CN220874164U - Cable bridge with metal net - Google Patents

Abstract

The utility model belongs to the technical field of cable bridges, and provides a metal mesh cable bridge, which comprises a net rack and a fixed frame. When the cable bridge is installed, the ends of two adjacent net racks are aligned, the bottom plate is arranged below the joint of the two net racks, the two side plates are arranged on two opposite sides of the two net racks, the clamping hooks on the two guide plates are hooked in net holes on the two net racks, and finally the two guide plates are driven to move relatively close to each other through the rotation of the first driving piece, so that the two net racks can be driven to move relatively close to each other and fixed on the bottom plate and the side plates through the clamping hooks, the length of the cable bridge can be adjusted according to actual conditions through connecting the net racks with different numbers, and the clamping and fixing of the two net racks can be canceled through driving the two guide plates to relatively move away from each other through the rotation of the first driving piece, so that the two adjacent net racks can be separated conveniently, the occupied space and weight of the device during carrying can be reduced, and the device can be carried conveniently.

Description

Cable bridge with metal net

Technical Field

The utility model relates to the technical field of cable bridges, in particular to a metal mesh cable bridge.

Background

The cable bridge supports and fixes the cable on a building (structure) through the self structural feature, or independently supports the cable to pass through tunnels or mountain holes, underground, air and the like, and mainly plays a role in supporting the cable. The cable bridge frame is divided into a groove type structure, a tray type structure, a ladder frame type structure, a grid type structure and the like, and consists of a bracket, a bracket arm, an installation accessory and the like.

The grid type cable bridge is formed by welding steel wires, and has good ventilation performance. Most of the existing grid type cable bridges are of integral structures, installation length is inconvenient to adjust according to actual conditions during installation, meanwhile, the integral structures occupy large space and are heavy, and carrying is inconvenient. Therefore, in order to solve the above technical problems, a metal mesh cable bridge is provided.

Disclosure of utility model

Aiming at the defects in the prior art, the utility model provides a metal net cable bridge frame, which is convenient for adjusting the installation length according to actual conditions and is convenient for moving and transporting.

A metal mesh cable bridge comprising:

A net rack;

Fixed frame, including bottom plate, curb plate and fixed subassembly, the bottom plate both ends all are connected with the curb plate, bottom plate and two sets of all be provided with on the curb plate fixed subassembly, fixed subassembly includes:

The two groups of guide plates are respectively provided with a mounting groove, the two groups of guide plates can be respectively arranged in the mounting grooves in a sliding manner along the length direction of the net rack, the two groups of guide plates are respectively provided with clamping hooks, and the clamping hooks can be hooked in net holes on the net rack;

The first driving piece is rotatably arranged in the mounting groove and connected with the two groups of guide plates, and the two groups of guide plates can be driven to move relatively close to or far away from each other by rotating the first driving piece.

The metal mesh cable bridge has the beneficial effects that:

When installing the cable bridge, at first the tip alignment of two sets of racks of adjacent, then make the bottom plate be in the below of two sets of rack junctions, two sets of curb plates are located two relative sides of two sets of racks, and the centre gripping hook that makes on the deflector of two sets of deflector is established in the net hole on two sets of racks, finally drive two sets of deflector relatively near removal through rotatory first driving piece, two sets of deflector relatively near removal can drive two sets of racks and relatively near removal and fix on bottom plate and curb plate through the centre gripping hook, thereby carry out the connection of two sets of racks, can adjust the length of cable bridge according to actual conditions through connecting different numbers of racks, and drive two sets of deflector relatively far away removal through rotatory first driving piece can cancel the centre gripping fixed of two sets of racks, thereby be convenient for separate two adjacent sets of racks, and then occupation space and weight when reducing the device is carried, the transport of device of being convenient for.

In one embodiment, the first driver comprises a bi-directional screw; the bidirectional screw rod is rotatably arranged in the mounting groove and is arranged along the length direction of the net rack, and two ends of the bidirectional screw rod are in threaded connection with two groups of guide plates.

In one embodiment, the inner side surface of the clamping hook is detachably provided with a rubber pad. Can avoid the centre gripping hook to lead to the fact extrusion damage to the rack through setting up the rubber pad, improve the life of rack.

In one embodiment, a plurality of groups of clamping grooves are formed in the inner side face of the clamping hook at intervals, a plurality of groups of clamping blocks are arranged on the rubber pad corresponding to the plurality of groups of clamping grooves, and the plurality of groups of clamping blocks can be clamped in the plurality of groups of clamping grooves. The rubber pad is connected with the clamping hooks in a clamping way, so that the rubber pad is convenient to install and detach, and the rubber pad of a wearing part is convenient to replace.

In one embodiment, the device further comprises an adjusting assembly, and two ends of the bottom plate are connected with the side plates through the adjusting assembly.

In one embodiment, the adjustment assembly includes two sets of guide rods and a second driver; two groups of guide grooves are formed in two ends of the bottom plate, one end of each guide rod is connected with the side plate, the other end of each guide rod can penetrate through the two groups of guide grooves in a sliding mode in the width direction of the net frame, the second driving piece can be arranged on the side plate in a rotating mode and connected with the bottom plate, and the second driving piece can drive the two groups of guide rods to slide. Make two sets of guide bars slide through rotating the second driving piece, the guide bar slides and can drive the curb plate and slide to adjust the interval between two sets of curb plates, be convenient for adjust according to the width of rack, the rack of different width is connected to the convenience, improves the practicality of device.

In one embodiment, the second drive member comprises an adjustment screw; the adjusting screw is rotatably arranged on the side plate and arranged along the width direction of the net rack, and one end of the adjusting screw is in threaded connection with the bottom plate.

In one embodiment, a limit chute communicated with the guide groove is formed in one side of the bottom plate, a limit slide block is arranged on the guide rod, and the limit slide block can be slidably clamped in the limit chute along the width direction of the net rack. When the guide rod slides, the guide rod drives the limiting sliding block to slide in the limiting sliding groove, and the limiting sliding groove can limit the limiting sliding groove, so that the guide rod is prevented from sliding in the guide groove.

Drawings

In order to more clearly illustrate the embodiments of the present utility model, the drawings that are required to be used in the embodiments will be briefly described. Throughout the drawings, the elements or portions are not necessarily drawn to actual scale.

Fig. 1 is a schematic perspective view of a metal mesh cable bridge according to an embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a fixing frame in the cable bridge with metal mesh shown in FIG. 1;

FIG. 3 is an exploded view of the securing assembly of the expanded metal cable tray shown in FIG. 1;

FIG. 4 is an enlarged schematic view of area A of FIG. 3;

Fig. 5 is an exploded view of the conditioning assembly of the expanded metal cable tray shown in fig. 1.

Reference numerals:

10. A net rack;

20. A fixed frame; 201. a bottom plate; 2011. a mounting groove; 2012. positioning a chute; 2013. a guide groove; 2014. limiting sliding grooves; 202. a side plate;

30. A fixing assembly; 301. a guide plate; 302. positioning a sliding block; 303. a bidirectional screw; 304. a clamping hook; 3041. a clamping groove;

40. A rubber pad; 401. a clamping block;

50. An adjustment assembly; 501. a limit sliding block; 502. a guide rod; 503. and adjusting the screw.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

Referring to fig. 1 to 4, a metal mesh cable bridge in an embodiment includes a net frame 10 and a fixing frame 20.

The fixing frame 20 includes a bottom plate 201, side plates 202 and fixing assemblies 30, two ends of the bottom plate 201 are connected with the side plates 202, and the bottom plate 201 and the two groups of side plates 202 are provided with the fixing assemblies 30. The fixing assembly 30 comprises two groups of guide plates 301, mounting grooves 2011 are formed in the bottom plate 201 and the side plates 202, the two groups of guide plates 301 can be respectively arranged in the mounting grooves 2011 in a sliding mode along the length direction of the net rack 10, hooks 304 are clamped on the two groups of guide plates 301, and the clamping hooks 304 can be hooked in net holes on the net rack 10; the first driving piece is rotatably arranged in the mounting groove 2011 and connected with the two groups of guide plates 301, and the first driving piece can be rotated to drive the two groups of guide plates 301 to move relatively close to or away from each other.

In the above embodiment, when installing the cable bridge, the ends of the two adjacent sets of racks 10 are aligned, then the bottom plate 201 is located below the connection position of the two sets of racks 10, the two sets of side plates 202 are located at two opposite sides of the two sets of racks 10, the clamping hooks 304 on the two sets of guide plates 301 are hooked in the holes on the two sets of racks 10, and finally the two sets of guide plates 301 are driven to move relatively close by rotating the first driving member, the two sets of guide plates 301 can be driven to move relatively close by the clamping hooks 304 and be fixed on the bottom plate 201 and the side plates 202, so that the two sets of racks 10 are connected, the length of the cable bridge can be adjusted according to the actual situation by connecting different numbers of racks 10, and the clamping fixation of the two sets of racks 10 can be canceled by rotating the first driving member to move relatively far away, thereby facilitating the separation of the two adjacent sets of racks 10, further reducing the occupied space and weight of the device during carrying, and facilitating the carrying of the device.

In the above embodiment, the two ends of the guide plate 301 are provided with the positioning sliding blocks 302, the side walls of the installation groove 2011 are provided with the positioning sliding grooves 2012 corresponding to the two sets of positioning sliding blocks 302, and the positioning sliding blocks 302 can be slidably clamped in the positioning sliding grooves 2012 along the length direction of the rack 10. The stability of the guide plate 301 during sliding can be improved by providing the cooperation of the positioning slide block 302 and the positioning slide groove 2012.

Further to the above embodiment, the first driving member includes a bi-directional screw 303. The bidirectional screw 303 is rotatably disposed in the mounting groove 2011 and disposed along the length direction of the net rack 10, and two ends of the bidirectional screw 303 are in threaded connection with the two sets of guide plates 301. The two groups of guide plates 301 can be driven to move relatively close by rotating the bidirectional screw 303 to be in threaded fit with the two groups of guide plates 301, the two groups of guide plates 301 can be driven to move relatively far away by reversely rotating the bidirectional screw 303 to be in threaded fit with the two groups of guide plates 301, and the two groups of guide plates 301 are driven to move relatively close to or far away from the guide plates.

Referring to fig. 3 and 4, in one embodiment, a rubber pad 40 is detachably disposed on an inner side of the clamping hook 304. Further, a plurality of groups of clamping grooves 3041 are formed in the inner side surface of the clamping hook 304 at intervals, a plurality of groups of clamping blocks 401 are arranged on the rubber pad 40 corresponding to the plurality of groups of clamping grooves 3041, and the plurality of groups of clamping blocks 401 can be clamped in the plurality of groups of clamping grooves 3041.

In the above embodiment, the rubber pad 40 can prevent the clamping hook 304 from damaging the rack 10 by extrusion, thereby prolonging the service life of the rack 10. The rubber pad 40 is connected with the clamping hooks 304 in a clamping way, so that the rubber pad 40 is convenient to mount and dismount, and the rubber pad 40 is convenient to replace a fragile part.

Referring to fig. 2 and 5, in one embodiment, the device further includes an adjusting assembly 50, and two ends of the bottom plate 201 are connected to the side plates 202 through the adjusting assembly 50. Specifically, the adjustment assembly 50 includes two sets of guide rods 502 and a second driver; two groups of guide grooves 2013 are formed in two ends of the bottom plate 201, one ends of the two groups of guide rods 502 are connected with the side plate 202, the other ends of the two groups of guide rods 502 can slide along the width direction of the net rack 10 and penetrate through the two groups of guide grooves 2013, the second driving piece can be rotatably arranged on the side plate 202 and connected with the bottom plate 201, and the two groups of guide rods 502 can be driven to slide by rotating the second driving piece.

Further, the second driver includes an adjusting screw 503. The adjusting screw 503 is rotatably disposed on the side plate 202 and is disposed along the width direction of the rack 10, and one end of the adjusting screw 503 is screwed with the bottom plate 201.

In the above embodiment, by rotating the adjusting screw 503, the adjusting screw 503 is rotationally matched with the bottom plate 201 in a threaded manner, so that the adjusting screw 503 can move along the width direction of the net rack 10, and the adjusting screw 503 can move along the width direction of the net rack 10, so that the side plates 202 can be driven to move along the width direction of the net rack 10, and the distance between the two groups of side plates 202 can be adjusted, so that the adjustment according to the width of the net rack 10 is facilitated, the net racks 10 with different widths can be conveniently connected, and the practicability of the device is improved.

On the basis of the above embodiment, further, a limit chute 2014 communicating with the guide slot 2013 is provided on one side of the bottom plate 201, a limit slider 501 is provided on the guide rod 502, and the limit slider 501 can be slidably clamped in the limit chute 2014 along the width direction of the rack 10.

In the above embodiment, when the adjusting screw 503 drives the side plate 202 to move along the width direction of the rack 10, the side plate 202 drives the guide rod 502 to slide along the guide groove 2013, the guide rod 502 slides to drive the limit slider 501 to slide along the limit chute 2014, and at this time, the limit chute 2014 can limit the limit slider 501, so as to avoid the guide rod 502 from sliding off the guide groove 2013 when the side plate 202 is moved.

The specific implementation mode of the metal mesh cable bridge frame is as follows:

According to the width of the net rack 10, the adjusting screw 503 is in threaded fit with the bottom plate 201 through rotation, so that the adjusting screw 503 drives the side plates 202 to move along the width direction of the net rack 10, the distance between the two groups of side plates 202 can be adjusted through movement of the side plates 202, and after the distance between the two groups of side plates 202 is adjusted, the distance between the two groups of side plates 202 can be fixed through stopping rotating the adjusting screw 503.

Then, the ends of the two adjacent net racks 10 are aligned, the bottom plate 201 is positioned below the joint of the two net racks 10, the two side plates 202 are positioned on two opposite sides of the two net racks 10, and the clamping hooks 304 on the two guide plates 301 are hooked in the net holes on the two net racks 10.

Finally, the two groups of guide plates 301 are moved relatively close to each other by rotating the bidirectional screw 303 to be in threaded fit with the two groups of guide plates 301, the two groups of guide plates 301 can be moved relatively close to each other by driving the two groups of net racks 10 to move relatively close to each other and be fixed on the bottom plate 201 and the side plate 202 through the clamping hooks 304, so that connection of the two groups of net racks 10 is performed, then the two groups of guide plates 301 can be fixed by stopping rotating the bidirectional screw 303, further, the two groups of net racks 10 are continuously clamped and fixed, and the length of the cable bridge can be adjusted according to actual conditions by connecting different numbers of net racks 10. The two groups of guide plates 301 can be driven to move relatively far away by reversely rotating the bidirectional screw 303 to be in threaded fit with the two groups of guide plates 301, so that clamping and fixing of the two groups of net racks 10 are canceled, the adjacent two groups of net racks 10 are separated conveniently, the occupied space and weight of the device during carrying are reduced, and the device is convenient to carry.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

Claims (8)

1. The metal mesh cable bridge frame is characterized by comprising:

a grid (10);

Fixed frame (20), including bottom plate (201), curb plate (202) and fixed subassembly (30), bottom plate (201) both ends all are connected with curb plate (202), bottom plate (201) and two sets of all be provided with on curb plate (202) fixed subassembly (30), fixed subassembly (30) include:

The two groups of guide plates (301), the bottom plate (201) and the side plates (202) are provided with mounting grooves (2011), the two groups of guide plates (301) can be respectively arranged in the mounting grooves (2011) in a sliding manner along the length direction of the net rack (10), the two groups of guide plates (301) are provided with clamping hooks (304), and the clamping hooks (304) can be hooked in net holes on the net rack (10);

The first driving piece is rotatably arranged in the mounting groove (2011) and connected with the two groups of guide plates (301), and the two groups of guide plates (301) can be driven to move relatively close to or away from by rotating the first driving piece.

2. The expanded metal cable bridge according to claim 1, wherein the first driving member comprises a bi-directional screw (303); the bidirectional screw (303) is rotatably arranged in the mounting groove (2011) and is arranged along the length direction of the net rack (10), and two ends of the bidirectional screw (303) are in threaded connection with two groups of guide plates (301).

3. The wire mesh cable bridge of claim 1, wherein the inner side of the clamping hooks (304) is detachably provided with rubber pads (40).

4. A metal mesh cable bridge frame according to claim 3, wherein a plurality of groups of clamping grooves (3041) are formed in the inner side surface of the clamping hook (304) at intervals, a plurality of groups of clamping blocks (401) are arranged on the rubber pad (40) corresponding to the plurality of groups of clamping grooves (3041), and the plurality of groups of clamping blocks (401) can be clamped in the plurality of groups of clamping grooves (3041).

5. The wire-mesh cable bridge of claim 1, further comprising an adjustment assembly (50), both ends of the bottom plate (201) being connected to the side plates (202) by the adjustment assembly (50).

6. The expanded metal cable tray according to claim 5, wherein the adjustment assembly (50) comprises two sets of guide bars (502) and a second driving member; two groups of guide grooves (2013) are formed in two ends of the bottom plate (201), one end of each guide rod (502) is connected with the side plate (202), the other end of each guide rod (502) can slide along the width direction of the net frame (10) and penetrate through the guide grooves (2013), the second driving piece can be rotatably arranged on the side plate (202) and connected with the bottom plate (201), and the second driving piece can drive the two groups of guide rods (502) to slide.

7. The expanded metal cable tray according to claim 6, wherein the second driving member comprises an adjusting screw (503); the adjusting screw (503) is rotatably arranged on the side plate (202) and is arranged along the width direction of the net rack (10), and one end of the adjusting screw (503) is in threaded connection with the bottom plate (201).

8. The metal mesh cable bridge frame according to claim 6, wherein a limit chute (2014) communicated with the guide groove (2013) is formed in one side of the bottom plate (201), a limit sliding block (501) is arranged on the guide rod (502), and the limit sliding block (501) can be slidably clamped in the limit chute (2014) along the width direction of the net frame (10).