CN218997659U - Assembled shock-absorbing rigid cable protection roadblock device - Google Patents

Abstract

The utility model discloses an assembled damping type rigid cable protection roadblock device, which comprises a top flat section cable protection part, an inclined section supporting part and a rubber damping part; the top surface of the top flat section cable protection part is a horizontal running surface, and a mounting hole for a power cable to pass through is formed in the middle of the top flat section cable protection part in a penetrating manner; the two inclined section supporting parts are symmetrically arranged by taking the top flat section cable protecting parts as the center, the top surface of each top flat section cable protecting part is an inclined running surface, and the high end of the inclined running surface is connected with the horizontal running surface; the rubber vibration reduction parts are paved on the horizontal running surface and the two inclined running surfaces; compared with the prior art, the main supporting framework is formed by the top flat section cable protection part and the two inclined section supporting parts, and has enough stability; and the rubber vibration reduction part is paved for vibration reduction, so that the service life is prolonged, and the total cost after multiple uses is reduced.

Description

Assembled shock-absorbing rigid cable protection roadblock device

Technical Field

The utility model relates to the technical field of cable protection roadblock structures, in particular to an assembled damping type rigid cable protection roadblock device.

Background

In temporary cable laying, under the condition that a reserved sleeve is not pre-buried on a road, a cable protection barrier device is usually arranged outside the cable for protecting the cable laid on the road, and a plastic finished product protection barrier plate is usually adopted for protection; however, the plastic finished road-block board is often damaged due to insufficient strength and cannot bear repeated rolling of the passing vehicles, so that the cable is damaged, and the cable is maintained and the plastic cable protection road-block device is repeatedly replaced; meanwhile, the common cable protection road baffle has larger damage rate, belongs to disposable products, has large cost and multiple maintenance, consumes long time and is not beneficial to cost control.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide an assembled damping type rigid cable protection roadblock device, which solves the problems that the prior art adopts a traditional plastic finished product roadblock plate with insufficient strength, is easy to damage, has high cost and is difficult to control due to multiple maintenance.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a fabricated shock absorbing rigid cable protection barrier device comprising:

the top surface of the top flat section cable protection part is a horizontal running surface, and a mounting hole for a power cable to pass through is formed in the middle of the top flat section cable protection part in a penetrating manner;

the two inclined section supporting parts are symmetrically arranged by taking the top flat section cable protecting parts as the center, the top surface of each top flat section cable protecting part is an inclined running surface, and the high end of the inclined running surface is connected with the horizontal running surface;

and the rubber vibration reduction parts are paved on the horizontal running surface and the two inclined running surfaces.

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

the assembled damping type rigid cable protection roadblock device mainly comprises a top flat section cable protection part and two inclined section support parts to form a main support framework, and has enough stability; the mounting hole is convenient for the cable to pass and lays, and all lays rubber damping portion on horizontal running surface and two slope running surfaces, makes the vehicle go on the in-process of going on horizontal running surface and two slope running surfaces and dampens to improve the life of this assembly shock attenuation formula rigidity cable protection roadblock device, be difficult for taking place to damage, can also reuse, total cost greatly reduced after the repetitious usage.

Drawings

FIG. 1 is a cross-sectional view of an embodiment of the present utility model.

Reference numerals in the drawings of the specification include: top flat section cable protection part 1, semi-closed type supporting frame 101, bottom connecting plate 102, top connecting plate 103, fastening limiting piece 104, inclined section supporting part 2, supporting bottom plate 201, supporting inclined plate 202, connecting supporting plate 203, internal reinforcing frame 204, rubber vibration reduction part 3, mounting hole 4 and transitional connecting frame 5.

Detailed Description

The utility model is described in further detail below by way of specific embodiments:

as shown in fig. 1, an embodiment of the present utility model proposes an assembled shock-absorbing rigid cable protection barrier device, which includes a top flat section cable protection part 1, an inclined section support part 2, and a rubber shock-absorbing part 3;

the top surface of the top flat section cable protection part 1 is a horizontal running surface, and a mounting hole 4 for a power cable to pass through is formed in the middle of the top flat section cable protection part in a penetrating manner;

the two inclined section support parts 2 are linearly connected to different ends of the top flat section cable protection part 1, the two inclined section support parts 2 are symmetrically arranged by taking the top flat section cable protection part 1 as a center, the top surface of each top flat section cable protection part 1 is an inclined running surface, and the high end of the inclined running surface is connected with a horizontal running surface;

the rubber vibration reduction part 3 is paved on a horizontal running surface and two inclined running surfaces.

The assembled damping type rigid cable protection roadblock device mainly comprises a top flat section cable protection part 1 and two inclined section support parts 2 to form a main support framework, wherein the main support framework has enough stability; the mounting hole 4 is convenient for the cable to pass through and lays, and all lays rubber damping portion 3 on horizontal running surface and two slope running surfaces, makes the vehicle go on the in-process of going on horizontal running surface and two slope running surfaces and dampens to improve the life of this assembly shock attenuation formula rigidity cable protection roadblock device, be difficult for taking place to damage, can also reuse, total cost greatly reduced after the repetitious usage.

During installation, a layer of rubber is paved on the ground to form a layer of rubber vibration reduction layer on the ground, then the top flat section cable protection part 1 and the two inclined section support parts 2 are installed on the rubber vibration reduction layer, and finally a layer of rubber is paved on the horizontal running surface and the two inclined running surfaces to form a rubber vibration reduction part 3, so that the assembled vibration reduction type rigid cable protection roadblock device has good vibration reduction effect, and the service life of the assembled vibration reduction type rigid cable protection roadblock device can be prolonged.

As shown in fig. 1, according to another embodiment of the present utility model, the assembled shock-absorbing rigid cable protection barrier device, wherein the top flat cable protection part 1 comprises a plurality of top flat section connection units, the top flat section connection units are connected in linear sequence, two inclined section support parts 2 are connected with the top flat section connection units at two ends in a one-to-one correspondence manner, one mounting hole 4 is arranged in each top flat section connection unit, and the rubber shock-absorbing part 3 is paved on the top surface of the top flat section connection unit.

Here: the top flat section cable protection part 1 is formed by a plurality of top flat section connecting units, so that the top flat section cable protection part 1 is conveniently split into a plurality of parts for transportation.

Each top flat section connecting unit that specifically adopts includes semi-closed type braced frame 101, semi-closed type braced frame 101 has two and the blind end of two semi-closed type braced frames 101 is arranged in opposite directions, and the outer bottom of two semi-closed type braced frames 101 is all fixed continuous through bottom connecting plate 102, and the outer top of two semi-closed type braced frames 101 is fixed continuous through top connecting plate 103, and rubber damping portion 3 lays on the connecting plate top surface, and mounting hole 4 is the space that forms between two semi-closed type braced frames 101.

In this embodiment: the semi-closed supporting frame 101 is in a [ -shape, two semi-closed supporting frames 101 are connected with the bottom connecting plate 102 and the top connecting plate 103 to form a square frame structure, a space formed by the inner wall of the square frame structure is a mounting hole 4, and a cable is penetrated in the mounting hole 4; the bottom connecting plate 102 can be fixedly connected with the ground by bolts during installation, and one of the semi-closed supporting frames 101 in the two adjacent flat section connecting units is arranged in a deviating mode and can also be fixedly connected by bolts; the plurality of top flat section connection units are sequentially connected to form the top flat section cable protection part 1, and the top connection plates 103 in the plurality of top flat section connection units are sequentially connected to form a horizontal running surface on the top surface of the top flat section cable protection part 1.

Further, a fastening limiting piece 104 is slidably arranged between the two semi-closed supporting frames 101 along the vertical direction; after installation, the fastening limiting piece 104 is pressed and fixed with the cable passing through the corresponding installation hole 4.

Specifically, two half-closed supporting frames 101 are provided with adjusting holes along the vertical direction, and the two adjusting holes are arranged in opposite directions; the fastening limiting piece 104 comprises a fastening limiting pull rod penetrating through the two adjusting holes, one end of the fastening limiting pull rod abuts against one of the semi-closed supporting frames 101 through a nut integrally formed with the fastening limiting pull rod, the other end of the fastening limiting pull rod is connected with a nut abutting against the other semi-closed supporting frame 101 in a threaded manner to be locked and fixed, and the structural strength of each top flat section connecting unit can be enhanced; the fastening limiting pull rod can move in the adjusting hole along the vertical direction at the same time, and then the fastening limiting pull rod can be reasonably moved according to the size of the cable, so that the fastening limiting pull rod is fixed by pressing the cable penetrating through the corresponding mounting hole 4, and the stability of the cable after the cable is mounted is improved.

As shown in fig. 1, according to another embodiment of the present utility model, the assembled shock-absorbing rigid cable protection barrier device, wherein each of the inclined section supporting parts 2 comprises a supporting base 201, a supporting inclined plate 202, a connecting supporting plate 203, and an inner reinforcing frame 204;

wherein the supporting baseplate 201 is horizontally arranged and is used for being fixedly connected with the ground;

the supporting inclined plate 202 is obliquely arranged, the lower end of the supporting inclined plate 202 is fixedly connected with one end of the supporting bottom plate 201, and the rubber vibration reduction part 3 is paved on the top surface of the supporting inclined plate 202;

the connecting support plate 203 is connected between the high end of the supporting inclined plate 202 and the other end of the supporting bottom plate 201, and the connecting support plate 203 is connected with the top flat cable protection part 1 through the transitional connecting frame 5;

the inner reinforcing frames 204 are disposed in the inner space formed by the support base 201, the support sloping plate 202 and the connection support plate 203, and the inner reinforcing frames 204 are connected to the support base 201 and the support sloping plate 202 and are distributed at intervals in the length direction of the support base 201.

In this embodiment: the supporting bottom plate 201 is fixedly connected with the ground through bolts, and the supporting bottom plate 201, the supporting inclined plate 202 and the connecting supporting plate 203 are specifically connected to form a triangular structure; the top surface of the supporting sloping plate 202 is an inclined running surface, and provides a passage for running of the vehicle; the internal reinforcement 204 reinforces the stability of the support floor 201, the support sloping plate 202, and the connection support plate 203 after connection so that the inclined section support 2 has sufficient stability to support a running vehicle.

Wherein: two specific internal reinforcing frames 204 are arranged, wherein one internal reinforcing frame 204 is of a V-shaped structure, two ends of the V-shaped structure are welded and fixed with the supporting baseplate 201, and the vertex of the V-shaped structure is welded and fixed with the supporting sloping plate 202; the other internal reinforcing frame 204 is of a U-shaped structure, one end of the U-shaped structure is welded and fixed with the supporting inclined plate 202, and one section of the U-shaped structure, which is far away from the supporting inclined plate 202, is welded and fixed with the supporting bottom plate 201; the structural design of the two inner reinforcing frames 204 is reasonably laid out according to the space within the triangular structure to improve the structural strength of the inclined section support part 2.

The transition connecting frame 5 is also in a [ -shape, the transition connecting frame 5 and the semi-closed supporting frame 101 connected with the transition connecting frame are arranged away from each other and are also fixedly connected through bolts, the top connecting plate 103 connected with one semi-closed supporting frame 101 connected with the transition connecting frame 5 is also fixedly connected through bolts after extending to the top of the transition connecting frame 5, one end of the transition connecting frame 5 is fixedly welded with one end of the connecting supporting plate 203, and the other end of the transition connecting frame is fixedly welded with the other end of the connecting supporting plate 203 and one end of the supporting bottom plate 201.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (5)

1. An assembled shock absorbing rigid cable protection barrier device comprising:

the top surface of the top flat section cable protection part is a horizontal running surface, and a mounting hole for a power cable to pass through is formed in the middle of the top flat section cable protection part in a penetrating manner;

the two inclined section supporting parts are symmetrically arranged by taking the top flat section cable protecting parts as the center, the top surface of each top flat section cable protecting part is an inclined running surface, and the high end of the inclined running surface is connected with the horizontal running surface;

and the rubber vibration reduction parts are paved on the horizontal running surface and the two inclined running surfaces.

2. The assembled shock absorbing rigid cable protection barrier device of claim 1 wherein: the top flat section cable guard includes:

the flat section connecting units in the top are connected in sequence in a plurality of linear ways, the two inclined section supporting parts are connected with the flat section connecting units in the top at two ends in a one-to-one correspondence way, one mounting hole is formed in each flat section connecting unit in the top, and the rubber vibration reduction parts are paved on the top surface of the flat section connecting units.

3. The assembled shock absorbing rigid cable protection barrier device of claim 2 wherein: each of the top flat section connection units includes:

the semi-closed type supporting frame is provided with two semi-closed ends, the non-closed ends of the two semi-closed type supporting frames are oppositely arranged, the outer bottoms of the two semi-closed type supporting frames are fixedly connected through a bottom connecting plate, the outer tops of the two semi-closed type supporting frames are fixedly connected through a top connecting plate, the rubber vibration reduction parts are paved on the top surfaces of the connecting plates, and the installation holes are spaces formed between the two semi-closed type supporting frames.

4. A fabricated, shock absorbing, rigid cable protection barrier device as in claim 3, wherein: a fastening limiting piece is arranged between the two semi-closed supporting frames in a sliding manner along the vertical direction; after installation, the fastening limiting piece is pressed and fixed with the cable passing through the corresponding installation hole.

5. The assembled shock absorbing rigid cable protection barrier device of claim 1 wherein: each of the inclined section support portions includes:

the supporting bottom plate is horizontally arranged and is fixedly connected with the ground;

the support sloping plate is obliquely arranged, the lower end of the support sloping plate is fixedly connected with one end of the support base plate, and the rubber vibration reduction part is paved on the top surface of the support sloping plate;

the connecting support plate is connected between the high end of the support sloping plate and the other end of the support bottom plate, and is connected with the top flat section cable protection part through a transition connecting frame;

the inside enhancement frame, inside enhancement frame has a plurality ofly and is located the inner space that supporting baseplate, support swash plate and connection support plate formed, and a plurality of inside enhancement frames all link to each other and supporting baseplate length direction interval distribution with supporting baseplate and support swash plate.

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