliquely installed in the inner cavity of theinner bottle body 31, and the distance between thepartition plate 34 and the bottom of theinner bottle body 31 is gradually reduced from the side close to the opening to the side close to thesocket 312.

Thepartition 34 partitions the inner cavity of theinner bottle body 31 into an upper chamber and a lower chamber which are arranged up and down, the upper chamber is used for placing thetest paper 4, the lower chamber is filled with a drying agent, and thepartition 34 is further provided with a plurality of air holes.

The outer wall of theinner bottle body 31 is further provided with a plurality of limitingstrips 311 which can be matched with thepositioning strips 22 for limiting.

The utility model discloses the working process:

when a piece oftest paper 4 needs to be taken, thebuckle 122 is separated from the clamping point 111, and then theouter bottle cap 12 is rotated anticlockwise. During the rotation of theouter bottle cap 12, thepush rod 121 pushes the free end of therotation shaft 231 to the right, so that theshaft 232 forces theloading spring 234 to contract downwards on the one hand, and on the other hand, the end of theseat shaft 233 hinged with theinsert 24 tilts upwards, and finally theinsert 24 moving upwards gradually extends into the inner cavity of theinner bottle body 31 along the insertion opening 312 and pushes out a piece oftest paper 4 upwards along the discharge opening 321. Above-mentioned structure makes the test paper bottle all can ejecting aslice test paper 4 automatically when uncapping each time, and both the person of facilitating the use takestest paper 4, also can effectively avoidother test paper 4 to be contacted and receive the pollution.

After taking out the ejectedtest paper 4, theouter bottle cap 12 can be rotated clockwise until it closes the top opening of theouter bottle body 11, and then thebuckle 122 and the fastening point 111 are buckled again to ensure that theouter bottle body 11 and theouter bottle cap 12 are tightly closed. At this time, since the free end of the rotatingshaft 231 is no longer pushed by thepush rod 121, theloading spring 234 can be released and extend upward, on the one hand, theshaft 232 is driven upward, and on the other hand, the end of theseat shaft 233 hinged with theslip 24 is driven downward, so that the top end of theslip 24 is pulled back into the channel of theannular convex wall 313. In addition, since therightmost test paper 4 in theinner bottle body 31 is taken out and has an excess gap left, theauxiliary spring 25 can extend rightward and push theremaining test paper 4 in theinner bottle body 31 to move rightward integrally by using thepush plate 33 to fill the excess gap, thereby ensuring that thesubsequent test paper 4 is pushed out smoothly.

In addition, since the length of the arc-shapedsliding groove 112 is limited, and thesliding rod 123 installed on thepush rod 121 is slidably connected to the arc-shapedsliding groove 112, the rotation angle of theouter bottle cap 12 can be controlled within a certain range, and further the stroke of thetransmission mechanism 23 can be controlled within a certain range.

For the inner storage bottle 3, before factory shipment, theinner bottle cap 32 may be opened to expose the relatively large top opening of theinner bottle body 31, so that a certain number oftest paper 4 may be directly placed therein by a machine. After thetest paper 4 is placed, the top opening of theinner bottle body 31 can be completely closed by theinner bottle cap 32, so that the inner storage bottle 3 only retains the relativelysmall discharge hole 321 after leaving the factory to discharge thetest paper 4. Meanwhile, as the lower chamber is filled with the drying agent, each piece oftest paper 4 can be placed into the upper chamber in a direction that one end with the biological reagent faces downwards, the influence of wet air on each piece oftest paper 4 is reduced, and the effect of effective moisture prevention is achieved.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (10)

1. From ejection of compact type test paper bottle, its characterized in that: comprises an outer storage bottle (1), a discharging component (2) and an inner storage bottle (3), wherein the outer storage bottle (1) comprises an outer bottle body (11) and an outer bottle cap (12), one side of the outer bottle cap (12) is hinged with one side of the outer bottle body (11) so as to be capable of rotating to open or close the top opening of the outer bottle body (11), a push rod (121) extending into the inner cavity of the outer bottle body (11) is arranged at the hinged position of the outer bottle cap (12) and the outer bottle body (11), the top and the bottom of the inner storage bottle (3) are respectively provided with a discharging port (321) and a socket (312) which are oppositely arranged, the discharging component (2) comprises a shell (21), a positioning strip (22), a transmission mechanism (23) and an inserting strip (24), the shell (21) is located in an inner cavity of the outer bottle body (11), the inner storage bottle (3) is arranged in the inner cavity of the shell (21) in a hanging mode through a plurality of positioning strips (22), the transmission mechanism (23) is connected with one end of the inserting strip (24) and located in the shell (21), the transmission mechanism (23) can push the inserting strip (24) to upwards extend into the inner storage bottle (3) along the insertion opening (312) under the pushing action of the push rod (121) in the process that the outer bottle cap (12) rotates and opens the top opening of the outer bottle body (11), and one piece of test paper (4) is led to the discharge opening (312) (321) The cutting insert is ejected upwards, and the transmission mechanism (23) can pull the cutting insert (24) to return to the original position downwards in a natural state.

2. The self-discharging type test paper bottle of claim 1, wherein: the outer wall of outer body (11) and outer bottle lid (12) and for outer body (11) and the articulated side of outer bottle lid (12) be equipped with respectively can each other joint stuck point (111) and buckle (122).

3. The self-discharging type test paper bottle of claim 1, wherein: an arc-shaped sliding groove (112) is formed in the outer wall of the outer bottle body (11) and close to the hinged position of the outer bottle cap (12), a sliding rod (123) is arranged on the push rod (121), and the sliding rod (123) is connected in the arc-shaped sliding groove (112) in a sliding mode.

4. The self-discharging type test paper bottle according to claim 1, wherein: the transmission mechanism (23) comprises a rotating shaft (231), a shaft rod (232), a seat shaft (233) and a feeding spring (234), the seat shaft (233) is located at the bottom of an inner cavity of the shell (21), the middle of the seat shaft (233) is hinged to the shell (21), two ends of the seat shaft are hinged to the shaft rod (232) and one end of the insert strip (24), the middle of the rotating shaft (231) is hinged to the shell (21), one end of the rotating shaft can be pushed and squeezed with the push rod (121), the other end of the rotating shaft is hinged to the other end of the shaft rod (232), the hinged end of the seat shaft (233) and the shaft rod (232) is further fixed to one end of the feeding spring (234), and the other end of the feeding spring (234) is fixed to the shell (21) and has an extending elastic trend, so that the insert strip (24) can be forced to move downwards along the insert hole (312) in the process that the outer bottle cap (12) rotates and closes the top opening of the outer bottle body (11).

5. The self-discharging test paper bottle of any one of claims 1 to 4, wherein: interior storage bottle (3) are including interior body (31) and interior bottle lid (32), the open-top of interior body (31) is closed by interior bottle lid (32), discharge gate (321) and socket (312) are located respectively on interior bottle lid (32) and interior body (31), the bottom of interior body (31) just encircles discharge gate (321) and is equipped with downwardly extending's annular convex wall (313), works as when the open-top of outer body (11) is sealed in outer bottle lid (12), the top of cutting (24) is located the passageway of annular convex wall (313).

6. The self-discharging type test paper bottle according to claim 5, wherein: the test paper bottle is characterized in that an opening is further formed in the outer wall of the inner bottle body (31), the discharging assembly (2) further comprises an auxiliary spring (25), one end of the auxiliary spring (25) is fixed to the shell (21), the other end of the auxiliary spring can extend into the inner cavity of the inner bottle body (31) along the opening, and the auxiliary spring (25) has an extending elastic trend to push the remaining test paper (4) in the bottle to move towards one side close to the discharging opening (321) and the socket (312).

7. The self-discharging type test paper bottle according to claim 6, wherein: the inner storage bottle (3) further comprises a push plate (33), the push plate (33) is located in the inner cavity of the inner bottle body (31), and one end, extending into the inner cavity of the inner bottle body (31), of the auxiliary spring (25) is fixed with the push plate (33).

8. The self-discharging type test paper bottle according to claim 7, wherein: a partition plate (34) is further obliquely arranged in the inner cavity of the inner bottle body (31), and the distance between the partition plate (34) and the bottom of the inner bottle body (31) is gradually reduced from one side close to the opening to one side close to the socket (312).

9. The self-discharging type test paper bottle according to claim 8, wherein: the inner cavity of the inner bottle body (31) is separated by the partition plate (34) to form an upper cavity and a lower cavity which are arranged one above the other, the upper cavity is used for placing the test paper (4), the lower cavity is filled with the drying agent, and a plurality of air holes are further formed in the partition plate (34).

10. The self-discharging type test paper bottle according to claim 5, wherein: the outer wall of the inner bottle body (31) is also provided with a plurality of limiting strips (311) which can be matched with the positioning strips (22) for limiting.

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