CN113513162B - A toolbox car for civil engineering - Google Patents

Abstract

The invention provides a tool box vehicle for civil engineering construction, which belongs to the technical field of tool box vehicles and comprises a vehicle body, a plurality of storage units, a sliding mechanism and a locking mechanism. A plurality of storage units are located on the vehicle body, and all the storage units are stacked in a vertical direction. The storage unit is provided with a storage drawer and a plurality of splicing columns, the splicing column of the storage unit at the lowest layer is arranged in the vehicle body in a sliding and penetrating way, and the sliding column of any one of the rest storage units is arranged in the adjacent storage unit below in a sliding and penetrating way. The sliding mechanism is connected with the vehicle body in a sliding mode along the vertical direction and is provided with a butting shaft, and the butting shaft can be butted with the upper surface of the storage unit on the top layer. The locking mechanism enables the abutting shaft to limit the upward movement of the storage unit. The tool box trolley for civil engineering construction provided by the invention can avoid the problem that a portable tool box is inconvenient to transport tools and the problem of labor waste caused by more portable tool boxes needing to be carried.

Description

A toolbox car for civil engineering

Technical Field

The invention belongs to the technical field of tool box trucks, and particularly relates to a tool box truck for civil engineering construction.

Background

In civil engineering, a plurality of tools are needed, the tools are generally transported by using a portable tool box, but the portable tool box is inconvenient to carry, and sometimes when a plurality of tools are needed, one portable tool box can not carry all the tools, the tools need to be respectively arranged in a plurality of portable tool boxes, and then a plurality of people are needed to respectively carry the portable tool boxes, so that the manual waste is caused

Disclosure of Invention

The invention aims to provide a tool box vehicle for civil engineering construction, and aims to solve the problems of inconvenience in using a portable tool box to transport tools and labor waste caused by the fact that a large number of portable tool boxes need to be carried.

In order to realize the purpose, the invention adopts the technical scheme that: the utility model provides a toolbox car for civil engineering construction, includes the automobile body, a plurality of deposits unit, slide mechanism and locking mechanism.

The plurality of storage units are located on the vehicle body, and all the storage units are stacked in a vertical direction. The storage unit is provided with a storage drawer capable of being horizontally pulled and a plurality of vertically arranged insertion columns, the insertion column of the storage unit at the lowest layer is slidably arranged in the vehicle body in a penetrating mode, and the insertion columns of the rest storage units are slidably arranged in the storage units adjacent to each other below the storage units in a penetrating mode.

The sliding mechanism is connected with the vehicle body in a sliding mode along the vertical direction and is provided with a butt joint shaft, and the butt joint shaft can be abutted to the upper surface of the storage unit on the top layer.

The locking mechanism is connected with the vehicle body and the sliding mechanism, so that the abutting shaft can limit the storage unit to move upwards.

As another embodiment of the present application, the car body has two vertically arranged sliding shafts, two of the sliding shafts are located on one side of the storage unit along a first direction, the first direction is horizontally arranged and perpendicular to the drawing direction of the storage drawer, the two sliding shafts are arranged along the drawing direction of the storage drawer at intervals, and the sliding mechanism comprises a sliding part and a rotating component.

The sliding part and the sliding shafts are positioned on the same side of the storage unit and are sleeved on the two sliding shafts in a sliding manner, the sliding part is provided with a fixed shaft which is horizontally arranged and is parallel to the drawing direction of the storage drawer, and the fixed shaft is positioned between the two sliding shafts.

The rotatable cover of rotating assembly is located on the fixed axle for set up the butt axle, rotating assembly's rotation can make rotating assembly with the butt axle dodges deposit the top space of unit.

As another embodiment of the present application, the rotating assembly includes a placement slot.

The placing groove is used for being connected with the abutting shaft, when the rotating assembly enables the abutting shaft to be located on one side, away from the storage unit, of the fixed shaft in the first direction through rotation, the abutting shaft can abut against the ground through sliding of the sliding piece, and the opening of the placing groove faces upwards.

As another embodiment of this application, the butt axle is equipped with first external screw thread, the standing groove be equipped with butt axle vertically connecting plate, the connecting plate cover is located on the butt axle and be equipped with first screw hole of first external screw thread threaded connection.

As another embodiment of the present application, the rotating assembly further comprises a rotating block.

One end of the rotating block is rotatably sleeved on the fixed shaft. The bottom wall of the placing groove and two side walls perpendicular to the fixed shaft penetrate through the rotating block in a sliding mode.

As another embodiment of this application, locking mechanism includes spacing axle, location axle, limiting plate and fastening bolt.

The limiting shaft is arranged along the first direction, is connected with the sliding piece and is detachably connected with the vehicle body.

The positioning shaft is perpendicular to the fixed shaft, one end of the positioning shaft is fixedly connected with the rotating block, and a second threaded hole is formed in the end face of the other end of the positioning shaft.

The limiting plate is perpendicular to the limiting shaft and is rotatably sleeved on the limiting shaft.

And a screw rod of the fastening bolt penetrates through the limiting plate and is parallel to the limiting shaft. When butt axle and top layer during the upper surface butt of depositing the unit, the limiting plate can through rotate with the location axle is used for setting up the terminal surface laminating of second screw hole just fastening bolt's screw rod can penetrate the second screw hole is downthehole and with second screw hole threaded connection.

As another embodiment of this application, spacing axle slides and pierces through the slider, the one end of spacing axle is equipped with the edge the first spacing portion of the radial outside convex of spacing axle, first spacing portion with the slider butt, the other end of spacing axle is equipped with the second external screw thread, spacing axle with the help of coupling assembling with body coupling, coupling assembling includes the connecting rod.

The connecting rod is vertically arranged and provided with a plurality of third threaded holes parallel to the limiting shaft, the third threaded holes are arranged at intervals in the vertical direction, the distance between every two adjacent third threaded holes is equal to the height of the storage unit, and the threaded end of the limiting shaft penetrates through one of the third threaded holes and is in threaded connection with the third threaded holes.

As another embodiment of this application, the automobile body set firmly with vertical board, vertical board with the sliding shaft is located respectively deposit the unit along the both sides of first direction, the connecting rod is located the sliding shaft with between the vertical board, coupling assembling still includes the connecting axle.

The connecting shafts are two and parallel to the limiting shafts, one end of each connecting shaft is fixedly connected with the connecting rod, and the other end of each connecting shaft penetrates through the vertical plate in a sliding mode, and a second limiting portion protruding outwards in the radial direction of the connecting shaft is arranged at the end portion of each vertical plate. When the second limiting part is abutted against the vertical plate, the connecting rod can be attached to all the storage drawers to limit all the storage drawers from being pulled outwards.

As another embodiment of this application, the limiting plate is rotatable to be located the limiting plate is last, locking mechanism still includes the ejector pin.

The ejector pin with the connecting axle is parallel, one end with limiting plate fixed connection, when fastening bolt's screw rod penetrated the second threaded hole, the ejector pin with the standing groove butt to with rotatory piece cooperation is followed both sides restriction the slip of standing groove.

As another embodiment of the present application, one end of the rotating block has a sleeve portion rotatably sleeved on the fixed shaft.

The tool box vehicle for civil engineering provided by the invention has the beneficial effects that: compared with the prior art, the tool box vehicle for civil engineering construction comprises:

the locking mechanism can make the abutting shaft limit the storage units to move upwards, so that the storage units are fixed on the vehicle body, and the storage units are prevented from being lost in the conveying process.

The tool is placed in the storage drawer of the storage unit, and the storage unit is transported through the vehicle body, so that the problem that the tool is inconvenient to transport by using a portable tool box can be avoided;

the number of the storage units can be selected according to the number of tools, and the transportation of a plurality of storage units can be realized conveniently through the vehicle body, so that the problem of labor waste caused by more portable toolboxes needing to be carried can be avoided.

Drawings

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

Fig. 1 is a schematic axial view of a state 1 of a toolbox vehicle for civil engineering provided in an embodiment of the present invention;

fig. 2 is a schematic axial view of a state 2 of the toolbox vehicle for civil engineering according to the embodiment of the present invention;

fig. 3 is a schematic axial view of a vehicle body in a toolbox vehicle for civil engineering according to an embodiment of the present invention;

FIG. 4 is a schematic axial view of a storage unit in a tool box car for civil engineering according to an embodiment of the present invention;

FIG. 5 is a schematic axial view of a slider in a toolbox vehicle for civil engineering according to an embodiment of the present invention;

fig. 6 is a schematic axial view of a tool box vehicle for civil engineering provided in an embodiment of the present invention, in which a rotating block and a positioning shaft are fixed.

In the figure: 1. a vehicle body; 11. a sliding shaft; 12. a vertical plate; 13. a column; 2. a storage unit; 21. storing the drawer; 22. inserting the column; 3. a sliding mechanism; 31. a butt joint shaft; 32. a slider; 321. a fixed shaft; 33. a rotating assembly; 331. a placement groove; 3311. a connecting plate; 332. rotating the block; 3321. a sleeve portion; 4. a locking mechanism; 41. a limiting shaft; 411. a first limiting part; 42. positioning the shaft; 421. a second threaded hole; 43. a limiting plate; 44. fastening a bolt; 45. a top rod; 5. a connection assembly; 51. a connecting rod; 511. a third threaded hole; 52. a connecting shaft; 521. a second limiting part.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 4 together, a toolbox vehicle for civil engineering construction according to the present invention will now be described. The tool box vehicle for civil engineering construction comprises a vehicle body 1, a plurality of storage units 2, a sliding mechanism 3 and a locking mechanism 4.

A plurality of storage units 2 are located on the vehicle body 1, and all the storage units 2 are stacked in the vertical direction. Deposit unit 2 and have the grafting post 22 of depositing drawer 21 and a plurality of vertical setting of depositing that can the horizontal pull, the grafting post 22 of the unit 2 of depositing of the lower floor slides and wears to locate in automobile body 1, and the adjacent unit 2 of depositing in below is worn to locate in the slip of the grafting post 22 of all the other any unit 2 of depositing.

The slide mechanism 3 is connected to the vehicle body 1 so as to slide in the vertical direction, and includes a contact shaft 31, and the contact shaft 31 can contact the upper surface of the top storage unit 2.

The locking mechanism 4 is connected to the vehicle body 1 and the slide mechanism 3 so that the abutment shaft 31 can restrict the upward movement of the storage unit 2.

Compared with the prior art, the tool box vehicle for civil engineering construction provided by the invention has the advantages that:

the lock mechanism enables the abutment shaft 31 to restrict the upward movement of the storage units 2, thereby fixing the plurality of storage units 2 to the vehicle body 1, thereby preventing the storage units 2 from being lost during transportation.

Tools are placed in the storage drawer 21 of the storage unit 2, and the storage unit 2 is transported through the vehicle body 1, so that the problem that the tools are inconvenient to transport by using a portable tool box can be avoided;

the number of the storage units 2 can be selected according to the number of tools, and the transportation of the storage units 2 can be conveniently realized through the vehicle body 1, so that the problem of labor waste caused by more portable toolboxes needing to be carried can be avoided.

In this embodiment, the cross section of the plug-in posts 22 is circular, the number of the plug-in posts 22 is four, the four plug-in posts 22 are in the same horizontal space, and the connecting lines between the four plug-in posts 22 are arranged in a rectangular shape.

The bottom on the automobile body 1 has a horizontal plate, is provided with four stands 13 on the horizontal plate fixedly, and the unit 2 of depositing of bottom is placed on four stands 13 and four spliced poles 22 of the unit 2 of depositing of bottom are slided respectively and are worn to locate in four stands 13.

Referring to fig. 1, 2 and 5, as a specific embodiment of the toolbox cart for civil engineering provided by the present invention, the cart body 1 has two vertically arranged sliding shafts 11, the two sliding shafts 11 are located at one side of the storage unit 2 along a first direction, the first direction is horizontally arranged and perpendicular to the drawing direction of the storage drawer 21, the two sliding shafts 11 are arranged at intervals along the drawing direction of the storage drawer 21, and the sliding mechanism 3 includes a sliding member 32 and a rotating member 33.

The sliding member 32 and the sliding shaft 11 are located on the same side of the storage unit 2, and slidably sleeved on the two sliding shafts 11, and have a fixing shaft 321 horizontally disposed and parallel to the drawing direction of the storage drawer 21, and the fixing shaft 321 is located between the two sliding shafts 11.

The rotating assembly 33 is rotatably sleeved on the fixed shaft 321 for providing the abutting shaft 31, and the rotation of the rotating assembly 33 can make the rotating assembly 33 and the abutting shaft 31 avoid the space above the storage unit 2.

The rotation of the rotating unit 33 allows the contact shaft 31 to come into contact with the upper surface of the top storage unit 2, and the rotating unit 33 and the contact shaft 31 may be retracted from the space directly above the storage unit 2.

When the rotating assembly 33 and the abutting shaft 31 are retracted from the space above the storage unit 2, the storage unit 2 on the vehicle body 1 can be conveniently removed or the storage unit 2 can be conveniently placed on the vehicle body 1.

Referring to fig. 1 to 2, the rotary unit 33 includes a placement groove 331 as an embodiment of the toolbox cart for civil engineering construction according to the present invention.

The placement groove 331 is used to connect with the abutment shaft 31, and when the rotating assembly 33 rotates so that the abutment shaft 31 is located on the side of the fixed shaft 321 away from the storage unit 2 in the first direction, the abutment shaft 31 can abut with the ground by the sliding of the slider 32 and the opening of the placement groove 331 is upward at this time.

After the automobile body 1 will deposit unit 2 and transport to the destination, can make butt axle 31 be in the state with ground butt, standing groove 331's opening upwards this moment, butt axle 31 can play the effect of supporting rotatory standing groove 331, during civil engineering, can place some instruments temporarily in standing groove 331 to make things convenient for taking of these instruments, can prevent simultaneously that these instruments from losing.

In the present embodiment, the number of the abutting shafts 31 is two, and the arrangement of the two abutting shafts 31 can provide better support for the placing groove 331.

Referring to fig. 1 to 2, as an embodiment of the toolbox cart for civil engineering provided by the present invention, the abutting shaft 31 is provided with a first external thread, the placing slot 331 is provided with a connecting plate 3311 perpendicular to the abutting shaft 31, and the connecting plate 3311 is sleeved on the abutting shaft 31 and provided with a first threaded hole in threaded connection with the first external thread.

When the abutment shaft 31 abuts against the ground surface, the ground surface near the abutment shaft 31 is likely to be uneven, and by rotating the abutment shaft 31, the abutment shaft 31 can be moved in the axial direction of the abutment shaft 31, thereby enabling the abutment shaft 31 to abut against the ground surface even if the ground surface is uneven.

In this embodiment, a protrusion may be provided on the connection plate 3311, and the first screw hole penetrates the protrusion, so that the length of the first screw hole may be extended, thereby ensuring the reliability of the screw connection of the first external thread and the first screw hole.

When the abutment shaft 31 abuts against the ground, the vehicle body 1 can also restrict the slider 32 from continuing to slide downward, thereby enabling better support of the placement groove 331.

Referring to fig. 2, 5 and 6, the rotating assembly 33 further includes a rotating block 332, which is a specific embodiment of the toolbox vehicle for civil engineering construction according to the present invention.

One end of the rotating block 332 is rotatably sleeved on the fixed shaft 321. The bottom wall of the placement groove 331 and two side walls perpendicular to the fixed shaft 321 are slidably disposed through the rotation block 332.

Before the abutting shaft 31 abuts against the ground, the placing groove 331 can be slid, so that the abutting shaft 31 can abut against the relatively flat ground.

Referring to fig. 1 and 6, as a specific embodiment of the toolbox cart for civil engineering provided by the present invention, the locking mechanism 4 includes a limiting shaft 41, a positioning shaft 42, a limiting plate 43, and a fastening bolt 44.

The stopper shaft 41 is provided along the first direction, connected to the slider 32, and detachably connected to the vehicle body 1.

The positioning shaft 42 is perpendicular to the fixing shaft 321, one end of the positioning shaft is fixedly connected with the rotating block 332, and the end face of the other end of the positioning shaft is provided with a second threaded hole 421.

The limit plate 43 is perpendicular to the limit shaft 41 and rotatably sleeved on the limit shaft 41.

The screw of the fastening bolt 44 is inserted into the limit plate 43 and is parallel to the limit shaft 41. When the abutting shaft 31 abuts against the upper surface of the storage unit 2 on the top layer, the limiting plate 43 can be attached to the end face of the positioning shaft 42 for setting the second threaded hole 421 by rotating, and the screw of the fastening bolt 44 can penetrate into the second threaded hole 421 and be in threaded connection with the second threaded hole 421.

Since the stopper shaft 41 is provided in the first direction, the sliding of the slider 32 in the vertical direction can be restricted after the stopper shaft 41 is connected to the vehicle body 1;

since the limit plate 43 is rotatably sleeved on the limit shaft 41, the rotation of the rotating assembly 33 can be limited after the screw of the fastening bolt 44 is inserted into the second threaded hole 421.

The abutment shaft 31 can be held in abutment with the upper surface of the storage unit 2 on the top by the locking mechanism 4, so that the abutment shaft 31 can restrict the upward movement of the storage unit 2.

In the present embodiment, when the placing groove 331 is required to temporarily store the tool, the fastening bolt 44, the stopper plate 43 and the stopper shaft 41 need to be removed first, so that the rotating assembly 33 can be rotated and the slider 32 can be slid in the vertical direction.

Referring to fig. 1, a limit shaft 41 penetrates through a sliding member 32 in a sliding manner, a first limit portion 411 protruding outward in a radial direction of the limit shaft 41 is disposed at one end of the limit shaft 41, the first limit portion 411 abuts against the sliding member 32, a second external thread is disposed at the other end of the limit shaft 41, the limit shaft 41 is connected to a vehicle body 1 by a connecting assembly 5, and the connecting assembly 5 includes a connecting rod 51.

The connecting rod 51 is vertically arranged and provided with a plurality of third threaded holes 511 parallel to the limiting shaft 41, the third threaded holes 511 are arranged at intervals in the vertical direction, the distance between two adjacent third threaded holes 511 is equal to the height of the storage unit 2, and the threaded end of the limiting shaft 41 penetrates through one of the third threaded holes 511 and is in threaded connection with the penetrated third threaded hole 511.

When the number of the storage units 2 on the vehicle body 1 becomes larger or smaller, the stopper shaft 41 may be rotated so that the stopper shaft 41 exits the third screw hole 511 through which it is inserted, and then the slider 32 is slid to a proper position and the stopper shaft 41 is re-inserted into the proper third screw hole 511.

Referring to fig. 1 to 2, as a specific embodiment of the toolbox cart for civil engineering provided by the present invention, a cart body 1 is fixedly provided with a vertical plate 12, the vertical plate 12 and a sliding shaft 11 are respectively located at two sides of a storage unit 2 along a first direction, a connecting rod 51 is located between the sliding shaft 11 and the vertical plate 12, and a connecting assembly 5 further includes a connecting shaft 52.

The connecting shafts 52 are two, parallel to the limiting shafts 41, one end of each connecting shaft is fixedly connected with the connecting rod 51, the other end of each connecting shaft penetrates through the vertical plate 12 in a sliding mode, and the end portion of each connecting shaft is provided with a second limiting portion 521 protruding outwards along the radial direction of the connecting shaft 52.

When the limiting shaft 41 is rotated, the connecting shaft 52 can be driven by the connecting rod 51 to slide.

When the vehicle body 1 transports the storage unit 2, the limiting shaft 41 is rotated to enable the connecting rod 51 to be attached to all the storage drawers 21, so that the storage drawers 21 are prevented from being pulled outwards; when the vehicle body 1 reaches the destination, the stopper shaft 41 is rotated so that the connecting rod 51 escapes from the drawing path of the storage drawer 21.

In the present embodiment, the stopper shaft 41 is located above all the stopper shafts 41.

Referring to fig. 1, a limiting plate 43 is rotatably sleeved on the first limiting portion 411, and the locking mechanism 4 further includes a top rod 45.

The push rod 45 is parallel to the connecting shaft 52, one end of the push rod is fixedly connected with the limit plate 43, and when the screw of the fastening bolt 44 penetrates into the second threaded hole 421, the push rod 45 abuts against the placing groove 331 so as to cooperate with the rotating block 332 to limit the sliding of the placing groove 331 from both sides.

This can prevent the upper surface of the storage unit 2 of the top layer from being scratched by the abutment shaft 31 due to the sliding of the placement groove 331, while facilitating the transportation.

Referring to fig. 1, in order to rotatably sleeve one end of the rotating block 332 on the fixing shaft 321, one end of the rotating block 332 has a sleeve portion 3321 rotatably sleeved on the fixing shaft 321.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A toolbox car for civil engineering construction, its characterized in that includes:

a vehicle body;

a plurality of storage units located on the vehicle body, all of the storage units being stacked in a vertical direction; the storage units are provided with storage drawers capable of being horizontally pulled and a plurality of vertically arranged insertion columns, the insertion column of the storage unit at the lowest layer is slidably inserted into the vehicle body, and the insertion columns of the rest of the storage units are slidably inserted into the adjacent storage units below the storage units;

the sliding mechanism is connected with the vehicle body in a sliding mode along the vertical direction and is provided with a butting shaft, and the butting shaft can be butted with the upper surface of the storage unit on the top layer; and

a locking mechanism connected to the vehicle body and the sliding mechanism so that the abutting shaft can restrict the storage unit from moving upward;

the automobile body has the sliding shaft of two vertical settings, two the sliding shaft is located deposit the unit along one side of first direction, the first direction level set up and with the pull direction of depositing the drawer is perpendicular, two sliding shaft edges deposit the pull direction interval setting of drawer, slide mechanism includes:

the sliding part and the sliding shafts are positioned on the same side of the storage unit and are sleeved on the two sliding shafts in a sliding manner, the sliding part is provided with a fixed shaft which is horizontally arranged and is parallel to the drawing direction of the storage drawer, and the fixed shaft is positioned between the two sliding shafts;

the rotating assembly is rotatably sleeved on the fixed shaft and used for arranging the abutting shaft, and the rotating assembly and the abutting shaft can be enabled to avoid the space above the storage unit by rotating;

the rotating assembly includes:

a placement groove for connecting with the abutting shaft, when the rotating assembly rotates to make the abutting shaft located at one side of the fixed shaft far away from the storage unit along the first direction, the abutting shaft can abut with the ground by sliding of the sliding piece and the opening of the placement groove is upward;

the rotating assembly further comprises:

one end of the rotating block is rotatably sleeved on the fixed shaft; the bottom wall of the placing groove and two side walls vertical to the fixed shaft are slidably arranged in the rotating block in a penetrating manner;

the locking mechanism includes:

the limiting shaft is arranged along the first direction, is connected with the sliding part and is detachably connected with the vehicle body;

the positioning shaft is perpendicular to the fixed shaft, one end of the positioning shaft is fixedly connected with the rotating block, and a second threaded hole is formed in the end face of the other end of the positioning shaft;

the limiting plate is perpendicular to the limiting shaft and is rotatably sleeved on the limiting shaft;

the screw rod penetrates through the limiting plate and is parallel to the limiting shaft; when butt joint axle and top layer when depositing the upper surface butt of unit, the limiting plate can through rotate with the locating shaft is used for setting up the terminal surface laminating of second screw hole just fastening bolt's screw rod can penetrate the second screw hole is downthehole and with second screw hole threaded connection.

2. The toolbox vehicle for civil engineering work according to claim 1, wherein the abutment shaft is provided with a first external thread, the placing groove is provided with a connecting plate perpendicular to the abutment shaft, the connecting plate is sleeved on the abutment shaft and provided with a first threaded hole in threaded connection with the first external thread.

3. The toolbox cart for civil engineering construction according to claim 1, wherein the limiting shaft slidably penetrates the sliding member, one end of the limiting shaft is provided with a first limiting portion protruding outward in a radial direction of the limiting shaft, the first limiting portion abuts against the sliding member, the other end of the limiting shaft is provided with a second external thread, the limiting shaft is connected with the cart body by means of a connecting assembly, the connecting assembly comprises:

the connecting rod, vertical setting is equipped with a plurality ofly with spacing parallel third screw hole, and is a plurality of the third screw hole sets up along vertical direction interval, and two adjacent distance between the third screw hole with the height of depositing the unit is equal, one of them is worn to locate by the screw thread end of spacing axle in the third screw hole and with the institute wear to establish third screw hole threaded connection.

4. The toolbox cart for civil engineering work according to claim 3, wherein a vertical plate is fixedly provided to the vehicle body, the vertical plate and the sliding shaft are respectively located at both sides of the storage unit in the first direction, the connecting rod is located between the sliding shaft and the vertical plate, the connecting assembly further comprising:

the two connecting shafts are parallel to the limiting shaft, one end of each connecting shaft is fixedly connected with the connecting rod, the other end of each connecting shaft penetrates through the vertical plate in a sliding mode, and a second limiting part protruding outwards in the radial direction of the connecting shaft is arranged at the end part of each connecting shaft; when the second limiting part is abutted to the vertical plate, the connecting rod can be attached to all the storage drawers to limit all the storage drawers to be pulled outwards.

5. The toolbox cart for civil engineering as claimed in claim 4, wherein the limiting plate is rotatably sleeved on the first limiting portion, the locking mechanism further comprises:

and the ejector rod is parallel to the connecting shaft, one end of the ejector rod is fixedly connected with the limiting plate, and when the screw rod of the fastening bolt penetrates into the second threaded hole, the ejector rod is abutted to the placing groove so as to be matched with the rotating block to limit the sliding of the placing groove from two sides.

6. The toolbox cart for civil engineering according to claim 1, wherein one end of the rotary block has a sleeve portion rotatably fitted over the fixed shaft.

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