CN116100520B - Combined linkage interlocking tool cabinet and production method - Google Patents

Abstract

The application relates to the field of tool cabinets, in particular to a combined linkage interlocking tool cabinet and a production method thereof, wherein the combined linkage interlocking tool cabinet comprises a base and a plurality of tool cabinets, the base supports and installs all the tool cabinets, the tool cabinets are spliced and locked by themselves to form the tool cabinets with any length and any height, side plates and top plates are disassembled and installed correspondingly to obtain required spaces for placing different tools, a bottom plate and a back plate are connected in a sliding manner, the side plates and the bottom plate are connected in a sliding manner, door plates are opened and closed to contact the inner space of the tool cabinets, the bottom plate is connected with each other in a sliding manner by adopting a sliding buckle, and in addition, a clamping structure is arranged on the back plate to connect the adjacent tool cabinets.

Description

Combined linkage interlocking tool cabinet and production method

Technical Field

The application relates to the field of tool cabinets, in particular to a combined linkage interlocking tool cabinet and a production method.

Background

The tool cabinet is used for placing tools with different sizes and shapes.

The cabinet body of traditional tool cabinet is integral type, and tool cabinet structure is single, and the article that can deposit is less and single because of the restriction of tool cabinet accommodation space and structure, if need deposit the instrument of multiple different grade type, often need purchase the tool cabinet of a plurality of different specifications to satisfy the storage demand of multiple variety article.

However, the storage equipment to be paid by the user is more in acquisition cost due to the adoption of the mode, and the utilization rate of the storage space is lower, so that the use is inconvenient.

Disclosure of Invention

The application aims to provide a combined linkage interlocking tool cabinet and a production method thereof, aiming at improving the utilization efficiency of a storage space.

In order to achieve the above object, in a first aspect, the present application provides a combined linkage interlocking tool cabinet, including a base and a plurality of tool cabinets, where the plurality of tool cabinets are disposed on top of the base, the tool cabinet includes a bottom plate, two side plates, a door plate, a back plate, and a top plate, the bottom plate has a first slot, the back plate has a second slot, the back plate is slidably connected with the bottom plate and is located at one side of the bottom plate, two side plates are slidably connected with the bottom plate and are located in the second slot and the first slot, the door plate is rotatably connected with the bottom plate and is located at one side of the side plate away from the back plate, the top plate is slidably connected with the side plate and is in contact with the back plate, the bottom plate includes a bottom plate body and two sliders, the two sliders are slidably connected with the bottom plate body and are located at the bottom of the bottom plate body, and the back plate is provided with a snap structure.

The base comprises a base body, a sliding plate and a locking rod, wherein the sliding plate is provided with a plurality of through holes, the sliding plate is in sliding connection with the base body and is positioned on one side of the base body, and the locking rod is in threaded connection with the base body and penetrates through the through holes.

The base further comprises a first movable wheel set and a second movable wheel set, the first movable wheel set is installed on the base body, and the second movable wheel set is installed on the sliding plate.

The sliding buckle comprises a sliding buckle body, a first clamp, a second clamp, a clamping rod and a spring, wherein the sliding buckle body is in sliding connection with the bottom plate body and is located on one side of the bottom plate body, the first clamp is in rotary connection with the sliding buckle body and is located on one side of the sliding buckle body, the second clamp is in rotary connection with the first clamp and is located on one side of the first clamp, the first clamp and the second clamp form a placing cavity, the clamping rod is arranged in the placing cavity in a sliding mode, and the spring is arranged in the placing cavity away from the first clamp.

The door plate comprises a plate body and a magnet, wherein the magnet is installed on one side of the bottom plate, and the plate body is rotationally connected with the magnet and located on one side of the magnet.

In a second aspect, the present application also provides a method for producing a combined linkage interlocking tool cabinet, including:

producing a bottom plate, two side plates, a door plate, a back plate and a top plate, and grooving at corresponding positions;

slidably mounting a back plate on the bottom plate;

sliding the two side plates into a second groove on the side plates through a first groove for stabilization;

rotatably mounting a door panel to the base panel;

a top plate is slidably mounted to the top of the side plates.

Wherein after slidably mounting the top plate to the top of the side plate, the production method further comprises:

connecting the bottom plates through slide fasteners to horizontally splice the tool cabinets;

splicing is carried out in the vertical direction through a clamping structure on the backboard;

and installing a base after the tool cabinet is assembled.

According to the combined linkage interlocking tool cabinet and the production method, all the tool cabinets are supported and installed through the base, so that the placement is more stable. The tool cabinet can be spliced and locked by itself, so that the tool cabinets with any length and height can be formed, the side plates and the top plates can be correspondingly disassembled and assembled, and therefore a desired space is obtained for placing different tools.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a modular interlocking tool cabinet according to a first embodiment of the present application.

Fig. 2 is a structural view of a tool cabinet of the first embodiment of the present application.

Fig. 3 is a bottom structural view of a tool cabinet of a first embodiment of the application.

Fig. 4 is a structural view of a base of a second embodiment of the present application.

Fig. 5 is a bottom structural view of a tool cabinet of a second embodiment of the application.

Fig. 6 is a structural view of a tool cabinet of a second embodiment of the present application.

Fig. 7 is an enlarged view of a portion of detail a of fig. 6.

Fig. 8 is a back structural view of a tool cabinet of a second embodiment of the present application.

Fig. 9 is a flow chart of a method of producing a modular linkage-interlock tool cabinet of the present application.

101-base, 102-tool chest, 103-bottom, 104-side, 105-door, 106-back, 107-top, 108-first slot, 109-second slot, 110-bottom body, 111-slider, 201-base, 202-slider, 203-lock bar, 205-first moving wheel set, 206-second moving wheel set, 207-slider body, 208-first clip, 209-second clip, 210-clip bar, 211-spring, 212-placement cavity, 213-plate, 214-magnet, 215-slide bar, 216-push handle, 217-connecting slot, 218-fixed slot, 219-connecting post, 220-triangle clip, 221-support spring.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present application and should not be construed as limiting the application.

Referring to fig. 1 to 3, fig. 1 is a block diagram of a combined linkage interlocking tool cabinet according to a first embodiment of the present application. Fig. 2 is a structural view of a tool cabinet of the first embodiment of the present application. Fig. 3 is a bottom structural view of a tool cabinet of a first embodiment of the application. The application provides a combined linkage interlocking tool cabinet, which comprises:

including base 101 and a plurality of tool cabinet 102, a plurality of tool cabinet 102 set up the base 101 top, tool cabinet 102 includes bottom plate 103, two curb plates 104, door plant 105, backplate 106 and roof 107, bottom plate 103 has first groove 108, backplate 106 has second groove 109, backplate 106 with bottom plate 103 sliding connection, and be located one side of bottom plate 103, two curb plates 104 with bottom plate 103 sliding connection, and be located second groove 109 and in first groove 108, door plant 105 with bottom plate 103 swivelling joint, and be located curb plate 104 is kept away from one side of backplate 106, roof 107 with curb plate 104 sliding connection, and with backplate 106 contact, bottom plate 103 includes bottom plate body 110 and two sliders 111, two sliders 111 with bottom plate body 110 sliding connection, and be located the bottom of bottom plate body 110, backplate 106 is provided with the block structure.

In this embodiment, all tool cabinets 102 are supported and installed by the base 101, so that placement is more stable. The tool cabinet 102 of the present application may be assembled and locked by itself, so as to form a tool cabinet 102 with any length and height, and may be disassembled and assembled correspondingly to the side plate 104 and the top plate 107, so as to obtain a desired space for placing different tools, specifically, the bottom plate 103 and the back plate 106 are connected in a sliding manner, the side plate 104 and the bottom plate 103 are also connected in a sliding manner, and the second slot 109 and the first slot 108 are engaged, the door plate 105 may be opened and closed to contact the inner space of the tool cabinet, the bottom plate 103 may be connected to each other by adopting the slider 111, so as to maintain the stability of the bottom connection, and in addition, the back plate 106 is also provided with an engagement structure, so that after the assembly of a plurality of tool cabinets 102 is completed, the top plate 107, the side plate 104 and the bottom plate 103 in corresponding positions are removed by sliding, so as to form a space for use, thereby improving the expansibility of the tool cabinet 102, and making full use of the space.

Second embodiment

Referring to fig. 4 to 8, fig. 4 is a block diagram of a base according to a second embodiment of the present application. Fig. 5 is a bottom structural view of a tool cabinet of a second embodiment of the application. Fig. 6 is a structural view of a tool cabinet of a second embodiment of the present application. Fig. 7 is an enlarged view of a portion of detail a of fig. 6. Fig. 8 is a back structural view of a tool cabinet of a second embodiment of the present application. On the basis of the first embodiment, the present application further provides a combined linkage interlocking tool cabinet 102, where the base 101 includes a base 201, a sliding plate 202 and a locking rod 203, the sliding plate 202 has a plurality of through holes, the sliding plate 202 is slidably connected with the base 201 and is located at one side of the base 201, and the locking rod 203 is in threaded connection with the base 201 and penetrates through the through holes. The base 201 is provided with a plurality of sliding grooves, the sliding plate 202 can slide in the sliding grooves to adjust the length of the base 101, and then the locking rod 203 is rotated to enter the through hole on the sliding plate 202 to fix the position of the sliding plate 202, so that the tool cabinet 102 with different lengths can be supported conveniently, and the practicability of the base 101 is improved.

The base 101 further includes a first moving wheel set 205 and a second moving wheel set 206, where the first moving wheel set 205 is installed on the base 201, and the second moving wheel set 206 is installed on the sliding plate 202. The first moving wheel set 205 is disposed on the base 201 to support the base 201, and the second moving wheel set 206 is mounted on the sliding plate 202 to slide along with the sliding plate 202, so that the whole base 101 can be conveniently pushed, and the use is more convenient.

Second, the slider 111 includes a slider body 207, a first clip 208, a second clip 209, a clamping rod 210, and a spring 211, where the slider body 207 is slidably connected to the bottom plate body 110 and located on one side of the bottom plate body 110, the first clip 208 is rotationally connected to the slider body 207 and located on one side of the slider body 207, the second clip 209 is rotationally connected to the first clip 208 and located on one side of the first clip 208, the first clip 208 and the second clip 209 form a placement cavity 212, the clamping rod 210 is slidably disposed in the placement cavity 212, and the spring 211 is disposed in the first clip 208 away from the placement cavity 212. The first clips 208 and the second clips 209 of the two sliders 111 on the base plate body 110 are located on different planes, so that when the sliders 111 on the two adjacent tool cabinets 102 are pushed to relatively run, the first clips 208 and the second clips 209 of the two sliders 111 can be overlapped, so that the two clamping rods 210 are pushed to contact to enable the first clips 208 and the second clips 209 to be opened, the first clips 208 and the second clips 209 on the two tool cabinets 102 continue to relatively move and overlap until the two clamping rods 210 enter into a placing cavity 212 formed after the two sliders 111 are overlapped, and at the moment, the first clips 208 and the second clips 209 lose support, so that the clamping rods 210 are clamped to be fixed under the action of the springs 211, and the connection of the base plate 103 is more convenient.

Then, the door panel 105 includes a plate body 213 and a magnet 214, the magnet 214 is mounted on one side of the bottom plate 103, and the plate body 213 is rotatably connected to the magnet 214 and located on one side of the magnet 214. The whole tool cabinet 102 is made of iron, so that the door plate 105 can be adsorbed on the bottom plate 103 by adopting the magnet 214, and then the plate body 213 can rotate relative to the magnet 214 to move. After combining the plurality of tool cupboards 102, the magnet 214 may be mounted into a slot on another door panel 105 so that the door panels 105 in the horizontal direction of the door panels 105 may be moved in combination.

Finally, the door panel 105 further includes a sliding rod 215 and a push handle 216, the plate body 213 has a connecting slot 217 and a fixing slot 218, the fixing slot 218 is disposed on one side of the connecting slot 217, the sliding rod 215 is slidably connected with the plate body 213 and is located in the connecting slot 217, and the push handle 216 is fixedly connected with the sliding rod 215 and is located on one side of the fixing slot 218. In order to enable the door panels 105 in the vertical direction to be capable of moving in a combined mode, the sliding rod 215 and the pushing handle 216 are arranged, after the tool cabinet 102 is combined, the sliding rod 215 is pushed upwards through the pushing handle 216 and is connected with the plate body 213, the top end of the sliding rod 215 sequentially pushes the sliding rod 215 of the next tool cabinet 102, and then the pushing handle 216 is rotated to enter the fixing groove 218, so that all the door panels 105 can be connected in the vertical direction, and the use is more convenient.

The clamping structure comprises a connecting column 219, two triangular clamping blocks 220 and a supporting spring 221, wherein the two triangular clamping blocks 220 are slidably arranged at the upper end of the back plate 106, the supporting spring 221 is arranged between the triangular clamping blocks 220 and the back plate 106, then the connecting column 219 is slidably arranged at the lower end of the back plate 106, so that after the tool cabinet 102 is combined, the connecting column 219 of the back plate 106 of the tool cabinet 102 above the connecting column is slidably arranged in the triangular clamping blocks 220 of the tool cabinet 102 below the connecting column 219, the triangular clamping blocks 220 are fixed through the supporting spring 221, and the triangular clamping blocks 220 can be moved through the external lugs when the triangular clamping blocks are required to be detached, so that the use is more convenient.

Third embodiment

Referring to fig. 9, fig. 9 is a flowchart of a method for producing a combined linkage interlocking tool cabinet according to the present application. On the basis of the first embodiment, the application also provides a production method of the combined linkage interlocking tool cabinet 102, which comprises the following steps:

s101, a bottom plate 103, two side plates 104, a door plate 105, a back plate 106 and a top plate 107 are produced, and grooves are formed in corresponding positions;

the bottom plate 103, side plates 104, door plate 105, back plate 106 and top plate 107 are produced in the corresponding dimensions of the respective plates and the slots are milled in the corresponding positions.

S102, slidably mounting a back plate 106 on the bottom plate 103;

s103, sliding two side plates 104 into a second groove 109 on the side plate 104 through a first groove 108 for stabilization;

s104, rotatably mounting a door plate 105 on the bottom plate 103;

s105 slidably mounting a top plate 107 to the top of the side plate 104;

s106, connecting the bottom plate 103 through a slide fastener 111 to horizontally splice the tool cabinet 102;

s107, splicing is carried out in the vertical direction through a clamping structure on the backboard 106;

s108 installs the base 101 after the tool cabinet 102 is assembled.

In this embodiment, all tool cabinets 102 are supported and installed by the base 101, so that placement is more stable. The tool cabinet 102 of the present application may be assembled and locked by itself, so as to form a tool cabinet 102 with any length and height, and may be disassembled and assembled correspondingly to the side plate 104 and the top plate 107, so as to obtain a desired space for placing different tools, specifically, the bottom plate 103 and the back plate 106 are connected in a sliding manner, the side plate 104 and the bottom plate 103 are also connected in a sliding manner, and the second slot 109 and the first slot 108 are engaged, the door plate 105 may be opened and closed to contact the inner space of the tool cabinet, the bottom plate 103 may be connected to each other by adopting the slider 111, so as to maintain the stability of the bottom connection, and in addition, the back plate 106 is also provided with an engagement structure, so that after the assembly of a plurality of tool cabinets 102 is completed, the top plate 107, the side plate 104 and the bottom plate 103 in corresponding positions are removed by sliding, so as to form a space for use, thereby improving the expansibility of the tool cabinet 102, and making full use of the space.

The above disclosure is only a preferred embodiment of the present application, and it should be understood that the scope of the application is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present application.

Claims (4)

1. A combined linkage interlocking tool cabinet is characterized in that,

comprises a base and a plurality of tool cabinets, wherein the tool cabinets are arranged at the top of the base, the tool cabinets comprise a bottom plate, two side plates, a door plate, a back plate and a top plate, the bottom plate is provided with a first groove, the back plate is provided with a second groove, the back plate is in sliding connection with the bottom plate and is positioned at one side of the bottom plate, the two side plates are in sliding connection with the bottom plate and are positioned in the second groove and the first groove, the door plate is in rotating connection with the bottom plate and is positioned at one side of the side plate far away from the back plate, the top plate is in sliding connection with the side plates and is in contact with the back plate, the bottom plate comprises a bottom plate body and two slide buckles, the two slide buckles are in sliding connection with the bottom plate body and are positioned at the bottom of the bottom plate body, the back plate is provided with a clamping structure, the base comprises a base body, a slide plate and a lock rod, the sliding plate is provided with a plurality of through holes, the sliding plate is in sliding connection with the base body and is positioned at one side of the base body, the lock rod is in threaded connection with the base body and penetrates through the through holes, the base also comprises a first moving wheel set and a second moving wheel set, the first moving wheel set is arranged on the base body, the second moving wheel set is arranged on the sliding plate, the sliding buckle comprises a sliding buckle body, a first clamp, a second clamp, a clamping rod and a spring, the sliding buckle body is in sliding connection with the base plate body and is positioned at one side of the base plate body, the first clamp is in rotating connection with the sliding buckle body and is positioned at one side of the sliding buckle body, the second clamp is in rotating connection with the first clamp and is positioned at one side of the first clamp, the first clamp and the second clamp form a placing cavity, the clamping rod is in sliding arrangement in the placing cavity, the spring is arranged in the first clamp far away from the placing cavity, the first clamp and the second clamp of the two slide buckles on the bottom plate body are positioned on different planes, when the slide buckles on the two adjacent tool cabinets are pushed to relatively run, the first clamp and the second clamp of the two slide buckles are overlapped, the placing cavities of the two slide buckles are overlapped, and clamping rods on the two slide buckles enter the placing cavity formed after the two slide buckles are overlapped.

2. A modular interlocking tool cabinet as in claim 1 wherein,

the door plate comprises a plate body and a magnet, wherein the magnet is installed on one side of the bottom plate, and the plate body is rotationally connected with the magnet and is positioned on one side of the magnet.

3. A method for producing a combined linkage interlocking tool cabinet, which is applied to producing the combined linkage interlocking tool cabinet according to any one of claims 1 to 2, and is characterized by comprising the following steps:

producing a bottom plate, two side plates, a door plate, a back plate and a top plate, and grooving at corresponding positions;

slidably mounting a back plate on the bottom plate;

sliding the two side plates into a second groove on the side plates through a first groove for stabilization;

rotatably mounting a door panel to the base panel;

a top plate is slidably mounted to the top of the side plates.

4. A method of producing a modular interlocking tool cabinet as claimed in claim 3 wherein,

after slidably mounting the top plate to the top of the side plate, the production method further includes:

connecting the bottom plates through slide fasteners to horizontally splice the tool cabinets;

splicing is carried out in the vertical direction through a clamping structure on the backboard;

and installing a base after the tool cabinet is assembled.