CN218641454U - Support table suitable for storage box - Google Patents

Abstract

The application discloses a pallet suitable for storage box includes: at least one support member capable of interlocking with the storage compartment; a mounting assembly connected to the support; the mounting assembly includes: the first connecting piece is connected with the supporting piece; the supporting piece at least has a first state and a second state relative to the first connecting piece, when the supporting piece is in the first state, the supporting piece is in the first position, and when the supporting piece is in the second state, the supporting piece is in the second position.

Description

Support table suitable for storage box

Technical Field

The invention relates to a support table suitable for a storage box.

Background

The storage box is provided with a containing space, so that tools such as a battery pack, a horizontal scale, a cable, a lubricating oil and other chemical agents and tools worn at any time are often placed in the storage box, when a user does not use the tools, the storage box is often placed in a warehouse, but the storage boxes are stacked together, so that when the user needs to find the tools placed in the storage box at the lowest layer, the tool boxes stacked above need to be removed, the storage box at the lower layer can be opened, and the user is very inconvenient to take.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide a support table capable of being interlocked with a storage box.

In order to achieve the above object, the following technical solutions are adopted in the present application: a racking station adapted for use with a storage bin, comprising: at least one support member capable of interlocking with the storage compartment; a mounting assembly connected to the support; the mounting assembly includes: the first connecting piece is connected with the supporting piece; the supporting piece at least has a first state and a second state relative to the first connecting piece, when the supporting piece is in the first state, the supporting piece is in the first position, and when the supporting piece is in the second state, the supporting piece is in the second position.

Further, the first connecting piece can be directly installed on one of a wall surface, a ground surface, a goods shelf and a wood board.

Further, the mounting assembly further comprises: the second connecting piece is rotatably connected with the first connecting piece; the third connecting piece is connected with the second connecting piece; wherein, the third connecting piece is connected with the second connecting piece is rotated, and support piece installs to the third connecting piece on.

Furthermore, the second connecting piece can be directly installed on one of the wall surface, the ground, the goods shelf and the wood board.

Further, the trestle table still includes the regulation guide rail of being connected with the installation component is dismantled, and the second connecting piece can be installed to adjusting the guide rail.

Furthermore, a plurality of buckles are arranged on the adjusting guide rail, a plurality of clamping grooves are formed in the second connecting piece, the clamping grooves can be connected to the buckles, the quantity of the buckles on the adjusting guide rail is larger than that of the clamping grooves on the second connecting piece, and therefore the clamping grooves on the second connecting piece can be connected to different buckles.

Further, the installation component still includes, the locating pin, the elastic component, the driving piece, and the fastener, the fastener passes the through-hole of second connecting piece and adjusts the through-hole of guide rail with second connecting piece and regulation guide rail fixed connection, first connecting piece is connected second connecting piece and third connecting piece, the both ends of first connecting piece all are connected with the locating pin, be formed with one section hollow slide on the third connecting piece, the locating pin can remove at the slide, third connecting piece and support piece fixed connection, the elastic component, the driving piece all is connected with the third connecting piece, the elastic component has the elastic arm, the elastic arm is exerted a thrust so that the one end of driving piece contacts with the third connecting piece all the time to the driving piece all the time.

Furthermore, the support stand is also connected with an interlocking component, and the interlocking component is used for locking one of a tool, an accessory, a fan unit, a charging device, a power supply device, a lighting device, a storage box and a workbench; the interlocking assembly comprises a buckle assembly, the buckle assembly comprises a buckle part and a positioning part, the buckle part can rebound, the buckle part is connected with the external assembly, and the positioning part is arranged on any one of the tool, the accessory, the fan unit, the charging device, the power supply device, the lighting device, the storage box and the workbench.

Further, the number of installation components is 2, and the number of adjusting guide rail is 2.

A racking station adapted for a storage bin, comprising: at least one support member capable of interlocking with the storage compartment;

a mounting assembly connected to the support; the installation component comprises: the first connecting piece is connected with the supporting piece; the supporting piece is provided with a first position and a second position, and an included angle between the supporting piece at the first position and the supporting piece at the second position is larger than or equal to 30 degrees.

The application has the advantages that: provided is a cradling table having two states, which can realize interlocking between the cradling table and a storage box when the cradling table is in an unfolded state, and can make the cradling table in a folded state when a user does not need it.

Drawings

FIG. 1 is a schematic view of a tool box system of the present application;

FIG. 2 is a schematic view of the storage case of FIG. 1 shown separated from the external components;

FIG. 3 is a schematic view of the work head separated from the storage bin in the tool bin system;

FIG. 4 is a perspective view of the docking assembly of FIG. 1 in a collapsed state;

FIG. 5 is a perspective view of the docking assembly of FIG. 1 in an expanded state;

FIG. 6 is an exploded view of a portion of the external connection assembly of FIG. 1;

FIG. 7 is a perspective view of a drawer box in the tool box system;

figure 8 isbase:Sub>A cross-sectional view of the drawer cabinet of figure 7 taken along the directionbase:Sub>A-base:Sub>A;

fig. 9 is a schematic view of the locking plate of fig. 7 separated from the drawer cabinet;

fig. 10 is an exploded view of the connection assembly of the drawer chest of fig. 7;

FIG. 11 is a perspective view of the table of FIG. 3;

FIG. 12 is a schematic view of the table of FIG. 11 from another perspective;

FIG. 13 is an enlarged view of a portion of FIG. 2;

FIG. 14 is an enlarged partial view of FIG. 5;

FIG. 15 is an enlarged partial view of FIG. 8;

FIG. 16 is a perspective view of a support stand in the toolbox system with the support member in a first state;

FIG. 17 is a perspective view of a support stand in the toolbox system with the support member in a second state;

FIG. 18 is an exploded view of a portion of the support platform of FIG. 16;

FIG. 19 is an exploded view of a portion of the support stand of FIG. 16;

fig. 20 is an exploded view of the connection assembly of the drawer chest of fig. 7;

FIG. 21 is another embodiment of a support stand in the toolbox system;

FIG. 22 is a schematic view of the attachment of the work table to the side wall of the tank.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

As shown in fig. 1, a toolbox system 100 may be used to store items such as: accessories, tools, charging devices, power devices, lighting devices, accessory cases/bags, tool cases, work tables 50, and the like. It should be noted that storing items in the storage compartment 10 is not limited to storing items in the storage compartment, but also includes fixing items outside the storage compartment 10, or hanging, adsorbing, placing items outside the storage compartment 10, also referred to as storing items in the storage compartment 10.

For clarity of explanation of the technical solution of the present application, upper, lower, front, rear, left and right as shown in fig. 1 are defined. It should be noted that, unless otherwise specified, the upper and lower sides, the front and rear sides, and the left and right sides described below refer to the state of the toolbox system 100 when it is left standing as shown in fig. 1.

As shown in fig. 1 to 3, the storage device 100a is a main forming part of the toolbox system 100, and the storage device 100a at least includes one storage box 10, and the storage box 10 is formed with a receiving cavity for storing articles, although the toolbox system 100 may also include a plurality of storage boxes 10, and the storage boxes 10 may be connected with each other. Specifically, the toolbox system 100 includes a plurality of storage boxes 10, such as a storage box, having a box body 132 forming a receiving cavity, and an upper cover 133 for substantially closing the box body 132, and a locking switch is disposed between the box body 132 and the upper cover 133 to maintain the box body 132 and the upper cover 133 relatively fixed. The cabinet 132 is generally formed by a front side wall, a rear side wall, a left side wall and a right side wall, and a bottom wall which has connected the four side walls. The upper covers 133 of the storage cases 10 are provided with the interlocking assemblies 30 so that the storage cases 10 can be locked up and down. A storage basket having a case 132 forming a receiving cavity, wherein the case 132 is semi-open, i.e., closed without an upper cover 133, and a user can directly take out or store articles from the storage basket. Drawer box 13, drawer box 13 is formed with a side has open-ended box 132 to and one or more drawer, and the user can push the drawer into box 132 after placing article in the drawer, and when the user need take article, the user can pull out the drawer and take, wherein the drawer still includes side flip's structure. The movable containing box is different from the containing box in that the movable containing box is provided with a moving assembly, namely a box body 132 is connected with wheels which can rotate relative to the ground, the wheels can drive the containing box to move, further, the movable containing box can be connected with a handle assembly, the handle assembly can be arranged on one side of the movable containing box, and a user can hold the handle assembly so as to move the position of the containing box according to actual conditions. In the present application, the storage box 10 refers to one or a combination of several of the storage boxes, storage baskets, drawer boxes 13, and portable storage boxes described above, unless otherwise specified.

As shown in fig. 1 and 2, the toolbox system 100 includes at least a first type storage box 11, a second type storage box 12, and a first mounting assembly 25. The first storage box 11 and the second storage box 12 each have a receiving cavity capable of holding articles. The first mounting assembly 25 can attach the second type storage box 12 to the outside of the first type storage box 11, and when the second type storage box 12 is attached to the outside of the first type storage box 11, the second type storage box 12 can move together with the first type storage box 11. The ratio of the volume of the second storage box 12 to the volume of the first storage box 11 is more than or equal to 0.3 and less than or equal to 3, so that the first storage box 11 can be connected with more articles. It should be noted that the first installation component may be directly formed in the first type storage box 11 or/and the second type storage box 12, or the first installation component may be a component independent from the first type storage box 11 or the second type storage box 12. Where attached, include direct connections, indirect connections, and direct connections include point connections, area connections, wire connections, and the like.

As an embodiment, the first installation component is directly formed on the first type storage box 11 or/and the second type storage box 12, and the first installation component comprises a first adaptation part and a second adaptation part, wherein the first adaptation part is directly formed by the first type storage box 11, and the second adaptation part is directly formed by the second type storage box, so that when the first adaptation part is matched with the second adaptation part, the first type storage box 11 and the second type storage box 12 are kept basically fixed relatively, and when the first type adaptation part is separated from the second type adaptation part, the first type storage box 11 and the second type storage box 12 can move freely relatively. The first fitting portion may be provided on a side wall of the first type tank 11, and the second fitting portion may be provided on a side wall of the second type tank 12. It should be noted that, it is not limited to which sidewall the first adaptive portion or the second adaptive portion is specifically disposed, and the first adaptive portion or the second adaptive portion may be disposed on any sidewall as long as the connection between the first-type storage box 11 and the second-type storage box 12 can be achieved.

As another embodiment, the first installation component is a separate component from the first type storage box 11 and the second type storage box 12. The first mounting assembly includes a first fitting portion detachably coupled to a sidewall of the first type storage box 11 and a second fitting portion detachably coupled to a sidewall of the second type storage box 12. It is of course also possible that the first adaptation is removably connected to the side wall of the storage compartment 11 of the first type and the second adaptation is formed directly by the storage compartment of the second type. Alternatively, the first adapter is formed directly from the first storage bin 11 and the second adapter is removably attached to the side wall of the second storage bin.

As another embodiment, the middle part is detachably connected to the first type storage box 11, and the first mounting assembly is connected to the middle part, specifically, the first mounting assembly includes a first adapting portion and a second adapting portion, the first adapting portion is connected to the middle part, and the second adapting portion is connected to the second type storage box 12.

The specific structures of the first and second adapter portions are not particularly limited in this application, and the following description about the structures of the first and second adapter portions is a specific structural manner thereof that enables attachment of the first and second type storage boxes 11 and 12.

The toolbox system 100 further comprises a second mounting assembly capable of selectively attaching the second type storage box 12 to the top cover or bottom wall of the first type storage box 11. That is, it can be understood that the second mounting assembly may mount the second type storage box 12 to the upper cover of the first type storage box 11, and the second mounting assembly may also mount the second type storage box 12 to the bottom wall of the first type storage box 11, that is, mount the first storage box to the upper cover of the second type storage box 12. The second installation component comprises an interlocking component, the interlocking component comprises a rebounding buckle part and a positioning part, the buckle part is connected with the upper cover of the first type storage box, and the positioning part is connected with the bottom wall of the second type storage box. Or the buckle piece is connected with the upper cover of the second type storage box, and the positioning piece is connected with the bottom wall of the first type storage box. The arrangement is that the third type storage box can be connected to the upper cover of the first type storage box through the second mounting assembly, and the fourth type storage box can also be connected to the upper cover of the third type storage box through the second mounting assembly, and of course, a user can connect more storage boxes on the fourth type storage box. The second storage box can be connected to the first storage box, the third storage box or the fourth storage box through the first mounting assembly, and the first storage box can be connected with wheels, so that a user can move the second storage box, the third storage box and the fourth storage box together by moving the first storage box. The first type box, the second type box, the third type box and the fourth type box are only used for clearly describing the connection mode, that is, the first type box, the second type box, the third type box and the fourth type box may be the same box, or may be all inconsistent boxes, or more, the types of some boxes may be consistent. It should also be noted that, in the present application, the structures of the first mounting assembly and the second mounting assembly may be identical, or some of the structures may be identical.

As shown in fig. 1, 2, 4 to 6, and 13 to 14, the first mounting assembly 25 may attach the second type storage box 12 to a sidewall of the first type storage box 11, that is, when the second storage box 12 is attached to the first type storage box 11, the second storage box 12 may move together with the first type storage box 11, and when the second type storage box 12 is detached from the first type storage box 11, the first type storage box 11 and the second type storage box 12 may move freely relative to each other. The kit 100 includes the circumscribing assembly 20 disposed outside of the receiving cavity, with the circumscribing assembly 20 being understood to be an intermediate member as described above. The external connection component 20 is used for external tools, accessories, charging devices, power supply devices, lighting devices, the storage box 10 and the like, and the external connection component 20 is detachably and fixedly connected to the first type storage box 11. Meanwhile, one or more positioning holes 211 are formed in the external component 20, and the positioning holes 211 are used for fixedly connecting the external component 20 with the to-be-installed part 221, wherein the to-be-installed part 221 can be a wall surface, a ground surface, a shelf, a wood board and the like. Specifically, four positioning holes 211 are formed in the external component 20, the four positioning holes 211 are formed in the panel 21 of the external component 20, the positioning holes 211 are located at four corners of the panel 21 respectively, a user can use screws to penetrate through the positioning holes 211 to fix the external component 20 to the belt installation portion 221, the user needs to remove the external component 20 or replace the installation position of the external component 20, the user only needs to take out the screws from the positioning holes 211 and then remove the external component 20 from the belt installation portion 221, and if the installation position needs to be changed, the user only needs to penetrate through the positioning holes 211 again to fix the external component 20 to a new belt installation portion 221. The circumscribed assembly 20 includes a panel 21, and the panel 21 is disposed at a front side of the circumscribed assembly 20.

An extension piece 22 is detachably connected to the external connection component 20, and the extension piece 22 is disposed substantially at the rear side of the external connection component 20 and opposite to the mounting panel 21. Extension member 22 is used for connecting external connection component 20 and first type storage box 11, and extension member 22 is specifically connected to box body 132 of first type storage box 11, that is, extension member 22 is detachably connected to the side wall of first type storage box 11. When a user needs to mount the external connection module 20 to the first storage box 11, the extension 22 needs to be mounted, and when the user needs to mount the external connection module 20 to a wall surface, the extension 22 needs to be removed.

The expansion member 22 at least comprises a mounting portion 221 and a connecting portion 222, wherein the mounting portion 221 is used for being fixedly connected with the external connection assembly 20, and the connecting portion 222 is used for being fixedly connected with the first type storage box 11. The mounting portion 221 is fixedly connected to the connecting portion 222 or integrally formed with the connecting portion 222, and specifically, the mounting portion 221 is integrally formed with the connecting portion 222. The connecting section 57 is arranged at the corner of the first kind of storage box 11, and the connecting part 222 can be connected to the connecting section 57 of the first kind of storage box 11 by one or a combination of a plurality of screws, bolts, rivets and movable buckles 422. The connecting section 57 has a mounting surface formed thereon, and the connecting portion 222 has a through hole formed therein, through which a user can fasten the extension 22 to the mounting surface by passing the connecting portion 222 with a screw. The mounting portion 221 may be connected to the connecting section 57 of the first type storage box 11 by one or a combination of a screw, a bolt, a rivet, and a movable buckle 422, specifically, the mounting portion 221 is U-shaped, that is, the mounting portion 221 has a first mounting plate 2211, a second mounting plate 2212, and a third mounting plate 2213, the first mounting plate 2211 and the second mounting plate 2212 are arranged at an interval, the third mounting plate 2213 is connected to the first mounting plate 2211 and the second mounting plate 2212, the second mounting plate 2212 is connected to the connecting portion 222, the first mounting plate 2211 and the second mounting plate 2212 are both provided with through holes, and a user may use a bolt 2214 to pass through the connecting holes of the mounting portion 221 and the through holes of the first mounting plate 2211 and the second mounting plate 2212 and then tighten the through holes with a nut 2215. To ensure the stability of the connection, a plurality of extension members 22 may be used to connect the circumscribed assembly 20 to the first type of storage box 11. It should be noted that, unless otherwise specified, the connecting section 57 of the storage box 11 also belongs to the side wall of the storage box 11.

In one embodiment, the expansion member 22 further includes an expansion portion 223, a mounting portion 221, and a connecting portion 222, the connecting portion 222 is disposed between the expansion portion 223 and the mounting portion 221, the connecting portion 222, the expansion portion 223, and the mounting portion 221 are fixedly connected or integrally formed, and specifically, the connecting portion 222, the expansion portion 223, and the mounting portion 221 are integrally formed. The extension 223 is used for mounting the outer hanger 62, and the outer hanger 62 is used for connecting a tool, an accessory, a fan unit, a charging device, a power supply device, a lighting device, and the like. The expansion part 223, the connection part 222 and the installation part 221 are not in the same plane, and the expansion part 223, the connection part 222 and the installation part 221 are connected in sequence and are arranged in an inclined manner. In this embodiment, the extension 22 may be made of a metal material.

Also included on the circumscribing module 20 is an interlock assembly 30, the interlock assembly 30 being disposed substantially on the front side of the circumscribing module 20. The interlock assembly 30 is used to lock tools, accessories, fan units, charging devices, power devices, lighting devices, work stations 50, and the like. The interlocking component 30 refers to a detachable connection between the external component 20 and the tool, the accessory, the fan unit, the charging device, the power supply device, the lighting device, the working platform 50, etc., for example, the two may be a snap connection, a screw connection, an absorption connection, etc., or a combination of a plurality of connection manners. What is used in this application is a snap 422 connection, i.e., the interlocking component 30 is a snap 422 component 31 disposed on both sides of the extension component 20, and the structure of the snap 422 components 31 on both sides is substantially the same. The snap 422 component 31 comprises a resilient snap 422 piece 311 and a positioning piece 312, the resilient snap 422 piece 311 is installed on the external component 20, the positioning piece 312 is structurally arranged on any one of the above structures, when the positioning piece 312 is interlocked with the snap 422 piece 311, no external force is applied to the snap 422 piece 311, and the positioning piece 312 and the snap 422 piece 311 are always kept in close contact. If the user needs to unlock, the user only needs to toggle the snap 422 piece 311 outwards to separate the snap 422 piece 311 from the positioning piece 312, so as to unlock the snap 422 piece 311 and the positioning piece 312.

The docking assembly 20 may dock with a support 23, the support 23 being used to connect to other docking members 62, power tools, power tool accessories, battery packs, fan units, accessory cases/bags, or chargers, etc. The support member 23 can be removably and fixedly attached to the panel 21 of the circumscribing module 20. The support 23 includes a first connection end 231 and a second connection end 232, and a main support 233 connecting the first connection end 231 and the second connection end 232, wherein the first connection end 231 and the second connection end 232 are used for being fixedly connected with the external component 20, the main support 233 is spaced apart from the panel 21 of the external component 20, a hanging slot 234 is formed between the support 23 and the external component 20, and other external hanging members 62, electric tools, electric tool accessories, battery packs, fan units, accessory cases/bags, or chargers can be hung in the hanging slot 234. One or more support members 23 may be provided on the circumscribing assembly 20, and the support members 23 may be positioned side-by-side. The interlock assembly 30 is disposed on both sides of the support 23 in the left-right direction. It should be noted that, because the outer connecting component 20 is connected to the interlocking component 30, when a user needs to lock an article using the interlocking component 30, the supporting member 23 needs to be detached from the outer connecting component 20 to avoid interference with the outer connecting component and affecting the connection stability of the interlocking component 30. Of course, when the user desires to use the function of the support 23, the support 23 can be mounted to the circumscribed assembly 20 by himself.

The external component 20 is further connected with a hook portion 24, the hook portion 24 is connected to the panel 21 of the external component 20, and the hook portion 24 can move relative to the external component 20, that is, the hook portion 24 has at least two states in the moving process, an unfolding state and a folding state, when the hook portion 24 is in the unfolding state, and when the hook portion 24 is in the folding state, the hook portion 24 is in the storage state. The user may toggle the hook portion 24 to allow the hook portion 24 to rotate relative to the panel 21 of the circumscribing assembly 20. The hook portion 24 includes a main body portion 241 and a rotating portion 242, which are fixedly connected or integrally formed, and the main body portion 241 may form a support bracket 243 for placing articles and the like on the main body portion 241. The rotating portion 242 is used for being connected with the external component 20 and driving the main body portion 241 to rotate relative to the external component 20, a connecting portion of the rotating portion 242 and the external component 20 is basically arranged at the lower end of the external component 20, and the main body portion 241 is hollow. The panel 21 of the peripheral component assembly 20 is provided with a recessed receiving groove 244, so that when the hook portion 24 is folded, the main body portion 241 can be substantially received in the receiving groove 244, and the hook portion 24 does not affect the functional use of other components on other peripheral component assemblies 20. When the user toggles the hook portion 24 to the unfolded state, the hook portion 24 is unfolded, and at this time, the main body portion 241 is approximately in a right angle state with the panel 21 of the external component 20, that is, a support frame 243 is formed between the main body portion 241 and the external component 20, so that the user can place articles and the like on the main body portion 241. When the user does not need the hook 24, the user can toggle the hook 24 to the folded state, and the hook 24 is received in the receiving groove 244 of the panel 21. In the present embodiment, the circumscribed assembly 20 is provided with 2 hook portions 24. The external component 20 is connected with the first installation component 25, the first installation component 25 is used for being connected with the second type storage box 12, so that the external component 20 and the second type storage box 12 are kept relatively fixed, the first installation component 25 comprises a first adaptation part 251 and a second adaptation part 252, when the first adaptation part 251 is matched with the second adaptation part 252, the external component 20 and the second type storage box 12 are kept relatively fixed, namely the first adaptation part 251 is separable from the second adaptation part 252, and when the first adaptation part 251 is separated from the second adaptation part 252, the first type storage box 11 and the second type storage box 12 can move freely relatively. As an embodiment, the first adapting portion 251 and the external component 20 are fixedly connected or integrally formed, and the second adapting portion 252 and the second type storage box 12 are fixedly connected or integrally formed, the first adapting portion 251 and the external component 20 are integrally formed, the second adapting portion 252 and the second type storage box 12 are integrally formed, and the first adapting portion 251 guides the second adapting portion 252 to be slidably snapped to a corresponding position along a preset direction so that the external component 20 and the second type storage box 12 are relatively fixed. Specifically, the first adapting portion 251 is substantially T-shaped, the first adapting portion 251 has a first limiting portion 2511 and a second limiting portion 2512 along the left-right direction, the first limiting portion 2511 and the second limiting portion 2512 cooperate with the second adapting portion 252 to limit the second storage box 12 to move along the left-right direction, the first adapting portion 251 has a first guiding portion 2513 and a third limiting portion 2514 along the up-down direction, the first guiding portion 2513 is used for guiding the second adapting portion 252 to slide along the preset direction 101, and the third limiting portion 2514 cooperates with the second adapting portion 252 to limit the second storage box 12 to move downwards. The second adapting portion 252 is a substantially U-shaped engaging groove, specifically, in the left-right direction, the second adapting portion 252 includes a first limiting groove 2521 and a second limiting groove 2522, when the second adapting portion 252 is engaged with the first adapting portion 251, the first limiting portion 2511 and the second limiting portion 2512 are engaged with the first limiting groove 2521 and the second limiting groove 2522, so as to limit the second type storage box 12 to move in the left-right direction, and the first limiting groove 2521 and the second limiting groove 2522 are both substantially U-shaped grooves, that is, the first limiting portion 2511 and the second limiting portion 2512 are engaged with the first limiting groove 2521 and the second limiting groove 2522, and the first limiting groove 2521 and the second limiting groove 2522 can simultaneously limit the second type storage box 12 to move in the front-back direction. The second adapting portion 252 further includes a third limiting groove 2523, the third limiting groove 2523 is disposed between the first limiting groove 2521 and the second limiting groove 2522, and when the second adapting portion 252 is clamped to the first adapting portion 251, the third limiting groove 2523 is matched with the third limiting portion for limiting the second storage box 12 from moving downward. When a user needs to mount the second storage box 12 on the external connection component 20, the second adaptation part 252 on the second storage box 12 only needs to be connected to the first adaptation part 251 of the hidden rotating plate in a sliding and clamping manner downwards, so that the connection between the second storage box 12 and the external connection component 20 can be realized, and when the second storage box 12 needs to be dismounted from the external connection component 20, the user only needs to lift the second storage box 12 upwards relative to the external connection component 20, so that the second storage box 12 can be separated from the external connection component 20. Through the structural arrangement, on one hand, the stability of connection between the external connection component 20 and the second-type storage box 12 can be effectively guaranteed, and on the other hand, the storage box 10 is convenient for a user to install or detach. It should be noted that, in the present application, the first type storage box 11 and the second type storage box 12 do not refer to a specific storage box 10, but for clarity, the external connection component 20 may simultaneously implement a function of fixing the two storage boxes 10 side by side, and the first type storage box 11 and the second type storage box 12 may be the same type of storage box 10 or different types of storage boxes 10.

In the left-right direction, a plurality of first adaptation parts 251 are arranged on the external connection component 20, and a plurality of second adaptation parts 252 matched with the first adaptation parts 251 are also arranged on the storage box 10, so that the stability of connection between the external connection component 20 and the storage box 10 is ensured. In the up-down direction, at least two rows of first adapting parts 251 are arranged on the external component 20, and the two rows of first adapting parts 251 are respectively positioned at the upper writing sides of the external component 20, so that the storage box 10 can be selectively connected to the first adapting part 251 at the upper side or the first adapting part 251 at the lower side, and a user can select an installation position according to actual conditions. It should be noted that the above structure is not limited to the storage box 10, and other objects may be used, that is, the second adapting portion 252 may be connected to other objects to connect the objects to the circumscribed assembly 20.

The external component 20 can be fixedly connected to the mobile storage box by the expansion member 22, so that when the user uses the mobile storage box, on one hand, the external component 20 can move along with the mobile storage box, so that when the user can connect the storage box 10 to the external component 20, the user can push/pull the mobile storage box to move the storage box 10 together, or connect tools, accessories and the like on the support member 23. On the other hand, after the user connects the external component 20 to the mobile storage box, the user can toggle the hook portion 24 to place the external component in an unfolded state, so that the combination of the external component 20 and the mobile storage box can approximately form a 'forklift' user which can place articles on the 'forklift', in order to guarantee the connection stability, the rope can be used to penetrate through the main body portion 241 of the hook portion 24, the articles are bound at the same time, and finally the rope is fixed on the handle component, and of course, the external component can also be fixed in other places as long as the articles are guaranteed to be fixed on the 'forklift'. The user can remove the extension 22 from the external component 20, fix the external component 20 to the wall surface by using screws, and the user can connect corresponding objects to the external component 20 according to the requirement.

As an embodiment, the panel of the circumscribed assembly is composed of a plurality of small panels, each of the small panels is fixedly connected or integrally formed with one or more first adapting parts, wherein the number of the small panels may be 1 or more than 1. In the present application, the panel is not limited to be specifically composed of several small panels as long as the above-described structure can be achieved.

As shown in the drawer box 13 of fig. 1, 2, 7 to 10, and 20, the drawer box 13 includes a layered box 131 and a box body 132. The drawer box 13 may be provided with one or more layer boxes 131 according to different requirements, the layer boxes 131 are arranged in the box body 132, and the layer boxes 131 may reciprocate along a rail arranged in the box body 132. The upper side of the drawer box 13 is provided with an interlock assembly 30, that is, the drawer box 13 may be stacked on the storage box 10, for example, the drawer box 13 may be interlocked with the mobile storage box, so that a user may drive the drawer box 13 to move together when pushing/pulling the mobile storage box. Of course, other articles or storage bins 10 may be stacked on the drawer bin 13.

For clarity of description of the solution of the present embodiment, taking the three-layer drawer box 13 shown in fig. 1 as an example, the three-layer drawer box 13 can be understood as the drawer box 13 having three layered boxes 131. The drawer box 13 includes rail assemblies 134, the rail assemblies 134 are disposed on both sides of each layered box 131, and the rail assemblies 134 are used for guiding each layered box 131 to slide back and forth along the first direction 102. Each layered box 131 can slide independently relative to the box 132. The drawer 13 further includes a connecting assembly 135, the connecting assembly 135 is configured to fix the layered box 131 and the box 132, so as to prevent the layered box 131 from sliding out of the box 132 by itself without being driven by external force, and particularly, during some movement, the layered box 131 slides out of the box 132, so as to cause the objects placed in the box 132 to fall off. The layered box 131 has a locked state and an unlocked state with respect to the case 132, and when the layered box 131 is in the locked state, the layered box 131 and the case 132 are kept relatively fixed without being driven by an external force. When the tiered box 131 is in the unlocked state, the tiered box 131 can slide back and forth in the first direction without departing from the case 132.

The connection assembly 135 includes a first stop 1351, a second stop 1352, a biasing member 1353, and a locking member 1354. The locking member 1354 is fixedly attached to or integrally formed with the housing 132, the locking member 1354 and the second stop member 1352 are configured to cooperate with each other to maintain the layered cartridge 131 in a fixed relationship with the housing 132, the biasing member 1353 is disposed between the second stop member 1352 and the first stop member 1351, and the biasing member 1353 always provides a downward biasing force to the second stop member 1352, and the first stop member 1351 is fixedly attached to or integrally formed with the layered cartridge 131. The locking member 1354 has a locking portion 1356 formed thereon, and the second stopper 1352 has a click portion 1355 provided thereon, and the layered cartridge 131 is in a locked state when the locking portion 1356 is fitted to the click portion 1355, and the layered cartridge 131 is in an unlocked state when the locking portion 1356 is separated from the click portion 1355. In the embodiment, the first stop member 1351 is integrally formed with the layered cartridge 131, i.e., the layered cartridge 131 forms a receiving cavity, the biasing member 1353 is disposed in the receiving cavity, the second stop member 1352 is disposed at least partially in the receiving cavity, and the second stop member 1352 is capable of moving synchronously with the first stop member 1351, the biasing member 1353 abuts against the layered cartridge 131 at one end and abuts against the second stop member 1352 at the other end, the biasing member 1353, when installed, applies a biasing force to the second stop member 1352 in a downward direction, and the biasing force keeps the locking portion 1356 engaged with the snap portion 1355 when the layered cartridge 131 is in the locked state.

A locking portion 1356 is provided on a moving path of the catching portion 1355, the locking portion 1356 is embodied as a hole, the catching portion 1355 is a downward protrusion of the second stopper 1352, and the biasing force applied by the biasing member 1353 to the second stopper 1352 keeps the protrusion caught in the hole at all times without being affected by an external force. When the layered box 131 is in the locked state, the protrusion is engaged in the hole. When unlocking is desired, the user simply applies an upward force against the biasing force to its second stop 1352, causing the protrusion to disengage from the aperture, and the layered cartridge 131 can be slid outwardly from the interior of the case 132. When the user needs to lock the layer box 131, the biasing member 1353 exerts a biasing force on the second stop member 1352 by pushing the layer box 131 into the box 132 until the protrusion snaps into the hole, thereby maintaining the relative securement between the layer box 131 and the box 132. In this embodiment, the drawer box 13 has three layered boxes 131, and the three layered boxes 131 and the box body 132 can be locked together in the above-mentioned manner, which is not described herein again. In the present embodiment, the biasing member 1352 may be provided in 2.

The drawer cabinet 13 further includes a locking plate 136, and the locking plate 136 is used to prevent the layered box 131 from sliding out of the cabinet 132. The locking plate 136 is disposed on the front side of the drawer cabinet 13, and the locking plate 136 passes through all the layered boxes 131 of the drawer cabinet 13. Specifically, two hollow protrusions, namely a first protrusion 1361 and a second protrusion 1362, are formed on the box body 132 at the front side of the drawer box 13, the first protrusion 1361 and the second protrusion 1362 are spaced apart from each other, and the locking plate 136 can be inserted into the first protrusion 1361 and the second protrusion 1362. In the up-down direction, the first protrusion 1361 and the second protrusion 1362 are disposed on both sides of all the layered boxes 131 of the drawer box 13, and the locking plate 136 is elongated, so that the locking plate 136 can better prevent the layered boxes 131 from sliding out of the box 132 after the locking plate 136 is inserted into the first protrusion 1361 and the second protrusion 1362, and ensure the stability of the connection between the layered boxes 131 and the box 132.

The locking plate 136 comprises a long strip part 1363 and a bent part 1364, the long strip part 1363 and the bent part 1364 are fixedly connected or integrally formed, the long strip part 1363 and the bent part 1364 are obliquely arranged, specifically, the long strip part 1363 and the bent part 1364 are arranged in a right angle, the locking plate 136 is downwards inserted into the first protruding part 1361 and the second protruding part 1362, and the locking plate 136 stops moving downwards until the bent part 1364 is contacted with the first protruding part 1361. Corresponding locking holes 1365 are formed in the first protruding portion 1361 and the bent portion 1364, and a user can lock the locking plate 136 and the box body 132 by using a padlock, so that the stability of the connection between the layered box 131 and the box body 132 is further ensured, and the layered box 132 is also protected from theft.

The housing 132 has a receiving slot 1366 formed therein, and the receiving slot 1366 is used for placing the locking plate 136, i.e., when the user does not need to use the locking plate 136, the locking bar can be placed in the receiving slot 1366 for the next use by the user. The receiving groove 1366 is provided in the case 132, the locking bar 136 can be inserted into the receiving groove 1366 in one direction, and the receiving groove 1366 can be provided on the upper side or the upper side of the layer box 131, so that the user can insert the locking bar 136 into the receiving groove 1366 without interfering with the layer box 131. As another arrangement, the receiving groove 1366 may be formed on the side surface of the case 132, so that the user can insert the locking bar 136 directly into the receiving groove 1366 on the side surface when the user does not use the locking bar, and the receiving groove 1366 may be formed on any one side surface of the case 132 except for the side surface for drawing the layered box 131.

As shown in fig. 16 to 19, the foldable rack table 40 includes at least one support member 41, and the support member 41 can be used for placing articles, storing boxes 10, and the like. The support stand 40 may be fixed to a wall, floor, shelf, plank, or adjustable rail 42.

The support stand 40 further includes a mounting assembly 43, the mounting assembly 43 is connected to the support member 41, the mounting assembly 43 includes a first connecting member 435, the first connecting member 435 is connected to the support member 41, the support member 41 has a first state and a second state with respect to the first connecting member 435, and when the support member 41 is in the first state, the support member 41 is in the first position, in which the user can place the article, the bin 10, etc. on the support member 41. When the supporting member 41 is in the second state, the supporting member 41 is in the second position, and the space occupied by the supporting member 41 and the adjusting guide rail 42 is small, so that if a user does not use the supporting member 41 to place an article, the storage box 10 and the like, the supporting member 41 can be in the second state, and the space is reasonably utilized. That is to say that the support 41 has at least two positions relative to the first connector 435. That is, the included angle between the first position of the supporting member 41 and the second position of the supporting member 41 is greater than or equal to 30 degrees.

As an embodiment, as shown in fig. 21, the first connecting element 435a is rotatably connected to the to-be-connected portion 47, the supporting element 41a is rotatably connected to the to-be-connected portion 47, when the supporting element 41a is in the first state, the first connecting element 435a abuts against the supporting element 41a and is relatively fixed thereto, and when the supporting element 41a is in the second state, the first connecting element 435a is separated from the supporting element 41a, at this time, the supporting element 41a loses support, and the other end connected to the to-be-connected portion 47 falls downward under the influence of gravity. The to-be-connected part 47 can be one of a wall surface, a ground surface, a shelf, and a wood board, that is, the first connecting part 435a and the supporting part 41a can be directly mounted on one of the wall surface, the ground surface, the shelf, and the wood board.

Referring to fig. 16 to 19, the number of the adjusting rails 42 is two, the adjusting rails 42 are arranged at certain intervals, and the adjusting rails 42 can be installed on a wall surface or a wood board to keep the relative fixation. The support stand 40 is mounted on an adjustment rail 42. The mounting assemblies 43 are used for connecting with the adjusting rails 42, the number of the adjusting rails 42 is two, and similarly, two mounting assemblies 43 fixedly connected with the adjusting rails 42 are provided, and the two mounting assemblies 43 are connected to the supporting member 41. In this embodiment, the adjustment rail 42 and the mounting assembly 43 are substantially symmetrically disposed, that is, the structures of the adjustment rail 42 and the mounting assembly 43 are substantially the same, and for avoiding redundancy, only one of the structures is described herein as an example.

The mounting assembly 43 includes a third link 431, a positioning pin 432, an elastic member 433, a driving member 434, a first link 435, a second link 436, and a fastening member 437.

The second connecting member 436 and the adjusting guide rail 42 are both provided with a plurality of through holes, the fastening member 437 can pass through the through holes of the second connecting member 436 and the through holes of the adjusting guide rail 42 to fixedly connect the second connecting member 436 and the adjusting guide rail 42, further, the second connecting member 436 is also provided with a plurality of clamping grooves 421 arranged at equal intervals, and similarly, the adjusting guide rail 42 is also provided with a plurality of clamping buckles 422 at equal intervals, that is, the clamping grooves 421 can be clamped on the clamping buckles 422, so as to limit the downward movement of the second connecting member 436. In a specific installation manner, a user may first snap-fit the snap groove 421 on the second connecting member 436 onto the snap 422, and then use the fastening member 437 to pass through the through holes of the second connecting member 436 and the adjusting rail 42 and fix the through holes, so as to prevent the second connecting member 436 from freely moving and ensure the stability of the connection between the second connecting member 436 and the adjusting rail 42.

The rack table 40 is mounted on the adjusting guide rail 42, the second connecting member 436 is mounted on the adjusting guide rail 42, and the rack table 40 is foldable with respect to the adjusting guide rail 42, and it is also understood that the supporting member 40 is foldable with respect to the second connecting member 436, that is, the supporting member 41 also has a first state and a second state with respect to the second connecting member 436, and when the supporting member 41 is in the first state, an angle formed by the intersection of the supporting member 41 and the second connecting member 436 is not less than 80 degrees and not more than 100 degrees, at which time the user can place the article, the storage box 10, and the like on the supporting member 41. When the supporting member 41 is in the second state, the angle formed by the intersection of the supporting member 41 and the second connecting member 436 is smaller than 80 degrees, and the space occupied by the supporting member 41 and the second connecting member 436 is smaller, so that if a user does not use the supporting member 41 to place an article, the storage box 10, or the like, the supporting member 41 can be in the second state, and the space can be reasonably utilized.

The first connecting pieces 435 are connected with the second connecting pieces 436 and the third connecting pieces 431, the first connecting pieces 435 can rotate relative to the second connecting pieces 436, two first connecting pieces 435 are specifically arranged, two ends of each of the two first connecting pieces 435 are connected with positioning pins 432, that is, the two first connecting pieces 435 are connected to the second connecting pieces 436 and the third connecting pieces 431 through the positioning pins 432. Specifically, the first link 435 is disposed at both sides of the second link 436, and passes through the first link 435 and between the first links 435 by the positioning pins 432, and is disposed such that the first link 435 can rotate with respect to the second link 436, and the other end, which is not connected to the second link 436, moves downward by gravity in the absence of an external force. The third connecting member 431 is fixedly connected with the supporting member 41, the third connecting member 431 is rotatably connected with the second connecting member 436, namely, the third connecting member 431 can rotate around the first rotating axis 103, a hollow slideway 439 is formed on the third connecting member 431, the other end of the first connecting member 435 is arranged at two sides of the slideway 439, namely, the positioning pin 432 passes through the first connecting member 435 and the slideway 439, so as to connect the first connecting member 435 with the third connecting member 431, in the extending direction of the third connecting member 431, the slideway 439 is provided with a front edge 45 and a rear edge 46, the front edge 45 and the rear edge 46 are arranged at two sides of the slideway 439, as the slideway 439 has a certain length, namely, the positioning pin 432 can slide in the slideway 439 without being driven by external force, and also can be understood that the positioning pin 432 can slide between the front edge 45 and the rear edge 46. The front edge 45 is further from the first axis of rotation 103 relative to the rear edge 46.

The elastic member 433 is substantially fixed to the third connecting member 431, wherein the elastic member 433 has an elastic arm 44, and the elastic arm 44 abuts against the driving member 434 and always applies a pushing force to the driving member 434. The driving member 434 is connected to the third connecting member 431, and the driving member 434 can rotate relative to the third connecting member 431. The driving member 434 includes a front end and a rear end, which are disposed at both sides of the driving member 434, and a distance from the rear end to the second connecting member 436 is smaller than a distance from the front end to the second connecting member 436 in an extending direction of the driving member 434. Since the elastic arm 44 always has a pushing force to the driving member 434, in the case of the driving member 434 driven without an external force, the pushing force causes one end of the driving member 434 to always contact the third connecting member 431. In this embodiment, the positioning pin 432 connected to the first connector 435 can slide in the sliding groove 439, and during the sliding process of the positioning pin 432, the rear end of the driving member 434 abuts against the positioning pin 432 and limits the movement of the positioning pin 432. The driving member 434 is always in contact with the third connecting member 431 under the condition of no external force driving, that is, the rear end is always in contact with the positioning pin 432, so that the supporting member 41 is in the first state.

If the user needs to put the supporting member 41 in the second state, the driving member 434 is pressed to overcome the pushing force of the elastic arm 44 on the driving member 434, so that the rear end of the driving member 434 is separated from the positioning pin 432, and the positioning pin 432 can continue to move towards each other in the slide 439, and at this time, the third connecting member 431 is not supported by the first connecting member 435, and under the influence of gravity, the front end of the third connecting member 431 approaches the second connecting member 436, that is, the supporting member 41 is folded downwards to take the second state. If a user needs to hold the supporting member 41 in the first state, as long as one end of the supporting member 41 is lifted upwards by force, the third connecting member 431 fixedly connected to the supporting member 41 is lifted upwards around the first rotation axis 103, during the process that the third connecting member 431 is lifted upwards, the positioning pin 432 slides backwards in the slideway 439 until the positioning pin 432 is in first contact with the driving member 434, at this time, the user continues to apply force to the supporting member 41, the force is transmitted to the positioning pin 432, the positioning pin 432 overcomes the pushing force of the elastic arm 44 on the driving member 434, and then continues to move backwards until the rear edge 46 of the slideway 439, after the external force of the driving member 434 is lost, the pushing force of the elastic arm 44 on the driving member 434 makes the rear end of the driving member 434 return to the state of being in contact with the third connecting member 431, after the user cancels the force applied to the supporting member 41, the third connecting member 431, the first connecting member 435, the positioning pin 432 and the supporting member 41 move downwards under the influence of gravity, that the positioning pin 432 moves forwards in the slideway 439 until the positioning pin 432 is in contact with the rear end of the driving member 434, so that the positioning pin 432, the third connecting member 431, the first connecting member 435, and the supporting member 41 are kept in the current position, and at this time, the first switching state of the supporting member 41 is completed. Because the length of adjusting guide rail 42 is longer than the length of second connecting piece 436, that is to say, can install a plurality of installation components 43 on adjusting guide rail 42, can connect a plurality of pallet 40 on adjusting guide rail 42 promptly, article, storage box 10 etc. can place on support 41, set up like this, can rationally utilize the space in the length direction, avoid article, storage box 10 etc. to place subaerial at will, cause the unreasonable use of space.

It should be noted that the support stand 40 may be directly connected to a wall surface, that is, the second connecting member 436 may be directly mounted to the wall surface, so that the user may hang the articles, the storage box 10, etc. on the wall surface.

Referring to fig. 3, 5, 11, 12 and 17, a work table 50 is shown, the work table 50 can be used for placing tools, such as table saws, etc., or can be directly used as a work panel 21 for a user, and the user can work on the work table 50. The table 50 is substantially quadrangular.

As an embodiment, the working platform 50 can be connected to the support platform 40, the support member 41 is provided with a resilient latch 422 311, the working platform 50 is connected to a positioning member 312 engaged with the latch 422 311, when the latch 422 311 is engaged with the positioning member 312, the working platform 50 and the support member 41 can be kept relatively fixed, so that the working platform 50 can be hung on a wall surface, or other places. The snap 422 and the positioning member 312 in this embodiment can also be referred to as the interlocking component 30. Similarly, the external component 20 is also provided with a latch 422, and a user can latch the positioning element 312 on the latch 422 311, so that the external component 20 and the workbench 50 are kept relatively fixed.

The toolbox system 100 further comprises: a first mounting assembly connected to the first type of storage tank, the first mounting assembly being capable of connecting the first storage tank and the work table 50 and of attaching the work table 50 to a side wall of the first type of storage tank. The first mounting assembly refers to a detachable connection manner between the workbench 50 and the first-type storage box, for example, the two connection manners may be a snap connection, a threaded connection, a screw connection, an absorption connection, a hook connection, an interference connection, or the like, or a combination of multiple connection manners.

The work table 50 has a first connection state in which the work table 50 is attached to the upper cover of the storage case 10 and a second connection state in which the work table 50 is attached to the sidewall of the storage case 10. I.e. the work table 50 may be attached to the outside of the tank 10.

The work table 50 may be attached to the bin 10, that is, the work table 50 may have a contact surface 531 attached thereto, and the bin 10 may have an attachment surface 541 attached thereto which is at least partially in contact with the contact surface 531, and the work table 50 may move together with the bin 10 when the contact surface 531 is in contact with the attachment surface 541.

As another embodiment, the work table 50 may be coupled to the upper cover 133 of the storage case 10. The workbench 50 is connected with the inserting part 53, the upper cover 133 of the storage box 10 is connected with the inserting part 54, the inserting part 54 forms a connecting surface 541, the inserting part 53 forms a contact surface 531, the inserting part 53 can be directly inserted into the inserting part 54, and then the workbench 50 and the storage box 10 are kept relatively fixed. The table 50 includes opposing front and rear faces 51, 52, the front face 51 being used by a user to work, or to position a table saw or the like. At least one convex insertion part 53 is formed on the rear end surface 52, specifically, four insertion parts 53 are formed on the rear end surface 52, and the insertion parts 53 are respectively located at four corners of the rear end surface 52. The upper cover 133 of the storage case 10 is formed with recessed insertion parts 54 corresponding to the insertion parts 53, and the insertion parts 54 are respectively positioned at four corners of the upper cover 133. The upper cover 133 of the storage box 10 is provided with a resilient latch 422 and a positioning member 312 may be provided on the storage box 10. Specifically, the positioning member 312 is provided at the lower end of the storage box 10, so that a user can interlock a plurality of storage boxes 10 together and then insert the work table 50 on the upper cover 133 of the uppermost storage box 10, and the user can use the plurality of storage boxes 10 and the work table 50 as a table, especially in some construction environment sites.

The work table 50 may be connected to a movable storage box on which a user stacks the storage boxes 10 to adjust the height, so that the work table can be a movable table, and the user can work at the work table 50, etc. When the user needs to move the storage box 10 for carrying the articles, the user can fix the direction of the table saw on the worktable 50 by the rope and place the table saw on the worktable 50, so that the space in the storage box 10 can be saved, and more articles can be placed in the storage box 10.

The table 50 may be further connected with a hanging portion 55, the hanging portion 55 is fixedly connected with the table 50 or integrally formed with the table 50, and the hanging portion 55 is disposed on the rear end surface 52 of the table 50. The work table 50 may be provided with at least one hanging portion 55, and in this embodiment, the work table 50 is provided with two hanging portions 55, and the user can hang the work table 50 to any place where it can be hung through the hanging portions 55.

The worktable 50 further includes a storage slot 56, the storage slot 56 is disposed on the front end surface 51, and the storage slot 56 is disposed around the front end surface 51.

The connecting section 57 is formed at the corner of the outer edge of the workbench 50, the tool box system 100 further comprises a plug-in assembly 60, the plug-in assembly 60 comprises an intermediate piece 61 and a plug-in piece 62, and the plug-in piece 62 can be detachably connected with articles. The external hanger 62 includes a battery pack hanger, a cable hanger, a scale hanger, an electric tool hanger, an accessory hanger, and a support 23. Can be respectively used for hanging a battery pack, a cable, a scale, an electric tool, accessories and the like. The storage case 10 may be provided with a plurality of external hangers 62, which may be one or a combination of a battery pack hanger, a cable hanger, a scale hanger, the support 23, and a power tool hanger. The intermediate member 61 is detachably and fixedly connected to the working platform 50, that is, the intermediate member 61 can be connected to the working platform 50 by one or a combination of screws, bolts, rivets and movable buckles 422. Specifically, the intermediate member 61 is connected to the connecting sections 57 of the workbench 50, that is, the intermediate member 61 may be mounted on each of the four connecting sections 57 of the workbench 50, the support member 23 may be mounted between the two intermediate members 61, and a user may hang a tool or the like on the support member 23.

As shown in fig. 22, the user can detach and connect the external hanging module 60 connected to the outer edge of the working platform 50 to the connection section 57 of the storage box 10 according to the requirement. The user connects the plug-in assembly 60 to the connection section 57 of the storage case 10, and the work table 50 may be hung on the groove formed by the plug-in assembly 60 through the hanging portion 55, so that the work table 50 may be attached to the sidewall of the storage case 10.

The foregoing shows and describes the basic principles, essential features and advantages of the application. It should be understood by those skilled in the art that the above-described embodiments are not intended to limit the present application in any way, and all technical solutions obtained by means of equivalents or equivalent changes fall within the protection scope of the present application.

Claims (10)

1. A racking station adapted for use with a storage bin, comprising:

at least one support member capable of interlocking with the storage box;

a mounting assembly connected to the support;

it is characterized in that the preparation method is characterized in that,

the mounting assembly includes:

the first connecting piece is connected with the supporting piece;

the supporting piece at least has a first state and a second state relative to the first connecting piece, when the supporting piece is in the first state, the supporting piece is in the first position, and when the supporting piece is in the second state, the supporting piece is in the second position.

2. The support stand of claim 1,

the first connecting piece can be directly installed on one of a wall surface, a ground surface, a goods shelf and a wood board.

3. The support stand of claim 1,

the mounting assembly further comprises:

the second connecting piece is rotationally connected with the first connecting piece;

a third connecting member connected to the second connecting member;

wherein the third connecting piece is rotatably connected with the second connecting piece, and the supporting piece is arranged on the third connecting piece.

4. The support table of claim 3,

the second connecting piece can be directly installed on one of a wall surface, a ground surface, a goods shelf and a wood board.

5. The support table of claim 3,

the support stand further comprises an adjusting guide rail detachably connected with the mounting assembly, and the second connecting piece can be mounted to the adjusting guide rail.

6. The support table of claim 5,

adjust and be provided with a plurality of buckles on the guide rail, be provided with a plurality of draw-in grooves on the second connecting piece, the draw-in groove can the joint on the buckle, the buckle quantity on adjusting the guide rail is more than draw-in groove quantity on the second connecting piece, so that draw-in groove on the second connecting piece can the joint on the buckle of difference.

7. The support stand of claim 5,

the installation component still includes, locating pin, elastic component, driving piece and fastener, the fastener passes the through-hole of second connecting piece and the through-hole of adjusting the guide rail with second connecting piece and regulation guide rail fixed connection, first connecting piece is connected the second connecting piece with the third connecting piece, the both ends of first connecting piece all are connected with the locating pin, be formed with one section hollow slide on the third connecting piece, the locating pin can the slide removes, third connecting piece and support piece fixed connection, elastic component, driving piece all with the third connecting piece is connected, the elastic component has the elastic arm, the elastic arm is right all the time the driving piece is applyed a thrust so that the one end of driving piece all the time with the contact of third connecting piece.

8. The support stand of claim 1,

the support stand is also connected with an interlocking assembly, and the interlocking assembly is used for locking one of a tool, an accessory, a fan unit, a charging device, a power supply device, a lighting device, a storage box and a workbench;

the interlocking assembly comprises a buckle assembly, the buckle assembly comprises a buckle piece and a positioning piece, the buckle piece can rebound, the buckle piece is connected with an external assembly, and the positioning piece is arranged on any one of a tool, an accessory, a fan unit, a charging device, a power supply device, a lighting device, a storage box and a workbench.

9. The support table of claim 5,

the quantity of installation component is 2, the quantity of adjusting the guide rail is 2.

10. A racking station adapted for use with a storage bin, comprising:

at least one support member capable of interlocking with the storage box;

a mounting assembly connected to the support;

it is characterized in that the preparation method is characterized in that,

the mounting assembly includes:

the first connecting piece is connected with the supporting piece;

the supporting piece is provided with a first position and a second position, and an included angle between the supporting piece at the first position and the supporting piece at the second position is larger than or equal to 30 degrees.

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