CN213487866U

CN213487866U - Sliding interlocking structure and tool management cabinet

Info

Publication number: CN213487866U
Application number: CN202021600631.4U
Authority: CN
Inventors: 陈瑞; 董虎
Original assignee: SHENZHEN SEAGEN TECHNOLOGY CO LTD
Current assignee: SHENZHEN SEAGEN TECHNOLOGY CO LTD
Priority date: 2020-08-03
Filing date: 2020-08-03
Publication date: 2021-06-22
Anticipated expiration: 2030-08-03

Abstract

The utility model discloses a sliding interlocking structure and a tool management cabinet, wherein the sliding interlocking structure comprises a shell, at least two connecting components and at least one limiting component; each connecting component comprises a mounting piece and a pushing piece, wherein the mounting piece is arranged on the shell and is provided with a first sliding groove; the pushing piece is slidably arranged in the first sliding groove; the limiting piece is movably arranged between two adjacent mounting pieces, and two ends of the limiting piece respectively movably extend into two adjacent first sliding grooves; the pushing piece slides along one first sliding groove and pushes one limiting piece to move towards the other first sliding groove, so that the limiting piece stops the pushing piece in the other first sliding groove to move. The utility model provides a slip interlocking structure can avoid the instrument management cabinet to empty because of a plurality of drawers are outwards taken out simultaneously when using.

Description

Sliding interlocking structure and tool management cabinet

Technical Field

The utility model relates to an instrument management equipment technical field, in particular to slip interlocking structure and instrument management cabinet.

Background

The tool management cabinet generally comprises a plurality of layers of drawers which can contain different tools, each layer of drawer is connected with the cabinet body of the tool management cabinet through a sliding connection structure, and each layer of drawer can be drawn out outside the tool management cabinet through the sliding connection structure in a sliding mode so as to take the tools in the drawer or put the tools back into the drawer.

In the related art, the multiple layers of drawers can be simultaneously drawn out through the multiple sliding connection structures, and when the multiple layers of drawers are simultaneously drawn out, the gravity center of the tool management cabinet is easily transferred to the drawer drawing-out side, so that the gravity center of the tool management cabinet is unstable and topples over, and the safe use of the tool management cabinet is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a slip interlocking structure aims at avoiding acting simultaneously with a plurality of coupling assembling of drawer sliding fit, leads to a plurality of drawers to outwards take out simultaneously and brings the potential safety hazard that the instrument management cabinet emptys.

In order to achieve the above object, the utility model provides a slip interlocking structure is applied to the tool management cabinet, the slip interlocking structure includes:

a housing;

each connecting component comprises a mounting piece and a pushing piece, and the mounting piece is arranged on the shell and provided with a first sliding groove; the pushing piece is slidably arranged in the first sliding groove;

the limiting piece is movably arranged between two adjacent mounting pieces, and two ends of the limiting piece respectively and movably extend into two adjacent first sliding grooves;

the pushing member slides along one of the first sliding grooves and pushes one of the limiting members to move into the other first sliding groove, so that the limiting member stops the pushing member in the other first sliding groove from moving.

In an embodiment of the present invention, each of the position-limiting members includes a connecting member and two position-limiting blocks, and the two position-limiting blocks are detachably disposed at two ends of the connecting member respectively;

two limiting blocks of each limiting part respectively movably penetrate through two adjacent first sliding grooves.

The utility model discloses an in one embodiment, each the stopper is kept away from the one end of connecting piece is equipped with backstop portion, each backstop portion is located one in the first spout, backstop portion be used for with ejector sliding fit, perhaps backstop the ejector removes.

In an embodiment of the present invention, the stopping portion has a fitting surface, and the fitting surface is used for sliding fitting with the pushing member, so that the pushing member pushes the stopping portion through the fitting surface to drive the limiting block to move;

and/or an inclined surface is arranged on one side of the pushing piece facing the stopping part, and the inclined surface is used for being in sliding fit with the limiting block, so that the pushing piece pushes the stopping part to drive the limiting block to move through the inclined surface.

In an embodiment of the present invention, a limiting portion is further disposed at an end of each limiting block away from the connecting member, and the limiting portion and the stopping portion are disposed at an interval;

each mounting part is provided with a mounting hole, one limiting block movably penetrates through the mounting hole, and the hole wall of the mounting hole is limited between the limiting part and the stopping part of the limiting block.

The utility model discloses an in the embodiment, each the stopper has seted up installation breach, one the both ends difference joint of connecting piece is in two in the installation breach of stopper.

In an embodiment of the present invention, the sliding interlocking structure includes a plurality of connecting components and at least two limiting components;

any adjacent two movably be equipped with one between the installed part the locating part, each the both ends of locating part movably stretch into adjacent two respectively in the first spout.

In an embodiment of the present invention, two adjacent limiting members are located at two opposite sides of one of the first sliding grooves and are symmetrically arranged;

the opposite end parts of two adjacent limiting parts movably extend into the first sliding groove and are positioned at two sides of the pushing part; the pushing piece pushes the two limiting pieces away from each other at the same time.

In an embodiment of the present invention, the connecting assembly further includes at least two receiving members;

each bearing piece is slidably arranged in one first sliding groove, and one side, back to the mounting piece, of each bearing piece is provided with a second sliding groove;

the pushing piece is slidably arranged in the second sliding groove, and each pushing piece is slidably connected with the mounting piece through the bearing piece.

Furthermore, the utility model discloses still provide a tool management cabinet, include:

the sliding interlocking structure described above;

at least two drawers, each the drawer is equipped with a plurality of inserted blocks that the interval set up, each the top pushes away the piece dorsad one side of installed part is equipped with a plurality of convex parts, each the socket has been seted up to the convex part, each the drawer pass through the inserted block with the grafting cooperation of socket with the top pushes away the piece and connects.

The sliding interlocking structure in the technical scheme of the utility model comprises a shell, at least two connecting components and at least one limiting component, wherein each connecting component comprises a mounting component and a pushing component, the mounting component is arranged on the shell and is provided with a first chute; the pushing piece is slidably arranged in the first sliding groove; the two ends of the limiting piece respectively movably extend into the two adjacent first sliding grooves; a pushing piece slides along a first sliding groove and pushes a limiting piece to move towards the other first sliding groove, so that the limiting piece stops the pushing piece in the other first sliding groove to move. Therefore, one pushing piece can slide in the first sliding groove of one mounting piece, and pushes one limiting piece to move towards the adjacent first sliding groove, the limiting piece stops the movement of the pushing piece in the adjacent first sliding groove, so that one pushing piece can freely move in the first sliding groove, and the pushing pieces in other first sliding grooves are stopped by the limiting piece and cannot freely move. If all the pushing pieces are connected with the drawers, when one drawer is pulled out, other drawers cannot be pulled out freely. Therefore, the sliding interlocking structure can effectively prevent a plurality of pushing pieces from simultaneously acting, and can be used for avoiding the potential safety hazard of toppling over of the tool management cabinet caused by the fact that the multiple layers of drawers are simultaneously pulled out outwards.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of the sliding interlocking structure of the present invention in one state;

FIG. 2 is a schematic view of the slide interlock mechanism of FIG. 1 in another state;

FIG. 3 is a schematic structural diagram of a limiting block in FIG. 1;

fig. 4 is a sectional structural view of the connecting member of fig. 2.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1	Shell body	2b	Second ball groove
2	Connecting assembly	3	Position limiting piece
				21	Mounting member	31	Connecting piece
211	First chute	32	Limiting block
				22	Pushing piece	321	Stop part
221	Inclined plane	322	Limiting part
				222	Convex part	323	Mating surfaces
2221	Socket	324	Mounting notch
				23	Receiving piece	325	Guide part
231	Second chute	4	Drawer
				24	Ball bearing	41	Plug block
2a	First ball groove

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. Throughout this document, "and/or" is meant to include three juxtaposed aspects, exemplified by "A and/or B," including either the A aspect, or the B aspect, or both A and B. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a slip interlocking structure is applied to the tool management cabinet.

In the embodiment of the present invention, as shown in fig. 1 and fig. 2, the sliding interlocking structure includes a housing 1, at least two connecting assemblies 2, and at least one limiting member 3; each connecting assembly 2 comprises a mounting piece 21 and a pushing piece 22, wherein the mounting piece 21 is arranged on the shell 1 and is provided with a first sliding groove 211; the pushing piece 22 is slidably arranged in the first sliding groove 211; a limiting member 3 is movably disposed between two adjacent mounting members 21, and two ends of the limiting member 3 respectively movably extend into two adjacent first sliding slots 211; one of the pushing members 22 slides along one of the first sliding slots 211, and pushes one of the limiting members 3 to move toward the other first sliding slot 211, so that the limiting member 3 stops the pushing member 22 in the other first sliding slot 211 from moving.

In the present embodiment, the housing 1 may have a cavity for accommodating and installing the connecting assembly 2, the limiting member 3 and the drawer 4. Wherein the drawer 4 is movably disposed in the housing 1 and partially located in the cavity, and the drawer 4 is connected to the pushing member 22, so that the drawer 4 slides along the first sliding slot 211 via the pushing member 22.

Coupling assembling 2 is used for connecting casing 1 and drawer 4, and installed part 21 can set up in the inner wall of the cavity of casing 1, and installed part 21 accessible spiro union's mode is connected with casing 1, and first spout 211 has been seted up to one side of installed part 21 dorsad casing 1. The pushing member 22 can be slidably connected to the groove wall of the first sliding groove 211 by a groove rail connection, a sliding block and sliding rail connection, and the like, which is not limited herein. The pusher 22 is slidable in the extending direction of the first slide groove 211.

The limiting piece 3 is used for sliding fit with the pushing piece 22; or for stopping the ejector 22 in the first slide groove 211. Specifically, two ends of a limiting member 3 respectively movably penetrate through two adjacent mounting members 21, and when the pushing member 22 in the lower first sliding groove 211 moves, the pushing member 22 in the lower first sliding groove 211 pushes up the limiting member 3, so that the limiting member 3 moves and further extends into the upper first sliding groove 211. At this time, for the lower pushing member 22, the limiting member 3 keeps a sliding connection relationship with the upper surface thereof, so that the pushing member 22 can freely slide in the lower first sliding groove 211; for the upper pushing member 22, the limiting member 3 further extends into the upper first sliding slot 211 and is at least partially located on the moving path of the pushing member 22, so as to stop the movement of the pushing member 22, so that the upper pushing member 22 cannot freely move in the upper first annular slot.

In the technical solution of this embodiment, one pushing member 22 can slide in the first sliding slot 211 of one mounting member 21, and pushes one limiting member 3 to move into the adjacent first sliding slot 211, and the limiting member 3 stops the movement of the pushing member 22 in the adjacent first sliding slot 211, so that one pushing member 22 can freely move in the first sliding slot 211, and the pushing members 22 in the other first sliding slots 211 are stopped by the limiting member 3 and cannot freely move. If the pushing members 22 are connected to the drawers 4, when one drawer 4 is pulled out, the other drawers 4 cannot be pulled out freely. Therefore, the sliding interlocking structure can effectively prevent the plurality of pushing pieces 22 from simultaneously acting, and can be used for avoiding the potential safety hazard of toppling over of the tool management cabinet caused when the plurality of layers of drawers 4 are simultaneously pulled out.

In an embodiment of the present invention, as shown in fig. 1 and fig. 2, each limiting member 3 includes a connecting member 31 and two limiting blocks 32, and the two limiting blocks 32 are detachably disposed at two ends of the connecting member 31 respectively; the two limiting blocks 32 of each limiting block 3 are movably inserted into the two adjacent first sliding grooves 211 respectively.

In the present embodiment, the connecting member 31 is used to connect two stoppers 32, and the stoppers 32 are used to slidably fit with the pushing member 22 or stop the pushing member 22. Connecting piece 31 accessible joint, modes such as threaded connection can be dismantled with two stopper 32 and be connected, can dismantle with two stopper 32 through a connecting piece 31 and be connected and form a locating part 3, can make things convenient for the equipment of locating part 3, make things convenient for connecting piece 31 to renew simultaneously and length adjustment, in addition, also make things convenient for stopper 32's installation and change, make stopper 32 and connecting piece 31's specification adjust simultaneously to this satisfies the adaptation demand of the installed part 21 of different specifications.

In an embodiment of the present invention, as shown in fig. 2 and fig. 3, a stopping portion 321 is disposed at one end of each limiting block 32 away from the connecting member 31, each stopping portion 321 is located in a first sliding groove 211, and the stopping portion 321 is used for sliding-fitting with the pushing member 22 or stopping the pushing member 22 to move.

In this embodiment, the stopping portion 321 may be integrally formed with the limiting block 32, and the stopping portion 321 is disposed on a side of the limiting block 32 opposite to the housing 1. Two ends of a limiting part 3 respectively movably penetrate two adjacent mounting parts 21, when the pushing part 22 in the lower first sliding groove 211 moves, the pushing part 22 in the lower first sliding groove 211 pushes up the lower limiting part 32, so that the lower limiting part 32 drives the upper limiting part 32 to further extend into the upper first sliding groove 211 through the connecting part 31. At this time, for the lower pushing member 22, the lower stopper 32 keeps a sliding connection relationship with the upper surface thereof, so that the pushing member 22 can freely slide in the lower first sliding groove 211; in the case of the upper pushing member 22, the upper stopper 32 further extends into the upper first sliding slot 211 and is at least partially located on the moving path of the upper pushing member 22, so as to stop the movement of the upper pushing member 22, so that the upper pushing member 22 cannot freely move in the upper first annular slot.

In an embodiment of the present invention, as shown in fig. 2, the stopping portion 321 has a fitting surface 323, and the fitting surface 323 is used for sliding fitting with the pushing member 22, so that the pushing member 22 pushes the stopping portion 321 through the fitting surface 323 to drive the limiting block 32 to move; and/or, an inclined surface 221 is disposed on a side of the pushing member 22 facing the stopping portion 321, and the inclined surface 221 is used for sliding fit with the limiting block 32, so that the pushing member 22 pushes the stopping portion 321 through the inclined surface 221 to drive the limiting block 32 to move.

In this embodiment, the matching surface 323 is disposed on a side of the stopping portion 321 facing the pushing member 22, so that when the pushing member 22 moves toward the stopping portion 321, the pushing member 22 can directly slide-fit with the matching surface 323, and the stopping portion 321 is pushed to drive the limiting block 32 to move; or, the pushing member 22 is slidably engaged with the engaging surface 323 through the inclined surface 221, so as to push the stopping portion 321 to drive the stopper 32 to move. The matching surface 323 and the inclined surface 221 may be inclined surfaces, and the matching surface 323 and the inclined surface 221 are disposed to facilitate the pushing member 22 to push the stopper 32 to move when passing through the stopper 32.

Optionally, a second mating surface 323 is disposed on a side of the stopping portion 321 opposite to the pushing member 22, and the second mating surface 323 is configured to be in sliding fit with the pushing member 22 when the pushing member 22 is retracted, so that the pushing member 22 can be retracted to the inside of the housing 1 smoothly. In addition, the second inclined surface 221 may be further disposed on the pushing member 22 adjacent to the inclined surface 221, and the second inclined surface 221 is slidably abutted to the second mating surface 323 when the pushing member 22 is moved back, so as to reduce the assisting force when the pushing member 22 is moved back and slide, and facilitate the pushing member 22 to be moved back more conveniently.

In an embodiment of the present invention, in combination with fig. 2 and 3, a limiting portion 322 is further disposed at one end of each limiting block 32 away from the connecting member 31, and the limiting portion 322 and the stopping portion 321 are disposed at an interval; each mounting member 21 has a mounting hole, a limiting block 32 movably penetrates through the mounting hole, and the hole wall of the mounting hole is limited between the limiting portion 322 of the limiting block 32 and the stopping portion 321.

In this embodiment, the stopping portion 321 and the limiting portion 322 are respectively located on the inner side and the outer side of the first sliding groove 211, so that when the limiting block 32 moves, the moving distance of the limiting block 32 is equal to the distance between the stopping portion 321 and the limiting portion 322, the stopping portion 321 and the limiting portion 322 limit the moving range of the limiting block 32, the limiting block 32 is prevented from slipping out of the mounting hole due to sliding inertia, and the reliability of connection and matching between the limiting block 32 and the mounting member 21 is ensured.

In an embodiment of the present invention, as shown in fig. 2 and fig. 3, each of the stoppers 32 has an installation notch 324, and two ends of a connecting member 31 are respectively connected to the installation notches 324 of the two stoppers 32.

In this embodiment, installation breach 324 is used for installation and spacing connecting piece 31, each stopper 32 is through installation breach 324 and a connecting piece 31 joint, two connecting pieces 31 can dismantle with a connecting piece 31 through installation breach 324 and be connected, thereby make things convenient for the equipment of each locating part 3, make things convenient for connecting piece 31 to change newly and length adjustment simultaneously, in addition, also make things convenient for stopper 32's installation and change, make stopper 32 and connecting piece 31's specification adjust simultaneously, with this adaptation demand that satisfies the installed part 21 of different specifications. The inner wall of the mounting notch 324 abuts against the outer peripheral wall of the connector 31, and the connector 31 may be in interference fit with the mounting notch 324. The mounting notch 324 is a non-closed opening that may have a cross-sectional shape that is arcuate, semi-circular, etc.

In an embodiment of the present invention, as shown in fig. 1 and fig. 2, the sliding interlocking structure includes a plurality of connecting assemblies 2 and at least two limiting members 3; a limiting member 3 is movably disposed between any two adjacent mounting members 21, and two ends of each limiting member 3 respectively movably extend into two adjacent first sliding slots 211.

In this embodiment, the housing 1 is provided with a plurality of mounting members 21 arranged in parallel in sequence, each pushing member 22 is slidably disposed in the first sliding slot 211 of each mounting member 21, any two adjacent pushing members 22 are engaged with one limiting member 3 therebetween, when any one pushing member 22 pushes the limiting member 3 engaged therewith to move, the limiting members 3 drive the other limiting members 3 to move, and the other limiting members 3 respectively stop the rest of the pushing members 22, thereby ensuring that only one pusher 22 is always free to move within the first chute 211, while the other pushing members 22 cannot move freely, so that the interlocking of the plurality of pushing members 22 is realized, when the pushing member 22 is connected to the drawer 4, the plurality of drawers 4 can be interlocked with each other, so that only one drawer 4 can be drawn out of the housing 1, and the remaining drawers 4 cannot be drawn out of the housing 1.

In an embodiment of the present invention, as shown in fig. 1 and fig. 2, two adjacent limiting members 3 are located at two opposite sides of a first sliding slot 211 and are symmetrically arranged; the opposite end parts of two adjacent limiting pieces 3 movably extend into a first sliding groove 211 and are positioned at two sides of a pushing piece 22; the pushing member 22 simultaneously pushes the two limiting members 3 away from each other.

In this embodiment, two limiting members 3 are movably disposed on one mounting member 21, and the limiting blocks 32 of the two limiting members 3 symmetrically penetrate through the upper side and the lower side of the mounting member 21, so that when the pushing member 22 in each first sliding slot 211 moves, the pushing member 22 pushes the two limiting blocks 32 to move upward and downward respectively, and drives the other limiting blocks 32 to move through the two connecting members 31 respectively, so that all the limiting members 3 above the fixed pushing member 22 move upward and all the pushing members 22 above the pushing member 22 are stopped to move; and all the limiting members 3 positioned below the pushing member 22 move downwards and stop all the pushing members 22 below the pushing member 22 from moving; this achieves that only one pushing element 22 can move freely, while the remaining pushing elements 22 are stopped by the corresponding stop 32 and cannot move freely.

Optionally, as shown in the river of fig. 2, the opposite ends of the two limit blocks 32 penetrating through one mounting member 21 are provided with the guide portions 325, and the two limit blocks 32 penetrating through the same mounting member 21 are slidably abutted by the two guide portions 325, so that the two limit blocks 32 are slidably guided by the two guide portions 325.

In an embodiment of the present invention, as shown in fig. 1 and 4, the connecting assembly 2 further includes at least two receiving members 23; each bearing piece 23 is slidably arranged in a first sliding groove 211, and a second sliding groove 231 is arranged on one side of each bearing piece 23, which faces away from the mounting piece 21; an ejector 22 is slidably disposed in a second sliding slot 231, and each ejector 22 is slidably connected to a mounting member 21 through a receiving member 23.

In this embodiment, the pushing member 22 is slidably connected to the mounting member 21 through the receiving member 23, and the pushing member 22, the receiving member 23 and the mounting member 21 are sequentially slidably connected to each other, so that when the pushing member 22 slides outward to the housing 1, the receiving member 23 is driven to slide outward, the sliding stroke of the pushing member 22 is increased by the receiving member 23, which is also beneficial to shortening the length of the pushing member 22 and saving the material consumption of the pushing member 22.

In an embodiment of the present invention, as shown in fig. 1 and 4, the connecting assembly 2 further includes a plurality of balls 24; each bearing piece 23 and the side wall of one first sliding chute 211 are enclosed to form a first ball groove 2a, and each pushing piece 22 and the side wall of one second sliding chute 231 are enclosed to form a second ball groove 2 b; the balls 24 are respectively provided in the first ball groove 2a and the second ball groove 2b, and slidably abut against a groove wall of the first ball groove 2a or a groove wall of the second ball groove 2 b.

In the present embodiment, the plurality of balls 24 are accommodated in the first ball groove 2a, and slidably abut against the groove wall of the first ball groove 2a, so that the receiving member 23 is slidably connected to the mounting member 21 via the plurality of balls 24 in the plurality of first ball grooves 2 a. The plurality of balls 24 are accommodated in the second ball groove 2b, and slidably abut against a groove wall of the second ball groove 2b, so that the pusher 22 is slidably connected to the receiver 23 via the plurality of balls 24 in the plurality of second ball grooves 2 b. The balls 24 in the first ball grooves 2a are arranged side by side, and the balls 24 in the second ball grooves 2b are arranged side by side, so that stable and reliable sliding connection among the pushing piece 22, the receiving piece 23 and the mounting piece 21 is realized.

In addition, the utility model also provides a tool management cabinet, which comprises the sliding interlocking structure in the embodiment; at least two drawers 4, each drawer 4 is equipped with a plurality of inserted blocks 41 that the interval set up, and one side that each top pushing member 22 dorsad installed part 21 is equipped with a plurality of convex parts 222, and socket 2221 has been seted up to each convex part 222, and each drawer 4 is connected with top pushing member 22 through the grafting cooperation of inserted block 41 and socket 2221.

In this embodiment, when each drawer 4 is drawn out, the drawer 4 drives the corresponding pushing member 22 to move along a first sliding slot 211, so that the pushing member 22 pushes a limiting member 3 to slide into the adjacent first sliding slot 211, and the limiting member 3 stops the pushing member 22 in the adjacent first sliding slot 211 to move, thereby ensuring that only one drawer 4 can be drawn out of the casing 1 at each time, and other drawers 4 cannot be drawn out of the casing 1, so as to realize interlocking among the plurality of drawers 4, thereby avoiding the problem of toppling over of the tool management cabinet caused by simultaneously drawing out the plurality of drawers 4.

The specific structure of the sliding interlocking structure refers to the above embodiments, and since the tool management cabinet adopts all technical solutions of all the above embodiments, all beneficial effects brought by the technical solutions of the above embodiments are at least achieved, and are not repeated herein.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims

1. A sliding interlock for use with a tool management cabinet, the sliding interlock comprising:

a housing;

2. The sliding interlock structure as claimed in claim 1, wherein each of the stoppers comprises a connecting member and two stoppers detachably provided at both ends of the connecting member, respectively;

3. The sliding interlock as defined in claim 2, wherein each of said stoppers is provided with a stop portion at an end thereof away from said connecting member, each of said stop portions is located in one of said first sliding grooves, and said stop portions are adapted to slidably engage with said pushing member or stop the movement of said pushing member.

4. The sliding interlock as defined in claim 3, wherein said stopping portion has a fitting surface for slidably fitting with said pushing member, so that said pushing member pushes said stopping portion to drive said limiting block to move through said fitting surface;

5. The sliding interlock as defined in claim 3, wherein each of said stoppers is further provided with a stopper at an end thereof remote from said connector, said stopper being spaced from said stopper;

6. The sliding interlocking structure according to claim 2, wherein each of the limiting blocks is provided with an installation notch, and two ends of one of the connecting members are respectively clamped in the installation notches of the two limiting blocks.

7. The sliding interlock as defined in any one of claims 1 to 6 wherein said sliding interlock comprises a plurality of connecting members and at least two retaining members;

8. The sliding interlock as defined in claim 7, wherein two adjacent ones of said retainers are located on opposite sides of one of said first runners and are symmetrically disposed;

9. The slide interlock as defined in any one of claims 1 to 4 wherein said connector assembly further comprises at least two adapters;

10. A tool management cabinet, comprising:

the sliding interlock structure as defined in any one of claims 1 to 9;