CN219553053U - Pop-up mechanism of sensing cabinet - Google Patents

Abstract

The utility model relates to the technical field of sensing cabinets, in particular to an ejecting mechanism of a sensing cabinet, which comprises: the sensing cabinet comprises a sensing cabinet body, wherein a storage box is arranged in the sensing cabinet body, and a cabinet door and an ejecting mechanism are arranged on the outer side of the storage box correspondingly; the beneficial effects are as follows: the sensing cabinet body can be released to the one end that pop-up mechanism can be with the containing box, and then need not to stretch into this internal, the containing box that corresponds of putting into again, can directly take and deposit the consumptive material, even if the consumptive material volume is great, also conveniently takes and deposits it.

Description

Pop-up mechanism of sensing cabinet

Technical Field

The utility model relates to the technical field of sensing cabinets, in particular to an ejecting mechanism of a sensing cabinet.

Background

The bottom of the containing box that current intelligent perception cabinet can place medical supplies inside sets up pressure sensor, and then can carry out the perception to the weight of every containing box inside consumptive material, and pressure in the perception containing box is less, can remind medical personnel to in time supply its inside medical supplies.

The current containing box of depositing medical consumables is fixed in the perception cabinet, needs the manual work to open corresponding perception cabinet door, stretches into the perception cabinet with the consumptive material earlier in, puts into corresponding consumptive material containing box again, and when the consumptive material volume is great, inconvenient put into and take the consumptive material.

Disclosure of Invention

The utility model aims to provide an ejecting mechanism of a sensing cabinet, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an ejector mechanism for a sensing cabinet, comprising:

the sensing cabinet comprises a sensing cabinet body, wherein a storage box is arranged in the sensing cabinet body, and a cabinet door is arranged on the outer side of the storage box correspondingly;

the ejecting mechanism is arranged in the sensing cabinet body, and when the cabinet door is opened, the ejecting mechanism is used for pushing out one end of the storage box from the sensing cabinet body.

Preferably, the ejecting mechanism comprises an ejecting cavity, a first ejecting plate, a second ejecting plate, a third ejecting plate and an ejecting limiting piece, the ejecting cavity is formed in the sensing cabinet body, the first ejecting plate is fixed on one side, far away from the cabinet door, of the ejecting cavity, the third ejecting plate is arranged on one side, close to the cabinet door, of the ejecting cavity, one end of the third ejecting plate is connected with the storage box, and the second ejecting plate is located between the first ejecting plate and the third ejecting plate and is provided with at least one of the first ejecting plate and the third ejecting plate; the first board that pops out, second pop-up board and third pop-up board all are the U type, first pop-up board with between the second pop-up board, between second pop-up board and the third pop-up board and between two adjacent second pop-up boards crisscross support each other and hold and be provided with first elastic component, it is spacing to pop-up the second to pop-up board and the third to pop-up the locating part, and first elastic component is including popping out the spring, and each pops out the spring and pops out board and the second that pops out board and third and pop-up board with two adjacent second and pop-up board, second and the second that pops out.

Preferably, a sliding groove is formed in the bottom of the ejection cavity at the position corresponding to the second ejection plate and the third ejection plate, a sliding block is arranged at the position corresponding to the sliding groove of the second ejection plate and the third ejection plate, and the sliding block is arranged in the sliding groove in a sliding manner.

Preferably, the ejecting limiting piece comprises a second ejecting groove, an ejecting limiting block, a limiting groove and an adjusting part, the second ejecting groove is formed in the linkage block, the ejecting limiting block is arranged in the second ejecting groove in a sliding mode, the limiting groove is formed in the position of the second ejecting plate and the position of the third ejecting plate corresponding to the position of the second ejecting groove, a second elastic piece is arranged between the ejecting limiting block and the second ejecting groove and used for pushing one end of the ejecting limiting block to enter the limiting groove, the adjusting part is arranged in the sensing cabinet body and used for adjusting the second ejecting groove to eject or store the elastic mechanism to limit, and the pressing part is used for extruding the limiting state of the adjusting part to the ejecting mechanism, so that the ejecting mechanism can push the storage box out of the sensing cabinet body and prevent the rebound of the ejecting mechanism after the storage box is received into the sensing cabinet body.

Preferably, the adjusting part comprises a movable cavity, an adjusting plate, a telescopic groove and a pressing plate, wherein the movable cavity is formed in the sensing cabinet body, the adjusting plate can be arranged in the movable cavity in a front-back sliding mode relative to the sensing cabinet body, the telescopic groove is formed in the position, corresponding to the second jacking groove, of the adjusting plate, the pressing plate is in a shape, one end of the pressing plate is arranged on the pop-up limiting block in a sliding mode, the other end of the pressing plate penetrates through the sensing cabinet body and is arranged in the telescopic groove in a sliding mode, a third elastic piece is arranged between the adjusting plate and the movable cavity, the third elastic piece comprises an adjusting spring, one end of the adjusting spring is connected with the adjusting plate, and the other end of the adjusting spring is connected with the movable cavity.

Preferably, the two sides of the ejecting limiting block are provided with ejecting inclined planes, and when the pressing plate is matched with the ejecting limiting block, only one side inclined plane of the ejecting limiting block is exposed, and the two sides of the pressing plate are provided with pressing plate inclined planes.

Preferably, the adjusting part further comprises an adjusting groove, an adjusting pressing plate, a pushing groove, a pushing block, a through groove and a connecting rod, wherein the adjusting groove is formed in one side of the movable cavity, the adjusting pressing plate is arranged in the adjusting groove in a sliding mode, the adjusting inclined surface is formed in the adjusting pressing plate, the pushing groove is formed in the sensing cabinet body, the pushing block is arranged in the pushing groove in a sliding mode, the through groove is formed in the sensing cabinet body and is communicated with the pushing groove and the adjusting groove, the connecting rod is arranged in the through groove in a sliding mode, one end of the connecting rod is connected with the adjusting pressing plate, and the other end of the connecting rod is connected with the pushing block.

Compared with the prior art, the utility model has the beneficial effects that:

when the cabinet door is opened, the ejection mechanism can push one end of the storage box out of the sensing cabinet body, so that consumable parts do not need to extend into the sensing cabinet body and then are placed into the corresponding storage box, the consumable parts can be directly taken and stored, and even if the volume of the consumable parts is large, the consumable parts can be conveniently taken and stored;

when the cabinet door is opened, the push block is shifted to slide in the push groove, and then the regulating pressure plate is driven to move away from the regulating plate through the connecting rod, at this moment, the regulating pressure plate is used for pressing and holding the regulating plate to move towards the push block through the regulating inclined plane, and then the regulating plate is used for driving the pressure plate to move towards the push block, so that the pressure plate can cover the pop-up inclined plane of one side of the pop-up limiting block, the pop-up inclined plane of the other side of the pop-up limiting block is exposed, at this moment, the pop-up spring is used for propping up the second pop-up plate or the third pop-up plate to move towards the push block, when the second pop-up plate or the third pop-up plate passes through the pop-up limiting block, the pop-up limiting block and the pressure plate can be pressed into the third pop-up plate through the pop-up inclined plane and the pressure plate first, when the second push-up groove is aligned with the limiting groove, the second push-up spring is propped up to pop-up the limiting plate drives the pressure plate to enter the limiting groove, at this moment, the cooperation of the pressure plate and the limiting groove is used for storing and limiting the second pop-up plate or the third pop-up plate, so that the pop-up spring can only drive the second pop-up plate or the third pop-up plate to move towards the push block, and further the storage box can only pop-up outwards, can not be stored inwards, and be stored, and guarantee the stability when the storage box is popped up and convenient for taking in or taking in.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a partial perspective structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of the ejection chamber;

FIG. 4 is a schematic cross-sectional view of an adjustment plate;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4 at A;

FIG. 6 is a schematic cross-sectional structural view of a second holding tank and a platen;

FIG. 7 is a schematic perspective view of a platen and an ejector stopper;

FIG. 8 is a schematic cross-sectional view of a pressing groove and a fourth holding groove;

FIG. 9 is an enlarged schematic view of the structure of FIG. 8 at B

FIG. 10 is a schematic perspective view of an ejector mechanism;

fig. 11 is a schematic perspective view of an adjusting plate.

In the figure: 1. a sensing cabinet body; 2. a cabinet door; 3. a storage box; 4. a pushing block; 5. pushing grooves; 6. a first ejector plate; 7. a second ejecting plate; 8. a third ejecting plate; 9. a spring is ejected; 10. a chute; 11. an ejection chamber; 12. an adjusting plate; 13. an adjusting spring; 14. a movable cavity; 15. a telescopic slot; 16. a pressing plate; 1601. a pressing plate inclined plane; 17. a limit groove; 18. ejecting a limiting block; 1801. ejecting the inclined plane; 19. a second holding groove; 20. a second holding spring; 21. an adjusting pressing plate; 2101. adjusting the inclined plane; 22. an adjustment tank; 23. a connecting rod; 24. and (5) through grooves.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

referring to fig. 1 to 11, the present utility model provides a technical solution: an ejector mechanism for a sensing cabinet, comprising: the sensing cabinet comprises a sensing cabinet body 1, wherein an accommodating box 3 is arranged in the sensing cabinet body, and a cabinet door 2 is arranged on the outer side of the corresponding accommodating box 3; the ejecting mechanism is arranged in the sensing cabinet body 1, and is used for pushing out one end of the storage box 3 from the sensing cabinet body 1 when the cabinet door 2 is opened.

When cabinet door 2 is opened, pop-up mechanism can release perception cabinet body 1 with the one end of containing box 3, and then need not to stretch into perception cabinet body 1 with the consumptive material in, put into corresponding containing box 3 again, can directly take and deposit the consumptive material, even if the consumptive material volume is great, also convenient taking and depositing it.

Embodiment two:

as shown in fig. 3 and 10, the intelligent sensing cabinet disclosed in the second embodiment of the present utility model has substantially the same structure as that in the first embodiment, and is different in that the storage box 3 is ejected out of the sensing cabinet body 1, the ejecting mechanism includes an ejecting chamber 11, a first ejecting plate 6, a second ejecting plate 7, a third ejecting plate 8 and an ejecting limiter, the ejecting chamber 11 is opened on the sensing cabinet body 1, the first ejecting plate 6 is fixed at a side of the ejecting chamber 11 far away from the cabinet door 2, the third ejecting plate 8 is disposed at a side of the ejecting chamber 11 near the cabinet door 2, one end of the third ejecting plate 8 is connected with the storage box 3, and the second ejecting plate 7 is positioned between the first ejecting plate 6 and the third ejecting plate 8 and is provided with at least one; the first ejecting plate 6, the second ejecting plate 7 and the third ejecting plate 8 are all U-shaped, first elastic pieces are mutually staggered and abutted between the first ejecting plate 6 and the second ejecting plate 7, between the second ejecting plate 7 and the third ejecting plate 8 and between two adjacent second ejecting plates 7, the second ejecting plates 7 and the third ejecting plate 8 are limited by the ejecting limiting pieces, the first elastic pieces comprise ejecting springs 9, and each ejecting spring 9 connects two adjacent second ejecting plates 7, the second ejecting plate 7, the first ejecting plate 6, the second ejecting plate 7 and the third ejecting plate 8.

A sliding groove 10 is formed in the bottom of the ejection cavity 11 at the position corresponding to each second ejection plate 7 and each third ejection plate 8, a sliding block is arranged at the position corresponding to the sliding groove 10 of each second ejection plate 7 and each third ejection plate 8, and the sliding blocks are arranged in the sliding grooves 10 in a sliding manner.

When the cabinet door 2 is opened, the second ejecting plates 7 are ejected to move outwards by the ejecting springs 9 connected with the first ejecting plates 6, the two adjacent second ejecting plates 7 continue to move outwards by the ejecting springs 9, and the third ejecting plates 8 continue to move outwards by the ejecting springs 9 until the third ejecting plates 8 drive the storage box 3 and push the storage box 3 out of the sensing cabinet body 1, and in the pushing process, the sliding blocks are matched with the sliding grooves 10 to limit the third ejecting plates 8 and the second ejecting plates 7.

Embodiment III:

as shown in fig. 2 and 4-11, the intelligent sensing cabinet disclosed in the third embodiment of the present utility model has a structure substantially the same as that of the second embodiment, and is different in that the adjusting ejector mechanism drives the storage box 3 to store or eject, the ejecting limiter includes a second holding groove 19, an ejecting limiting block 18, a limiting groove 17 and an adjusting component, the second holding groove 19 is opened in the linkage block 9, the ejecting limiting block 18 is slidably disposed in the second holding groove 19, the limiting groove 17 is opened at the positions of the second ejecting plate 7 and the third ejecting plate 8 corresponding to the second holding groove 19, a second elastic component is disposed between the ejecting limiting block 18 and the second holding groove 19, and is used for pushing one end of the ejecting limiting block 18 into the limiting groove 17, and the adjusting component is disposed in the sensing cabinet body 1 and is used for adjusting the limiting state of the ejecting mechanism by the second holding groove 19, so that the ejecting mechanism can push the storage box 3 out of the sensing cabinet body 1 and prevent the ejecting mechanism from rebounding after the inner storage box 3 senses the storage cabinet body 1, the second elastic component includes a second holding spring 20, and the second holding spring 20 is connected with the second holding groove 19.

The adjusting component comprises a movable cavity 14, an adjusting plate 12, a telescopic groove 15 and a pressing plate 16, wherein the movable cavity 14 is formed in the sensing cabinet body 1, the adjusting plate 12 can be arranged in the movable cavity 14 in a sliding way relative to the sensing cabinet body 1 in a front-back way, the telescopic groove 15 is formed in the position of a corresponding second supporting groove 19 of the adjusting plate 12, the pressing plate 16 is in a shape of , one end of the pressing plate 16 is arranged on the ejecting limiting block 18 in a sliding way, the other end of the pressing plate 16 penetrates through the sensing cabinet body 1 and is arranged in the telescopic groove 15 in a sliding way, a third elastic piece is arranged between the adjusting plate 12 and the movable cavity 14 and comprises an adjusting spring 13, one end of the adjusting spring 13 is connected with the adjusting plate 12, and the other end of the adjusting spring 13 is connected with the movable cavity 14; pop-up slopes 1801 are formed on both sides of the pop-up stopper 18, and when the platen 16 is engaged with the pop-up stopper 18, only one side slope of the pop-up stopper 18 is exposed, and platen slopes 1601 are formed on both sides of the platen 16.

The adjusting part still includes adjustment tank 22, adjusting clamp plate 21, push away groove 5, push away the piece 4, lead to groove 24 and connecting rod 23, the one side that the fourth held groove 44 was kept away from at movable chamber 14 is offered to adjustment tank 22, adjustment clamp plate 21 slides and sets up in adjustment tank 22, adjustment inclined plane 2101 has been offered on the adjusting clamp plate 21, push away the piece 5 and offered on the perception cabinet body 1, push away the piece 4 and slide and set up in push away the inslot 5, lead to the inslot 24 and with push away groove 5 and adjusting tank 22 intercommunication, connecting rod 23 slides and sets up in lead to the inslot 24, the one end and the adjusting clamp plate 21 of connecting rod 23 are connected, the other end and push away the piece 4 and be connected.

When the cabinet door 2 is opened, the push block 4 is shifted to slide in the push groove 5, and then the adjusting pressure plate 21 is driven by the connecting rod 23 to move away from the adjusting plate 12, at this time, the adjusting pressure plate 21 is used for pressing the adjusting plate 12 to move towards the push block 4 through the adjusting inclined plane 2101, and then the adjusting plate 12 is used for driving the pressure plate 16 to move towards the push block 4, so that the pressure plate 16 is covered by the ejecting inclined plane 1801 of one side of the push block 4, which is close to the ejecting limit block 18, the ejecting inclined plane 1801 of the other side of the ejecting limit block 18 is exposed, at this time, the ejecting spring 9 is used for ejecting the second ejecting plate 7 or the third ejecting plate 8 to move towards the push block 4, when the second ejecting plate 7 or the third ejecting plate 8 passes through the ejecting limit block 18, the ejecting limit block 18 and the pressure plate 16 are pressed into the third ejecting plate 8 through the ejecting inclined plane 1801 and the pressure plate inclined plane 1601, when the second ejecting limit block 19 is aligned with the limit groove 17, the second ejecting spring 20 is ejected the ejecting limit block 18 to drive the pressure plate 16 into the limit groove 17, at this time, the pressure plate 16 and the limit groove 17 is matched with the second ejecting plate 7 or the third ejecting plate 8 to be contained in the limit groove 8, and the second ejecting plate 7 or the second ejecting plate 7 can only be taken out, the 3 can not be taken out, and the second ejecting plate 7 can be stably and can be taken out, and can be taken out and can be conveniently and stably and taken out.

When the storage box 3 is required to be stored, firstly, the push block 4 is shifted to slide in the push groove 5, and then the adjusting pressure plate 21 is driven to move towards the adjusting plate 12 through the connecting rod 23, at this time, the adjusting pressure plate 21 contacts the adjusting plate 12 through the adjusting inclined plane 2101 and presses the adjusting plate 12 towards the adjusting spring 13, at this time, the adjusting plate 12 drives the pressure plate 16 to move away from the push block 4, the pressure plate 16 is enabled to cover the pop-up inclined plane 1801 on one side of the push block 18 away from the pop-up inclined plane 1801 on the other side of the push block 4, at this time, the storage box 3 is pressed to move in the storage box towards the sensing cabinet body 1, when the second pop-up plate 7 or the third pop-up plate 8 passes through the pop-up limiting block 18, the pop-up limiting block 18 and the pressure plate 16 are pressed into the third pop-up plate 8 through the pop-up inclined plane 1801 and the pressure plate 1601, at this time, when the second push-up limiting block 19 and the limiting groove 17 are aligned, the second push-up limiting spring 20 pushes up the pressure plate 16 into the limiting groove 17, at this time, the second push-up limiting plate 16 and the limiting groove 17 cooperate to pop-up the second pop-up limiting plate 7 or the third pop-up plate 8, the second pop-up limiting plate 7 or the third pop-up plate 8 pop-up limiting plate 7 is enabled to pop-up the storage box 3, and the storage box 3 can only be moved towards the inside, and can not be stored stably, and can be kept out, and can be stored conveniently, and can be stored and stored.

The scheme is specifically as follows: when cabinet door 2 is opened, pop-up mechanism can release perception cabinet body 1 with the one end of containing box 3, and then need not to stretch into perception cabinet body 1 with the consumptive material in, put into corresponding containing box 3 again, can directly take and deposit the consumptive material, even if the consumptive material volume is great, also convenient taking and depositing it.

When the cabinet door 2 is opened, the push block 4 is shifted to slide in the push groove 5, and then the adjusting pressure plate 21 is driven by the connecting rod 23 to move away from the adjusting plate 12, at this time, the adjusting pressure plate 21 is used for pressing the adjusting plate 12 to move towards the push block 4 through the adjusting inclined plane 2101, and then the adjusting plate 12 is used for driving the pressure plate 16 to move towards the push block 4, so that the pressure plate 16 is covered by the ejecting inclined plane 1801 of one side of the push block 4, which is close to the ejecting limit block 18, the ejecting inclined plane 1801 of the other side of the ejecting limit block 18 is exposed, at this time, the ejecting spring 9 is used for ejecting the second ejecting plate 7 or the third ejecting plate 8 to move towards the push block 4, when the second ejecting plate 7 or the third ejecting plate 8 passes through the ejecting limit block 18, the ejecting limit block 18 and the pressure plate 16 are pressed into the third ejecting plate 8 through the ejecting inclined plane 1801 and the pressure plate inclined plane 1601, when the second ejecting limit block 19 is aligned with the limit groove 17, the second ejecting spring 20 is ejected the ejecting limit block 18 to drive the pressure plate 16 into the limit groove 17, at this time, the pressure plate 16 and the limit groove 17 is matched with the second ejecting plate 7 or the third ejecting plate 8 to be contained in the limit groove 8, and the second ejecting plate 7 or the second ejecting plate 7 can only be taken out, the 3 can not be taken out, and the second ejecting plate 7 can be stably and can be taken out, and can be taken out and can be conveniently and stably and taken out.

When the storage box 3 is required to be stored, firstly, the push block 4 is shifted to slide in the push groove 5, and then the adjusting pressure plate 21 is driven to move towards the adjusting plate 12 through the connecting rod 23, at this time, the adjusting pressure plate 21 contacts the adjusting plate 12 through the adjusting inclined plane 2101 and presses the adjusting plate 12 towards the adjusting spring 13, at this time, the adjusting plate 12 drives the pressure plate 16 to move away from the push block 4, the pressure plate 16 is enabled to cover the pop-up inclined plane 1801 on one side of the push block 18 away from the pop-up inclined plane 1801 on the other side of the push block 4, at this time, the storage box 3 is pressed to move in the storage box towards the sensing cabinet body 1, when the second pop-up plate 7 or the third pop-up plate 8 passes through the pop-up limiting block 18, the pop-up limiting block 18 and the pressure plate 16 are pressed into the third pop-up plate 8 through the pop-up inclined plane 1801 and the pressure plate 1601, at this time, when the second push-up limiting block 19 and the limiting groove 17 are aligned, the second push-up limiting spring 20 pushes up the pressure plate 16 into the limiting groove 17, at this time, the second push-up limiting plate 16 and the limiting groove 17 cooperate to pop-up the second pop-up limiting plate 7 or the third pop-up plate 8, the second pop-up limiting plate 7 or the third pop-up plate 8 pop-up limiting plate 7 is enabled to pop-up the storage box 3, and the storage box 3 can only be moved towards the inside, and can not be stored stably, and can be kept out, and can be stored conveniently, and can be stored and stored.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An ejector mechanism for a sensing cabinet, comprising:

the sensing cabinet comprises a sensing cabinet body (1), wherein a storage box (3) is arranged in the sensing cabinet body, and a cabinet door (2) is arranged at the outer side of the storage box (3);

the ejection mechanism is arranged in the sensing cabinet body (1), and when the cabinet door (2) is opened, the ejection mechanism is used for pushing one end of the storage box (3) out of the sensing cabinet body (1).

2. The sensing cabinet pop-up mechanism according to claim 1, wherein the pop-up mechanism comprises a pop-up cavity (11), a first pop-up plate (6), a second pop-up plate (7), a third pop-up plate (8) and a pop-up limiting piece, the pop-up cavity (11) is formed in the sensing cabinet body (1), the first pop-up plate (6) is fixed on one side, far away from the cabinet door (2), in the pop-up cavity (11), the third pop-up plate (8) is arranged on one side, close to the cabinet door (2), in the pop-up cavity (11), one end of the third pop-up plate (8) is connected with the storage box (3), and the second pop-up plate (7) is located between the first pop-up plate (6) and the third pop-up plate (8) and is provided with at least one;

the first board (6), the second board (7) and the third board (8) that pop out all are the U type, first board (6) with between the second board (7) that pop out, between the second board (7) and the third board (8) that pop out and between two adjacent second boards (7) that pop out crisscross support each other and hold and be provided with first elastic component, it is spacing to pop out board (7) and third board (8) to pop out the locating part.

3. The popup mechanism of the sensing cabinet according to claim 2, wherein a sliding groove (10) is formed at the bottom of the popup cavity (11) at the position corresponding to each of the second popup plate (7) and the third popup plate (8), a sliding block is arranged at the position corresponding to the sliding groove (10) of each of the second popup plate (7) and the third popup plate (8), and the sliding block is slidably arranged in the sliding groove (10).

4. The pop-up mechanism of a sensing cabinet according to claim 3, wherein the pop-up limiting piece comprises a second propping groove (19), a pop-up limiting block (18), a limiting groove (17) and an adjusting component, the second propping groove (19) is formed in the pop-up cavity (11), the pop-up limiting block (18) is slidably arranged in the second propping groove (19), the limiting groove (17) is formed in the positions of the second pop-up plate (7) and the third pop-up plate (8) corresponding to the second propping groove (19), a second elastic piece is arranged between the pop-up limiting block (18) and the second propping groove (19) and used for pushing one end of the pop-up limiting block (18) into the limiting groove (17), and the adjusting component is arranged in the sensing cabinet body (1) and used for adjusting the limiting state of the pop-up mechanism by the second propping groove (19), so that the pop-up mechanism can push out the storage box (3) from the sensing cabinet body (1) and the inner storage box (3) to prevent the rebound after the sensing cabinet (1) is popped up.

5. The sensing cabinet pop-up mechanism according to claim 4, wherein the adjusting component comprises a movable cavity (14), an adjusting plate (12), a telescopic groove (15) and a pressing plate (16), the movable cavity (14) is formed in the sensing cabinet body (1), the adjusting plate (12) can be arranged in the movable cavity (14) in a sliding mode relative to the sensing cabinet body (1), the telescopic groove (15) is formed in the adjusting plate (12) at the position corresponding to the second holding groove (19), the pressing plate (16) is in a shape of , one end of the pressing plate (16) is slidably arranged on the pop-up limiting block (18), the other end of the pressing plate (16) penetrates through the sensing cabinet body (1) and is slidably arranged in the telescopic groove (15), and a third elastic piece is arranged between the adjusting plate (12) and the movable cavity (14).

6. The sensing cabinet ejecting mechanism according to claim 5, wherein ejecting inclined planes (1801) are formed on two sides of the ejecting limiting block (18), when the pressing plate (16) is matched with the ejecting limiting block (18), only one inclined plane of the ejecting limiting block (18) is exposed, and pressing plate inclined planes (1601) are formed on two sides of the pressing plate (16).

7. The sensing cabinet pop-up mechanism according to claim 5, wherein the adjusting part further comprises an adjusting groove (22), an adjusting pressing plate (21), a pushing groove (5), a pushing block (4), a through groove (24) and a connecting rod (23), the adjusting groove (22) is formed in one side of the movable cavity (14), the adjusting pressing plate (21) is slidably arranged in the adjusting groove (22), the adjusting inclined surface (2101) is formed in the adjusting pressing plate (21), the pushing groove (5) is formed in the sensing cabinet body (1), the pushing block (4) is slidably arranged in the pushing groove (5), the through groove (24) is formed in the sensing cabinet body (1) and is communicated with the pushing groove (5) and the adjusting groove (22), the connecting rod (23) is slidably arranged in the through groove (24), one end of the connecting rod (23) is connected with the adjusting pressing plate (21), and the other end of the connecting rod (23) is connected with the pushing block (4).