CN216949910U - Unlocking mechanism and consumable cabinet - Google Patents

Abstract

The application relates to an unlocking mechanism and a consumable cabinet. The unlocking mechanism comprises a first locking assembly and a second locking assembly, the first locking assembly comprises a first lock body and a moving member, the first lock body can drive the moving member to move, when the moving member moves to abut against the second locking assembly, the moving member can lock the second locking assembly, and when the moving member moves to be far away from the second locking assembly, the second locking assembly can rotate to unlock. Wherein, the second locking subassembly is used for rotating the unblock, drives the moving member through the first locking of first locking subassembly to make moving member locking second locking subassembly, if the user needs carry out the unblock to the cabinet body through release mechanism, then need operate first locking subassembly and second locking subassembly simultaneously, this release mechanism's compact structure has stronger cooperation nature, is favorable to improving the security of the cabinet body.

Description

Unlocking mechanism and consumable cabinet

Technical Field

The utility model relates to the technical field of high-end equipment manufacturing and biomedical industry, in particular to an unlocking mechanism and a consumable cabinet.

Background

Present medical consumable cabinet has electron release mechanism and thing understanding latch mechanism usually, and electron release mechanism's the speed of opening the cabinet is very fast, therefore the daily use electron release mechanism of user unlocks medical consumable cabinet, nevertheless when electron release mechanism goes wrong, need use thing understanding latch mechanism to unblock the consumable cabinet, uses the simple structure of thing understanding latch mechanism at medical consumable cabinet at present, leads to the security performance of consumable cabinet relatively poor.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an unlocking mechanism and consumptive material cabinet to the simple structure of unlocking mechanism, leads to the relatively poor problem of security performance of consumptive material cabinet.

An unlocking mechanism, comprising:

the first locking assembly comprises a first lock body and a moving member, and the first lock body can drive the moving member to move;

and the second locking assembly can lock the second locking assembly when the moving member moves to abut against the second locking assembly, and can rotate to unlock when the moving member moves to be far away from the second locking assembly.

In one embodiment, the second locking assembly comprises a second lock body and a rotating member, wherein the second lock body is connected to the rotating member and can drive the rotating member to rotate and unlock; the moving part can abut against the rotating part to limit the rotating part to rotate.

In one embodiment, the rotating part comprises a body and a protruding part, the body is connected to the second lock body, the protruding part is connected to one side, facing the first lock body, of the body, and a butting part is arranged at the end part of the moving part; the moving piece can drive the abutting part to move to the upper side of the protruding part, so that the abutting part can abut against the protruding part, and the rotating piece is further limited to rotate.

In one embodiment, the first lock body comprises a shell, a first lock cylinder and a rotating block, the first lock cylinder is arranged in the shell in a penetrating mode, the first lock cylinder can rotate relative to the shell, one end of the rotating block is connected to the first lock cylinder, and the other end of the rotating block is movably connected with the moving piece; the first lock cylinder and the rotating block rotate synchronously and drive the moving piece to move.

In one embodiment, the moving member is provided with a rotating groove, the rotating block comprises a rotating plate and a rotating column, one end of the rotating plate is connected with the first lock cylinder, the other end of the rotating plate protrudes out of the side surface of the first lock cylinder and is connected to the rotating column, and the rotating column is arranged in the rotating groove in a penetrating manner; the first lock core rotates to drive the rotating plate and the rotating column to rotate, and the rotating column slides along the rotating groove and drives the moving piece to move.

In one embodiment, the housing is provided with a limiting groove, the first lock cylinder is provided with a protrusion matched with the limiting groove, and the protrusion is used for limiting the rotation range of the first lock cylinder.

In one embodiment, the unlocking mechanism further includes a first limiting member and a second limiting member, the moving member has a sliding slot, the first limiting member is disposed through the sliding slot to limit a moving range of the moving member along a first direction, and the second limiting member is disposed on the first limiting member to limit a moving range of the moving member along a second direction.

The consumable cabinet comprises a cabinet body and the unlocking mechanism, wherein the unlocking mechanism can unlock or lock the cabinet body.

In one embodiment, the cabinet further comprises an unlocking assembly and a linkage member, one end of the linkage member is connected to the second locking assembly, the other end of the linkage member is connected to the unlocking assembly, the second locking assembly rotates to pull the linkage member, and the linkage member moves to trigger the unlocking assembly to unlock or lock the cabinet body.

In one embodiment, the unlocking assembly comprises a third lock body and a sliding piece, wherein a linkage piece is connected to the sliding piece, and the sliding piece is slidably connected to the cabinet body; the linkage piece drives the sliding piece to move synchronously, so that the sliding piece triggers the third lock body to unlock or lock.

In one embodiment, the multifunctional cabinet further comprises a mounting box, the mounting box is arranged at the bottom of the cabinet body, the unlocking mechanism is arranged in the fixing box, the unlocking assembly is arranged on the side face or the back face of the cabinet body, the cabinet body is provided with a through line groove, and the linkage piece penetrates through the through line groove.

The unlocking mechanism comprises a first locking assembly and a second locking assembly, the first locking assembly comprises a first lock body and a moving member, the first lock body can drive the moving member to move, when the moving member moves to abut against the second locking assembly, the moving member can lock the second locking assembly, and when the moving member moves to be far away from the second locking assembly, the second locking assembly can rotate to unlock. Wherein, the second locking subassembly is used for rotating the unblock, drives the moving member through the first locking of first locking subassembly and removes to make moving member locking second locking subassembly, if the user needs carry out the unblock to the cabinet body through release mechanism, then need operate first locking subassembly and second locking subassembly simultaneously, this release mechanism's compact structure has stronger cooperation nature, is favorable to improving the security of the cabinet body.

Drawings

FIG. 1 is a perspective view of the consumable cabinet of this embodiment;

FIG. 2 is a schematic structural view of an unlocking mechanism in the consumable cabinet shown in FIG. 1;

FIG. 3 is an exploded view of the unlocking mechanism in the consumable cabinet shown in FIG. 2;

FIG. 4 is an exploded view of a first locking assembly of the unlocking mechanism in the consumable cabinet shown in FIG. 3;

FIG. 5 is a schematic view of a first limit component and a second limit component of the unlocking mechanism in the consumable cabinet shown in FIG. 2;

FIG. 6 is a schematic view of a portion of the consumable cabinet shown in FIG. 1;

FIG. 7 is an enlarged view of the structure at A in the consumable cabinet shown in FIG. 6.

Reference numerals:

an unlocking mechanism 10;

the first locking assembly 100, the first lock body 110, the shell 111, the limiting groove 1111, the first lock core 113, the protrusion 1131, the rotating block 115, the rotating plate 1151, the rotating column 1153, the moving member 120, the abutting part 121, the rotating groove 123 and the sliding groove 125;

the second locking assembly 200, the second lock body 210, the rotating member 220, the body 221, and the protrusion 223;

a first stopper 300 and a second stopper 400;

a cabinet body 20;

unlocking assembly 30, third lock body 310, slide 320;

a link 40;

the case 50 is mounted.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are illustrated in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for purposes of illustration only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and fig. 2, in the present embodiment, an unlocking mechanism 10 is provided, the unlocking mechanism 10 is applied to a cabinet 20 that needs to be unlocked, the unlocking mechanism 10 includes a first locking assembly 100 and a second locking assembly 200, the first locking assembly 100 includes a first lock body 110 and a moving member 120, the first lock body 110 can drive the moving member 120 to move, when the moving member 120 moves to abut against the second locking assembly 200, the moving member 120 can lock the second locking assembly 200, and when the moving member 120 moves to be away from the second locking assembly 200, the second locking assembly 200 can rotate to unlock.

Specifically, the unlocking mechanism 10 can be understood as a thing understanding lock mechanism 10, the second locking assembly 200 is used for rotating for unlocking, the first locking assembly 100 is used for locking the second locking assembly 200, if a user needs to unlock the cabinet body 20 through the unlocking mechanism 10, the first locking assembly 100 and the second locking assembly 200 need to be operated simultaneously, the unlocking mechanism 10 is compact in structure, has strong matching performance, and is beneficial to improving the safety of the cabinet body 20. Referring to fig. 2, wherein the first lock body 110 of the first locking assembly 100 is rotated to drive the moving member 120 to move, if the user needs to lock the cabinet 20, the first lock body 110 may be operated, the first lock body 110 is rotated to move the moving member 120 to abut against the second locking assembly 200, and then the second locking assembly 200 is locked by the moving member 120, so as to enhance the safety of the cabinet 20, if the user needs to unlock the cabinet 20, the first lock body 110 is rotated to move the moving member 120 to be away from the second locking assembly 200, and at this time, the second locking assembly 200 realizes rotational unlocking. It is understood that the rotational unlocking includes a conventional unlocking manner, such as rotation to receive the pick in the lock slot, cooperation of the hook and the slot, and the like, to lock or unlock the cabinet 20.

In the present embodiment, referring to fig. 3, the second locking assembly 200 includes a second lock body 210 and a rotating member 220, wherein the second lock body 210 is connected to the rotating member 220 and can drive the rotating member 220 to rotate and unlock; the moving member 120 can move to abut against the rotating member 220 to limit the rotation of the rotating member 220. A second lock cylinder is arranged in the second lock body 210, the second lock cylinder can extend out of the second lock body 210 and rotate relative to the second lock body 210, and the rotating member 220 is fixedly connected with the extending structure of the second lock cylinder. It can be understood that when the second lock cylinder is in the locked state, the second lock cylinder can lock the rotation position of the rotation member 220, and when the second lock cylinder is in the unlocked state, the second lock cylinder can drive the rotation member 220 to rotate and unlock.

Specifically, the user can rotate the first lock body 110 through the key, the first lock body 110 rotates to drive the moving member 120 to move, and when the moving member 120 moves to abut against the rotating member 220, the rotating member 220 is limited to rotate, that is, the second lock cylinder cannot rotate from the locking state to the unlocking state, which is beneficial to enhancing the safety of the cabinet 20. It is understood that the key controlling the rotation of the first lock body 110 and the key of the second lock body 210 may be allocated to different users to enhance the safety of unlocking the cabinet 20.

In the present embodiment, referring to fig. 3, the rotating member 220 includes a main body 221 and a protruding portion 223, the main body 221 is connected to the second lock body 210, the protruding portion 223 is connected to a side of the main body 221 facing the first lock body 110, and an end of the moving member 120 is provided with a supporting portion 121; the moving element 120 can drive the abutting portion 121 to move above the protrusion 223 to limit the rotation of the rotating element 220.

Specifically, the body 221 and the protruding portion 223 may be integrally formed, the body 221 is substantially plate-shaped and has a front end, a middle end and a rear end, the front end and the rear end are respectively connected to two ends of the middle end and protrude from two opposite sides of the middle end, and the front end is fixedly connected to the second lock body 210 and rotates synchronously with the second lock body 210. The protruding portion 223 is connected to the front end or the rear end and faces one side of the first lock body 110, for example, the protruding portion 223 is connected to the front end. The first lock body 110 rotates to drive the moving member 120 to move horizontally toward the second lock body 210, so that the supporting portion 121 of the moving member 120 moves above the protrusion 223 to limit the rotation of the rotating member 220, i.e., the second lock cylinder cannot rotate from the locking state to the unlocking state.

In this embodiment, referring to fig. 4, the first lock body 110 includes a housing 111, a first lock cylinder 113 and a rotating block 115, the housing 111 is fixedly installed in the cabinet 20, the first lock cylinder 113 penetrates through the housing 111 and can rotate relative to the housing 111, one end of the rotating block 115 is connected to the end of the first lock cylinder 113 protruding out of the housing 111, the other end of the rotating block 115 is movably connected to the moving member 120, and the first lock cylinder 113 and the rotating block 115 synchronously rotate and drive the moving member 120 to move. The first lock cylinder 113 can be rotated by a key, and the first lock cylinder 113 and the second lock cylinder are different in structure arrangement, so that a key for controlling the rotation of the first lock cylinder 113 and a key for controlling the rotation of the second lock cylinder are different in structure, different keys can be allocated to different users, and the safety of the cabinet body 20 is effectively enhanced.

In this embodiment, referring to fig. 3 and 4, the moving member 120 is provided with a rotating groove 123, the rotating block 115 includes a rotating plate 1151 and a rotating column 1153, one end of the rotating plate 1151 is connected to the first lock core 113, and the other end of the rotating plate 1151 protrudes out of the side surface of the first lock core 113 and is connected to the rotating column 1153, and the rotating column 1153 is inserted into the rotating groove 123; the first lock core 113 rotates to drive the rotating plate 1151 and the rotating post 1153 to rotate, and the rotating post 1153 slides along the rotating groove 123 and drives the moving member 120 to move.

Specifically, the moving member 120 is slidably disposed in the cabinet body 20, the cross section of the rotating groove 123 is substantially in a strip shape, and the rotating groove 123 can penetrate through two opposite sides of the moving member 120, when the first lock cylinder 113 is rotated by a key, the rotating plate 1151 and the rotating post 1153 are driven to rotate, the rotating post 1153 moves to a groove wall abutting against the rotating groove 123 along the rotating groove 123, and then the moving member 120 is continuously driven to move by the abutting groove wall, so that the rotation angle of the rotating post 1153 is converted into the displacement of the moving member 120.

In this embodiment, referring to fig. 2 and fig. 5, the unlocking mechanism 10 further includes a first stopper 300 and a second stopper 400, the moving member 120 has a sliding slot 125, the first stopper 300 is disposed through the sliding slot 125 to limit the moving range of the moving member 120 along the first direction, and the second stopper 400 is disposed on the first stopper 300 to limit the moving range of the moving member 120 along the second direction. Specifically, taking the direction X, Y in the figure as an example, the first direction is an X direction, the second direction is a Y direction, the first limiting member 300 can prevent the moving member 120 from coming off from the first direction in the process of sliding relative to the cabinet 20, the second limiting member 400 can prevent the moving member 120 from coming off from the second direction in the process of sliding relative to the cabinet 20, and the reliability of sliding of the moving member 120 can be effectively ensured due to the cooperation of the first limiting member 300 and the second limiting member 400. It can be understood that the first limiting members 300 and the second limiting members 400 further include a plurality of first limiting members 300 and a plurality of second limiting members 400, the plurality of first limiting members 300 and the plurality of second limiting members 400 are disposed in a one-to-one correspondence manner, and the plurality of sets of first limiting members 300 and second limiting members 400 are disposed to make the sliding of the moving member 120 more stable.

In this embodiment, referring to fig. 4, the housing 111 defines a limiting slot 1111, the first lock cylinder 113 defines a protrusion 1131 cooperating with the limiting slot 1111, and the protrusion 1131 is used for limiting the rotation range of the lock cylinder.

Specifically, the housing 111 is mounted on the cabinet 20, the first lock cylinder 113 can be rotated by a key, the limiting groove 1111 is opened at an end of the housing 111, the cross section of the limiting groove 1111 is substantially in the shape of an unclosed ring, and the protrusion 1131 is received in the limiting groove 1111 and rotates along the limiting groove 1111. It can be understood that the annular range of the limiting groove 1111 is greater than or equal to the rotation range of the lock cylinder rotation, that is, the protrusion 1131 rotates in the limiting groove 1111 during the rotation of the lock cylinder, which is also beneficial to limit the rotation range of the lock cylinder.

The application also provides a consumable cabinet, referring to fig. 6, the consumable cabinet includes a cabinet body 20 and an unlocking mechanism 10, and a user can physically and emergently unlock or lock the cabinet body 20 through the unlocking mechanism 10, that is, in this embodiment, the cabinet body 20 can be directly unlocked or locked through the second locking assembly 200 of the unlocking mechanism 10.

In this embodiment, referring to fig. 6 and 7, the consumable cabinet further includes an unlocking assembly 30 and a linkage 40, one end of the linkage 40 is connected to the second locking assembly 200, the other end of the linkage 40 is connected to the unlocking assembly 30, the second locking assembly 200 rotates to pull the linkage 40, and the linkage 40 moves to trigger the unlocking assembly 30 to unlock or lock the cabinet 20. Specifically, the consumable cabinet can unlock or lock the cabinet body 20 through the unlocking assembly 30, and at this time, the rotation of the second locking assembly 200 can drive the linkage 40 to move, and trigger the unlocking assembly 30. The linkage member 40 may be a steel wire rope, so that the linkage member 40 has a simple structure and high transmission efficiency. It can be understood that the consumable cabinet further includes a sleeve, and the linkage 40 is disposed through the sleeve, so as to effectively reduce the wear between the linkage 40 and the cabinet body 20.

In the present embodiment, referring to fig. 7, the unlocking mechanism 10 includes a third lock body 310 and a slider 320, the link member 40 is connected to the slider 320, and the slider 320 is slidably connected to the cabinet 20; the linkage 40 moves the slider 320 synchronously, so that the slider 320 triggers the third lock body 310 to unlock or lock.

Specifically, the third lock body 310 may be an electronic lock or an electromagnetic lock controlled by a circuit, and is disposed on a cabinet door of the unlocking assembly 30 and provided with a cabinet door lock catch or a lock slot matched with the lock body, so as to unlock or lock the cabinet door. Taking the cabinet door lock catch as an example, when the electronic lock or the electromagnetic lock fails and cannot be automatically unlocked, by rotating the second lock body 210 of the second locking assembly 200, the second lock body 210 pulls the moving member 120 and the linkage member 40, the linkage member 40 drives the sliding member 320 to move synchronously, the sliding member 320 moves to abut against the third lock body 310, and then the third lock body 310 is triggered to be unlocked from the cabinet door lock catch.

In this embodiment, the consumable cabinet further includes mounting box 50, and mounting box 50 sets up in the bottom of the cabinet body 20, and unlocking mechanism 10 installs in mounting box 50, and moving member 120 slidable installs in mounting box 50, and unlocking component 30 installs in the side or the back of the cabinet body 20, and the cabinet body 20 has the through-wire groove, and linkage 40 wears to locate the through-wire groove.

In another embodiment, the consumable cabinet has a plurality of cabinet doors or drawers that need to be unlocked, take a plurality of cabinet doors as an example, the unlocking assembly 30 that corresponds one-to-one needs to be installed to a plurality of cabinet doors this moment, connect through linkage 40 between the adjacent unlocking assembly 30, when the second locking assembly 200 of the unlocking mechanism 10 rotates, drive linkage 40 and remove, linkage 40 can stimulate a plurality of unlocking assemblies 30 simultaneously, in order to realize the unblock to a plurality of cabinet doors simultaneously, strengthen the flexibility that the consumable cabinet unblanked.

All possible combinations of the technical features of the above embodiments may not be described for the sake of brevity, but should be considered as within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several implementation modes of the present application, and the description thereof is specific and detailed, but not construed as limiting the scope of the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An unlocking mechanism, comprising:

the first locking assembly comprises a first lock body and a moving member, and the first lock body can drive the moving member to move;

and the second locking assembly can lock the second locking assembly when the moving member moves to abut against the second locking assembly, and can rotate to unlock when the moving member moves to be far away from the second locking assembly.

2. The delatch mechanism of claim 1 wherein the second latch assembly includes a second lock body and a rotor, the second lock body being coupled to the rotor and being capable of rotationally unlocking the rotor; the moving part can abut against the rotating part to limit the rotating part to rotate.

3. The unlock mechanism of claim 2 wherein said rotator includes a body and a projection, said body is connected to said second lock body, said projection is connected to a side of said body facing said first lock body, an end of said rotator is provided with a retaining portion; the moving piece can drive the abutting part to move to the upper side of the protruding part, so that the abutting part can abut against the protruding part, and the rotating piece is further limited to rotate.

4. The unlocking mechanism according to any one of claims 1 to 3, wherein the first lock body comprises a housing, a first lock cylinder and a rotating block, the first lock cylinder is arranged in the housing in a penetrating manner, the first lock cylinder can rotate relative to the housing, one end of the rotating block is connected to the first lock cylinder, and the other end of the rotating block is movably connected with the moving member; the first lock cylinder and the rotating block rotate synchronously and drive the moving piece to move.

5. The unlocking mechanism according to claim 4, wherein the moving member has a rotating groove, the rotating block comprises a rotating plate and a rotating column, one end of the rotating plate is connected to the first lock cylinder, the other end of the rotating plate protrudes out of the side surface of the first lock cylinder and is connected to the rotating column, and the rotating column is inserted into the rotating groove; the first lock core rotates to drive the rotating plate and the rotating column to rotate, and the rotating column slides along the rotating groove and drives the moving piece to move.

6. The unlocking mechanism according to claim 4, wherein the housing defines a limiting groove, the first lock cylinder defines a protrusion engaged with the limiting groove, and the protrusion is configured to limit a rotation range of the first lock cylinder.

7. The unlocking mechanism according to claim 4, further comprising a first stopper and a second stopper, wherein the moving member has a sliding slot, the first stopper is disposed through the sliding slot to limit a moving range of the moving member along a first direction, and the second stopper is disposed on the first stopper to limit a moving range of the moving member along a second direction.

8. A consumable cabinet comprising a cabinet body and an unlocking mechanism according to any one of claims 1 to 7, the unlocking mechanism being capable of unlocking or locking the cabinet body.

9. The consumable cabinet of claim 8, further comprising an unlocking assembly and a linkage, wherein one end of the linkage is connected to the second locking assembly, the other end of the linkage is connected to the unlocking assembly, the second locking assembly rotates to pull the linkage, and the linkage moves to trigger the unlocking assembly to unlock or lock the cabinet body.

10. The consumable cabinet of claim 9, wherein the unlocking assembly comprises a third lock body and a slider, a linkage connected to the slider, and the slider slidably connected to the cabinet body; the linkage piece drives the sliding piece to move synchronously, so that the sliding piece triggers the third lock body to unlock or lock.

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