CN219622455U - Road dust fall enclosure - Google Patents

Abstract

The utility model discloses a road dust falling enclosing wall, and relates to the technical field of dust falling enclosing walls. The utility model is formed by sequentially connecting a plurality of splicing parts, wherein the splicing parts comprise: wallboard, plug bolts and plug bushes respectively arranged at two opposite ends of the wallboard; the first inserting block is horizontally arranged at the bottom position of the wallboard in a sliding mode, and the first inserting groove is arranged at the bottom position of the wallboard; and a pile inserted in the vertical sliding fit with the wallboard is formed, a breaking groove is formed in the first insert block, and a guide block acting on the breaking groove is formed in the pile inserted. According to the utility model, through the cooperation between the guide block and the breaking groove, when the pile is driven down into the ground, the first insert block automatically slides and is inserted into the first slot, so that the connection between the bottoms of the two wallboards is realized, the fixation on the ground is synchronously completed, the installation process of the whole dust-falling enclosing wall is simplified, and the installation process is simple and convenient in later dismantling.

Description

Road dust fall enclosure

Technical Field

The utility model relates to the technical field of dust falling enclosing walls, in particular to a road dust falling enclosing wall.

Background

When construction is performed in urban roads, a construction site is usually required to be enclosed by using some dust falling enclosing walls, for example, when a subway station is constructed, the site is required to be enclosed by the dust falling enclosing walls so as to prevent dust in construction from spreading to surrounding roads, thereby influencing surrounding vehicles and pedestrians, the dust falling enclosing walls in the prior art are usually formed by sequentially connecting a plurality of plate structures, when the plate is fixed with the ground, the plate is required to be provided with a basement on the ground by using concrete or bricks, and then the plate is fixed on the basement so as to keep the firmness of the plate fixed on the ground, but the basement is troublesome in construction, a certain time is required to be consumed, and a certain time is required to be consumed when the basement is finally dismantled, namely, the dust falling enclosing walls in the prior art are complicated in construction and dismantling, so that the whole process is time-consuming and labor-consuming.

Disclosure of Invention

The utility model aims at: in order to solve the problems in the background technology, the utility model provides a road dust-falling enclosing wall.

The utility model adopts the following technical scheme for realizing the purposes:

road dust fall enclosure is formed by a plurality of splice parts connect gradually, splice part includes:

the wall board and the plug bush are respectively arranged at two opposite ends of the wall board, and the plug is used for being in plug fit with the plug bush;

the first inserting block is arranged at the bottom of the wallboard in a horizontal sliding mode, the first inserting block is arranged at the bottom of the wallboard in a first inserting groove, the first inserting block and the first inserting groove are respectively positioned at two horizontal opposite ends of the wallboard, and a first tension spring is connected between the first inserting block and the wallboard;

and a pile inserted in the vertical sliding fit with the wallboard is formed, a breaking groove is formed in the first insert block, and a guide block acting on the breaking groove is formed in the pile inserted.

Further, the wallboard comprises a board body and a bottom foot from top to bottom in sequence, the plug bolts and the plug sleeves are all positioned on the board body, the plug piles, the first inserting grooves and the first inserting blocks are all positioned on the bottom foot, and the board body is detachably and fixedly connected with the bottom foot.

Further, the device also comprises a roller arranged on the bottom foot.

Further, the connecting frame is arranged on the bottom leg in a vertical sliding manner, the roller is arranged on the connecting frame, the connecting frame is in linkage fit with the first inserting block, and when the first inserting block moves to form plug fit with the first inserting groove, the connecting frame slides upwards to keep the roller higher than the bottom surface of the bottom leg.

Further, a rotating column is rotatably arranged on the bottom foot and in threaded fit with the connecting frame, a plurality of tooth blocks are arranged on the first inserting block in a linear array mode, and gears matched with the tooth blocks are arranged on the rotating column.

Further, the pile and the footing are arranged independently.

Further, a positioning column is fixedly connected to the pile, and a positioning groove for accommodating the positioning column is formed in the end part of the bottom foot.

Further, a second inserting block is arranged on the bottom leg in a horizontal sliding mode, a second inserting groove for accommodating the second inserting block is formed in the bottom leg, an inclined plane for contacting the positioning column is formed in the second inserting block, and a second tension spring is connected between the second inserting block and the bottom leg.

Further, when the second insert is fully inserted into the second slot, it contacts the peg.

The utility model has the beneficial effects that: according to the utility model, through the cooperation between the guide block and the breaking groove, when the pile is driven down into the ground, the first insert block automatically slides and is inserted into the first slot, so that the connection between the bottoms of the two wallboards is realized, the fixation on the ground is synchronously completed, the installation process of the whole dust-falling enclosing wall is simplified, and the installation process is simple and convenient in later dismantling.

Drawings

FIG. 1 is a perspective view of a splice of the present utility model;

FIG. 2 is a further view of the utility model of FIG. 1;

FIG. 3 is a perspective view of a partial structure of the present utility model and an effect diagram of the partial structure when the partial structure is cut;

FIG. 4 is a perspective view of yet another partial structure of the present utility model and showing the effect of cutting another partial structure;

FIG. 5 is a graph showing effects of the present utility model when two splice parts are connected and a structure of the connection is cut in a three-dimensional manner;

FIG. 6 is an enlarged view of the structure of FIG. 5 at A in accordance with the present utility model;

reference numerals: 1. a splice portion; 2. a wallboard; 3. a plug; 4. a plug bush; 5. a first plug; 6. a first slot; 7. a first tension spring; 8. inserting piles; 9. breaking the groove; 10. a guide block; 11. a plate body; 12. a footing; 13. a roller; 14. a connecting frame; 15. rotating the column; 16. a gear; 17. positioning columns; 18. a positioning groove; 19. a second insert block; 20. a second slot; 21. an inclined plane; 22. and a second tension spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 6, the road dust-falling fence according to one embodiment of the present utility model is still formed by connecting a plurality of splice parts 1 in turn, and includes, for each splice part 1:

the wallboard 2, and the plug bolts 3 and the plug sleeves 4 which are respectively fixed at two opposite ends of the wallboard 2, wherein the plug bolts 3 and the plug sleeves 4 are positioned at positions close to the upper half part of the wallboard 2, and the plug bolts 3 are used for forming plug-in fit with the plug sleeves 4 when the two splicing parts 1 are close to each other;

the first inserting block 5 is arranged at the bottom of the wallboard 2 in a horizontal sliding manner, the first inserting block 5 and the first inserting groove 6 are arranged at the bottom of the wallboard 2, the first inserting block 5 and the first inserting groove 6 are respectively positioned at two horizontal opposite ends of the wallboard 2, a first tension spring 7 is connected between the first inserting block 5 and the wallboard 2, and under the action of elasticity of the first tension spring, the first inserting block 5 is positioned in the wallboard 2 in a normal state;

a pile 8 in sliding fit with the wallboard 2 vertically is formed, specifically, a hole groove in sliding fit with the pile 8 is formed at the bottom position of the wallboard 2, a break groove 9 is formed on the first insert block 5, a guide block 10 acting on the break groove 9 is formed on the pile 8, specifically, as shown in fig. 3, the effect diagram when the bottom position of the wallboard 2 is dug and cut is shown in fig. 3, an inclined guide surface is formed on the guide block 10, so that when the guide block moves downwards along with the pile 8 and contacts the break groove 9, a transverse thrust is formed on the break groove 9, and the first insert block 5 slides to the outer side of the end face of the whole wallboard 2 so as to be inserted into the first slot 6;

based on the above characteristics, when accomplishing the connection of whole settlement enclosure, remove a plurality of splice parts 1 to the tip and draw close to form grafting cooperation between plug 3 and the plug bush 4, in order to accomplish the connection between two adjacent wallboard 2 upper half, afterwards and to the stake 8 application of force, in order to drive it into ground, thereby make whole wallboard 2 fix subaerial, accomplish the fixed between splice part 1 and the ground promptly, through the cooperation between guide block 10 and the broken groove 9, thereby the connection between the adjacent wallboard 2 lower half has been accomplished in step, accomplish the installation of dust fall enclosure promptly, the same time, when demolish it, with stake 8 extract from subaerial can, thereby under the effect of first extension spring 7, first plug 5 can retract in wallboard 2, in order to relieve the connection with first slot 6, compare with current dust fall enclosure, this design is comparatively simple and convenient both when assembling and demolishing, simultaneously also need not consume more material.

As shown in fig. 1-4, in some embodiments, the wall board 2 sequentially includes the board 11 and the bottom 12 from top to bottom, the appearance of the bottom 12 is thicker, similar to the wall feet in the prior art, so that the effects of anti-collision and stability increase can be achieved, the plug 3 and the sleeve 4 are both located on the board 11, the plug 8 and the first slot 6 are both located on the bottom 12, and the board 11 and the bottom 12 are detachably and fixedly connected, so that during transportation, the board 11 and the bottom 12 can be detached from each other, the transportation is convenient, and during installation, all the bottom 12 can be installed first, then the board 11 is installed on the bottom 12, and the connection between the board 11 and the bottom 12 can be achieved through the cooperation of the plug 3 and the sleeve 4, so that the process is simpler and more convenient, a plurality of ear plates can be specifically constructed on the board 11 and the bottom 12, and the connection between the ear plates and the bottom 12 can be achieved through the bolt assembly.

As shown in fig. 1-4, in some embodiments, the whole device further comprises a roller 13 arranged on the foot 12, and the foot 12 is thicker, so that the foot 12 is difficult to carry and move, and can directly move on the ground through the roller 13, so that the foot can be directly pushed when moved in a short distance, and the difficulty in carrying can be reduced.

As shown in fig. 1-4, fig. 4 and 5 are respectively effect diagrams when cutting the two ends of the foot 12, in some embodiments, the foot 12 is provided with a connecting frame 14 in a vertically sliding manner, the above roller 13 is specifically arranged on the connecting frame 14, thus completing the installation on the foot 12, when the first insert 5 moves to form a plug-in fit with the first slot 6, the connecting frame 14 slides up to keep the roller 13 higher than the bottom surface of the foot 12, i.e. the roller 13 lifts up and leaves the ground, otherwise, when the first insert 5 retracts into the foot 12, the connecting frame 14 slides up and down on the foot 12, thus making the roller 13 lower than the bottom surface of the foot 12 to contact the ground, through the design, when the foot 12 is installed on the ground, the roller 13 retracts up and leaves the ground, thus ensuring the bottom surface of the foot 12 contacts the ground, when the foot 12 is removed from the fixed installation on the ground, the roller 13 contacts the ground again, thus facilitating the movement of the roller 13 on the ground more flexibly using the design.

As shown in fig. 3, in some embodiments, regarding the linkage fit between the first insert 5 and the connecting frame 14, a rotating column 15 is rotatably disposed on the foot 12 and is in threaded fit with the connecting frame 14, a plurality of tooth blocks are linearly arrayed on the first insert 5, and a gear 16 matched with the tooth blocks is disposed on the rotating column 15, so that when the first insert 5 moves, the rotating column 15 is completed by the cooperation of the gear 16 and the tooth blocks, the rotating column 15 can realize the movement of the connecting frame 14 through the threaded fit, the movement amplitude of the first insert 5 is larger, the thread density is also larger, so that labor is saved when the rotating column 15 is pushed to rotate, the threaded fit has a locking effect, so that the stabilizing effect of the connecting frame 14 can be maintained, and therefore, the design can better maintain the stabilizing effect of the roller 13, and better realize the transmission of force between the force.

In some embodiments, as shown in fig. 3, the pile 8 and the foot 12 are separately arranged, that is, the pile 8 can be directly pulled out from the hole slot, so that the pile can be removed during transportation, thereby facilitating transportation.

As shown in fig. 1-3, in some embodiments, the positioning column 17 is fixedly connected to the pile 8, and the positioning groove 18 for accommodating the positioning column 17 is configured at the end of the foot 12, so that when the integral installation is completed, the positioning column 17 is inserted into the positioning groove 18, so that the connection stability between the two feet 12 can be further ensured, and the positioning column 17 is vertical, so that the two feet 12 can be prevented from being dislocated horizontally under the action of external force.

As shown in fig. 4 and 6, in some embodiments, a second insert 19 is slidably disposed horizontally on the bottom leg 12, a second slot 20 for receiving the second insert 19 is configured on the bottom leg 12, the second insert 19 is also located at two ends of the bottom leg 12 respectively, an inclined surface 21 for contacting the positioning post 17 is configured on the second insert 19, and a second tension spring 22 is connected between the second insert 19 and the bottom leg 12, the second insert 19 is also retracted inside the bottom leg 12 under the action of elastic force, when the positioning post 17 is completely inserted into the positioning slot 18, the inclined surface 21 is pressed, so as to push the second insert 19 out and insert into the second slot 20, so as to further increase the connection stability between the two bottom legs 12, and when the positioning post 17 is removed, the second insert 19 is directly retracted under the action of the second tension spring 22.

As shown in fig. 6, in some embodiments, when the second insert 19 is fully inserted into the second slot 20, it contacts the peg 8 to abut against the peg 8, so as to play a role in locking the peg 8 to prevent loosening on the ground.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. Road dust fall enclosure, its characterized in that is formed by a plurality of concatenation parts (1) connect gradually, concatenation part (1) include:

the wall board (2) and plug bolts (3) and plug bushes (4) which are respectively arranged at two opposite ends of the wall board (2), wherein the plug bolts (3) are used for forming plug-in fit with the plug bushes (4);

the first inserting block (5) is horizontally arranged at the bottom of the wallboard (2) in a sliding mode, the first inserting groove (6) is arranged at the bottom of the wallboard (2), the first inserting block (5) and the first inserting groove (6) are respectively positioned at two horizontally opposite ends of the wallboard (2), and a first tension spring (7) is connected between the first inserting block (5) and the wallboard (2);

and a vertical pile (8) which is in sliding fit with the wallboard (2) is formed, a breaking groove (9) is formed on the first inserting block (5), and a guide block (10) which acts on the breaking groove (9) is formed on the pile (8).

2. The road dust fall enclosure according to claim 1, wherein the wall board (2) sequentially comprises a board body (11) and a foot (12) from top to bottom, the plug bolts (3) and the plug sleeves (4) are both positioned on the board body (11), the plug piles (8), the first inserting grooves (6) and the first inserting blocks (5) are both positioned on the foot (12), and the board body (11) is detachably and fixedly connected with the foot (12).

3. Road dust enclosure according to claim 2, further comprising rollers (13) provided on the feet (12).

4. A road dust fall enclosure according to claim 3, wherein the feet (12) are provided with connecting frames (14) in a vertically sliding manner, the rollers (13) are arranged on the connecting frames (14), the connecting frames (14) are in linkage fit with the first inserting blocks (5), and when the first inserting blocks (5) move to form plug-in fit with the first inserting grooves (6), the connecting frames (14) slide upwards to keep the rollers (13) higher than the bottom surfaces of the feet (12).

5. Road dust fall enclosure according to claim 4, characterized in that a rotating column (15) is rotatably arranged on the foot (12) and is in threaded fit with the connecting frame (14), a plurality of tooth blocks are linearly arranged on the first insert block (5), and a gear (16) matched with the tooth blocks is arranged on the rotating column (15).

6. Road dust enclosure according to claim 2, characterized in that the piles (8) and the feet (12) are arranged independently.

7. Road dust fall enclosure according to claim 2, characterized in that the positioning posts (17) are fixedly connected to the piles (8), and the positioning slots (18) for accommodating the positioning posts (17) are formed at the ends of the feet (12).

8. Road dust fall enclosure according to claim 7, characterized in that a second insert block (19) is arranged on the foot (12) in a horizontal sliding manner, a second slot (20) for accommodating the second insert block (19) is formed on the foot (12), an inclined surface (21) for contacting the positioning column (17) is formed on the second insert block (19), and a second tension spring (22) is connected between the second insert block and the foot (12).

9. Road dust enclosure according to claim 8, characterized in that the second plug (19) is in contact with the peg (8) when fully inserted into the second slot (20).