CN219033013U - Novel roadblock splicing structure - Google Patents

Abstract

The utility model provides a novel roadblock splicing structure, which relates to the field of roadblock splicing and aims at solving the problems that the existing roadblock splicing structure is easy to loose after long-time use and has poor splicing and fixing effects when being used, and comprises a main body; the main body is of a rectangular structure, two sides of the main body are respectively provided with two side plates, the outer end of each side plate is provided with a pull block, the pull blocks are of a T-shaped structure, and two sides of the inner side of each pull block are of an inclined structure. When the novel combined type split joint is used, the pull blocks can be embedded into the stress grooves for use, at this time, a proper number of press blocks can be installed according to the use requirement, so that the weight of the press blocks can be transmitted to the main body, the main body drives the pull blocks to continuously bear force to shake downwards, and the split joint parts can be pulled due to the inclined structure of the cross sections of the pull blocks and the stress grooves, so that the split joint fixing effect is improved, and looseness and gaps are avoided.

Description

Novel roadblock splicing structure

Technical Field

The utility model belongs to the technical field of roadblock splicing, and particularly relates to a novel roadblock splicing structure.

Background

When temporary road management and control is carried out, a roadblock and a splicing structure thereof are usually needed, so that the roadblocks and the splicing structure can be temporarily and rapidly spliced together for use.

The existing roadblock splicing structure is easy to loosen after long-time use when being used, the splicing fixing effect is poor, and strong wind easily causes the structure to displace and topple over when encountering rainy days, so that the running of a vehicle is affected.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a novel roadblock splicing structure, which aims to solve the problems that the existing roadblock splicing structure is easy to loose after long-time use and has poor splicing and fixing effects when in use.

This novel roadblock mosaic structure, include: a main body; the main body is of a rectangular structure, two sides of the main body are respectively provided with two side plates, the outer end of each side plate is provided with a pull block, the pull blocks are of a T-shaped structure, and two sides of the inner side of each pull block are of an inclined structure; the splice, the splice is rectangular structure, and the splice is plastic materials, and the splice is installed in the side of main part, and the both sides of splice are equipped with two limit grooves respectively, and the internally mounted in every limit groove has a supporting shoe, and the supporting shoe is wedge structure, and the top of splice is equipped with the ejector pin, and the ejector pin is cylindrical structure, and the bottom outside of ejector pin is equipped with four annular arrangement's auxiliary member.

Optionally, the side plate has a rectangular structure, a bottom hole is formed in the bottom of the main body, the bottom hole has a T-shaped shaft structure, a guide rod is inserted into the bottom hole, the guide rod has a T-shaped shaft structure, and two grooves are respectively formed in two sides of the guide rod; the bottom of the guide rod is provided with annularly arranged bottom pieces, the bottom pieces are of conical structures, mounting pieces are sleeved outside the guide rod, two ends of each mounting piece are of rectangular structures, and the middle positions of the mounting pieces are of annular structures; the inside both sides of installed part are equipped with a contact block respectively, and the contact block is L shape structure, and the bottom of contact block is wedge structure, and the inboard of contact block is the rubber material, and the contact block embedding is equipped with a briquetting respectively at the inside of recess, and the briquetting is U-shaped structure, and the briquetting is the metal material.

Optionally, the side grooves are of rectangular structures, a supporting plate is arranged in the middle of the inside of each side groove, the supporting plate is of rectangular structures, an inclined structure is arranged above the inner end of the supporting plate, the supporting plate is made of elastic plastic materials, and the outer end of the supporting plate is connected with the supporting block; the two sides of the top end of the splicing piece are respectively provided with a connecting piece, each connecting piece is of a rectangular structure, a stress groove is formed in each connecting piece, each stress groove is of a T-shaped structure, the inner sides of two ends of each stress groove are of an inclined structure, and a pull block is inserted into each stress groove; the ejector rod is of a cylindrical structure, the ejector rod is of a plastic material, the auxiliary piece is of a rectangular structure, the top end of the auxiliary piece is of an inclined structure, an inner groove is formed in the ejector rod and the auxiliary piece, the top end of the inner groove is of a funnel-shaped structure, and the bottom end of the inner groove is of a cross-shaped structure.

Compared with the prior art, the utility model has the following beneficial effects:

1. through setting up the pull block, make this device when using, the pull block can imbed in the inside of atress groove and use, at this moment can install the briquetting of suitable quantity according to the user demand, make the weight of briquetting can transmit for the main part, make the main part drive the pull block and keep the atress to shake downwards, because the cross-section of pull block and atress groove is the slope form structure, make the splice can be pulled, and then improve the fixed effect of concatenation, avoid appearing not hard up and gap;

2. through setting up ejector pin and supporting shoe, make this device when using, when meetting storm weather, the inside groove can be controlled the rainwater and is collected, and then make the inside bottom that the rainwater can enter into the inside groove, and then make the weight of rainwater can transmit splice, make splice can improve the stability of bottom, when making splice and ejector pin blow the slope, can make the supporting shoe strengthen the supporting effect, make the backup pad can utilize self elastic deformation buffering, improve supporting strength.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic bottom view of the present utility model.

Fig. 3 is an exploded perspective view of the present utility model.

Fig. 4 is a schematic view of the main body exploded bottom view of the present utility model.

Fig. 5 is a schematic view of a partial cross-sectional perspective view of a splice of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a main body; 101. a side plate; 102. pulling blocks; 103. a bottom hole; 104. a guide rod; 105. a base member; 106. a mounting member; 107. a contact block; 108. briquetting;

2. a splice; 201. a side groove; 202. a support plate; 203. a support block; 204. a connecting piece; 205. a stress groove; 206. a push rod; 207. an inner tank; 208. an auxiliary member.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 5:

the utility model provides a novel roadblock splicing structure, which comprises the following components: a main body 1; the main body 1 is of a rectangular structure, two sides of the main body 1 are respectively provided with two side plates 101, the outer end of each side plate 101 is provided with a pull block 102, the pull blocks 102 are of a T-shaped structure, two sides of the inner side of each pull block 102 are of an inclined structure and are used for being embedded into the stress groove 205 and are contacted with the inner side of the stress groove 205, and then the connecting piece 204 and the splicing piece 2 are continuously pulled, so that the splicing piece 2 can automatically strengthen the connecting effect with the main body 1; the splice 2, splice 2 is rectangular structure, splice 2 is plastic materials, splice 2 splice is installed in the side of main part 1, splice 2's both sides are equipped with two limit groove 201 respectively, every internally mounted in limit groove 201 has a supporting shoe 203, supporting shoe 203 is wedge structure, can increase area of contact and contact effect with ground, and then improve splice 2's stability and supportability, splice 2's top is equipped with ejector pin 206, ejector pin 206 is cylindrical structure, ejector pin 206's bottom outside is equipped with four annular arrangement's auxiliary member 208, can offer inside groove 207 in ejector pin 206 and auxiliary member 208's inside, make the rainwater can get into, and then increase splice 2's stability.

Referring to fig. 4, a side plate 101 has a rectangular structure for supporting a pull block 102, a bottom hole 103 is formed at the bottom of a main body 1, the bottom hole 103 has a T-shaped shaft structure, a guide rod 104 is inserted into the bottom hole 103, the guide rod 104 can be used in the guide rod 104, the guide rod 104 has a T-shaped shaft structure, two sides of the guide rod 104 are respectively provided with a groove, after an installation part 106 is installed, the installation part can be contacted with the inside of the groove through a contact block 107, and then the weight is simultaneously transferred to the guide rod 104, so that the bottom part 105 can be contacted with the ground, and the fixing effect is improved; the bottom of the guide rod 104 is provided with a bottom part 105 which is annularly arranged, the bottom part 105 is of a conical structure, the outside of the guide rod 104 is sleeved with a mounting part 106, two ends of the mounting part 106 are of rectangular structures, and the middle position of the mounting part 106 is of a circular ring structure; the inside both sides of mounting 106 are equipped with a contact block 107 respectively, contact block 107 is L shape structure, the bottom of contact block 107 is wedge structure, can the direction insert inside the recess, the inboard of contact block 107 is the rubber material, be used for with the inside anti-skidding contact of recess, contact block 107 embedding is in the inside of recess, the both ends of mounting 106 are equipped with a briquetting 108 respectively, briquetting 108 is U-shaped structure, briquetting 108 is the metal material, can add arbitrary quantity briquetting 108 at will, and then improve the weight of main part 1, make main part 1 can be more stable, make and draw the piece 102 can last the atress in the inside removal of atress groove 205, make splice 2 can be continuously pulled.

Referring to fig. 5, the side slots 201 are rectangular structures, a supporting plate 202 is arranged in the middle of the inside of each side slot 201, the supporting plate 202 is rectangular structures, the upper part of the inner end of the supporting plate 202 is inclined structures, the supporting plate 202 is made of elastic plastic materials, supporting blocks 203 can be installed by using elasticity, and the outer end of the supporting plate 202 is connected with the supporting blocks 203; the two sides of the top end of the splicing piece 2 are respectively provided with a connecting piece 204, the connecting pieces 204 are of rectangular structures, a stress groove 205 is formed in each connecting piece 204, the stress groove 205 is of a T-shaped structure, the inner sides of the two ends of the stress groove 205 are of inclined structures, and the pull block 102 is inserted into the stress groove 205, so that the pull block 102 can continuously move in the interior of the pull block, the splicing piece 2 is continuously pulled, and the splicing effect is improved; the ejector rod 206 is of a cylindrical structure, the ejector rod 206 is made of plastic materials, vehicles can be blocked, the auxiliary piece 208 is of a rectangular structure, the top end of the auxiliary piece 208 is of an inclined structure, an inner groove 207 is formed in the ejector rod 206 and the auxiliary piece 208, the top end of the inner groove 207 is of a funnel-shaped structure, the bottom end of the inner groove 207 is of a cross-shaped structure, rainwater can enter, and then the weight and the stability of the splicing piece 2 are automatically increased in stormy weather.

When in use, the utility model is characterized in that: when this device needs to be used, can be in the same place the concatenation of a plurality of main parts 1 and a plurality of splice 2 through the manual control earlier, make and draw the piece 102 can imbed the internal connection in atress groove 205, then according to the user demand, can add arbitrary quantity briquetting 108, make the installed part 106 can the suit in the outside of guide bar 104, make the inboard of contact piece 107 can with the inside contact of recess, and then transmit gravity to guide bar 104 and main part 1 simultaneously, make the bottom part 105 can the atress remove downwards, and then strengthen the fixed effect of contact with ground, simultaneously after main part 1 atress removes downwards, can make the piece 102 continue the internal displacement in atress groove 205 owing to the contact surface is the slope form structure, make splice 2 can be continuously pulled, and then improve the concatenation effect automatically, avoid producing not hard up, when meetting the heavy weather, can make the rainwater get into the inside of inside groove 207, and then improve the weight of splice 2, make splice 2 can be more stable, even when atress slope, support piece 203 can also atress, make backup pad 202 can utilize elasticity bending, and then avoid empting of splice 2.

Claims (7)

1. Novel roadblock mosaic structure, its characterized in that includes: a main body (1); the main body (1) is of a rectangular structure, two sides of the main body (1) are respectively provided with two side plates (101), the outer end of each side plate (101) is provided with a pull block (102), the pull blocks (102) are of a T-shaped structure, and two sides of the inner side of each pull block (102) are of an inclined structure; splice (2), splice (2) are rectangle structure, and splice (2) are plastics material, and splice (2) splice install the side in main part (1), and the both sides of splice (2) are equipped with two limit groove (201) respectively, and internally mounted in every limit groove (201) has a supporting shoe (203), and supporting shoe (203) are wedge structure, and the top of splice (2) is equipped with ejector pin (206), and ejector pin (206) are cylindrical structure, and the bottom outside of ejector pin (206) is equipped with auxiliary member (208) of four ring arrangement.

2. The novel roadblock splicing structure according to claim 1, wherein the side plates (101) are of rectangular structures, bottom holes (103) are formed in the bottoms of the main bodies (1), the bottom holes (103) are of T-shaped shaft structures, guide rods (104) are inserted into the bottom holes (103), the guide rods (104) are of T-shaped shaft structures, and grooves are formed in two sides of the guide rods (104) respectively.

3. The novel roadblock splicing structure according to claim 2, wherein the bottom of the guide rod (104) is provided with a bottom piece (105) which is annularly arranged, the bottom piece (105) is of a conical structure, the outside of the guide rod (104) is sleeved with mounting pieces (106), two ends of each mounting piece (106) are of rectangular structures, and the middle position of each mounting piece (106) is of a circular ring structure.

4. The novel roadblock splicing structure according to claim 3, wherein two sides of the inside of the mounting piece (106) are respectively provided with a contact block (107), the contact blocks (107) are of L-shaped structures, the bottom ends of the contact blocks (107) are of wedge-shaped structures, the inner sides of the contact blocks (107) are made of rubber materials, the contact blocks (107) are embedded into the grooves, two ends of the mounting piece (106) are respectively provided with a pressing block (108), the pressing blocks (108) are of U-shaped structures, and the pressing blocks (108) are made of metal materials.

5. The novel roadblock splicing structure according to claim 1, wherein the side grooves (201) are of rectangular structures, a supporting plate (202) is arranged in the middle of the inside of each side groove (201), the supporting plate (202) is of rectangular structures, the upper part of the inner end of the supporting plate (202) is of an inclined structure, the supporting plate (202) is made of elastic plastic materials, and the outer end of the supporting plate (202) is connected with the supporting block (203).

6. The novel roadblock splicing structure according to claim 1, wherein two sides of the top end of the splicing piece (2) are respectively provided with a connecting piece (204), the connecting pieces (204) are of rectangular structures, a stress groove (205) is formed in each connecting piece (204), the stress groove (205) is of a T-shaped structure, the inner sides of two ends of the stress groove (205) are of inclined structures, and a pull block (102) is inserted into the stress groove (205).

7. The novel roadblock splicing structure according to claim 1, wherein the ejector rod (206) is of a cylindrical structure, the ejector rod (206) is made of plastic materials, the auxiliary piece (208) is of a rectangular structure, the top end of the auxiliary piece (208) is of an inclined structure, the inner grooves (207) are arranged in the ejector rod (206) and the auxiliary piece (208), the top ends of the inner grooves (207) are of a funnel-shaped structure, and the bottom ends of the inner grooves (207) are of a cross-shaped structure.

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