CN207124428U - Energy-sving cable bridge support - Google Patents

Abstract

The utility model discloses a kind of energy-sving cable bridge support, including without cap-type crane span structure and cover plate；The no cap-type crane span structure is trench structure；The cover plate and the free end clamping of the no cap-type crane span structure two side；The fixing end of the no cap-type crane span structure two side is relative affixed with the both ends of the no cap-type crane span structure bottom wall respectively, and the bottom wall of the no cap-type crane span structure is provided with reinforcement structure.Energy-sving cable bridge support of the present utility model has steadiness and sealing, effectively protects cable, prevents cable from being influenceed by extraneous factor；The energy-sving cable bridge support is provided with interface arrangment, is easily installed；Because the energy-sving cable bridge support is provided with reinforcement structure, make cable testing bridge that there is the characteristics of high intensity and flexing resistance, can meet the needs of bearing capacity while reduce the thickness of the cable testing bridge wall, so as to reduce the use material of above-mentioned energy-sving cable bridge support, the cost of production and transportation is reduced, there is higher cost performance.

Description

Energy-sving cable bridge support

Technical field

Electrical equipment field is the utility model is related to, more particularly to a kind of cable testing bridge.

Background technology

Traditional cable crane span structure is generally formed by simple steel plate is affixed, independently can be erected in building, can also be set up On various buildings and piping lane support, the part of outdoor cable testing bridge need to carry out zinc-plated processing outside building, prevent Only cable testing bridge gets rusty.

Cable testing bridge be used for lay computer cable, communication cable, thermocouple cable, Highly Sensitive System control cable, Power cable, control cable, illumination distribution etc., are additionally operable to the laying in indoor and outdoor aerial cable ditch and tunnel, in protection cable While, make the winding displacement of cable neat and artistic, while be also convenient for inspection and maintenance in the future.

Due to needing to carry cable, the bearing strength of cable testing bridge there are certain requirements, it is greatly and long-term to reach bearing capacity Using indeformable effect, and traditional cable crane span structure is made up of Steel material, and steel need to reach certain thickness to meet to hold When carrying the demand of power, and reducing the thickness of steel product of cable testing bridge cell wall, bearing capacity does not reach requirements, so traditional cable bridge Frame is more heavy, adds cost of transportation and installation difficulty.

Utility model content

Main purpose of the present utility model is provides a kind of energy-sving cable bridge support, to solve to reduce electric cable bridge trough wall thickness Afterwards the problem of Lack of support.

In order to realize that foregoing invention purpose, the utility model propose a kind of energy-sving cable bridge support in implementing, including without cap-type Crane span structure and cover plate；

Above-mentioned no cap-type crane span structure is trench structure；

Above-mentioned cover plate and the free end clamping of above-mentioned no cap-type crane span structure two side；

The fixing end of above-mentioned no cap-type crane span structure two side is relative affixed with the both ends of above-mentioned no cap-type crane span structure bottom wall respectively, and The bottom wall of above-mentioned no cap-type crane span structure is provided with reinforcement structure.

Further, in above-mentioned energy-sving cable bridge support, the opposite end of above-mentioned cover plate is provided with shackle member, and above-mentioned cover plate Pass through above-mentioned shackle member and above-mentioned no cap-type crane span structure clamping.

Further, in above-mentioned energy-sving cable bridge support, the access section of above-mentioned no cap-type crane span structure is provided with the first buckling groove.

Further, in above-mentioned energy-sving cable bridge support, above-mentioned reinforcement structure includes reinforcement and rib, above-mentioned to add Strengthening tendons includes two, and above-mentioned no cap-type crane span structure bottom wall is affixed by the two side of above-mentioned reinforcement and above-mentioned no cap-type crane span structure；

Above-mentioned no cap-type crane span structure bottom wall is provided with multiple ribs, and above-mentioned rib is along the no cap-type crane span structure bottom wall Axis equidistant arrangement.

Further, in above-mentioned energy-sving cable bridge support, in addition to connector, above-mentioned connector include link slot, support Plate and shell fragment；

The both ends of above-mentioned link slot are respectively equipped with above-mentioned supporting plate, and the bottom wall of above-mentioned supporting plate and above-mentioned link slot is affixed；

The relative roof for being located at above-mentioned supporting plate of above-mentioned shell fragment, and the fixing end of above-mentioned shell fragment be fixedly arranged on above-mentioned supporting plate with it is above-mentioned The junction of link slot；

Above-mentioned connector cooperated by above-mentioned supporting plate and above-mentioned shell fragment and with above-mentioned no cap-type crane span structure clamping.

Further, in above-mentioned energy-sving cable bridge support, the free end of above-mentioned connector two side is provided with the second clamping Groove, and above-mentioned connector passes through above-mentioned second buckling groove and above-mentioned cover plate clamping.

Further, in above-mentioned energy-sving cable bridge support, in addition to connector, the two side difference phase of above-mentioned connector To provided with the first connecting hole, and at least provided with four above-mentioned first connecting holes in the side wall of every piece of above-mentioned connector；

The two side of above-mentioned no cap-type crane span structure is relative respectively to be provided with the second connecting hole, and the side of every piece of above-mentioned no cap-type crane span structure At least provided with four above-mentioned second connecting holes on wall；

Above-mentioned connector cooperates with above-mentioned first connecting hole, and above-mentioned connector and above-mentioned second connecting hole phase interworking Close.

Further, in above-mentioned energy-sving cable bridge support, the two side of above-mentioned no cap-type crane span structure is relative respectively to be provided with the One ground hole, and the side wall of every piece of above-mentioned no cap-type crane span structure is at least provided with the ground hole of above-mentioned two first.

Further, in above-mentioned energy-sving cable bridge support, the two side of above-mentioned connector is relative respectively to be connect provided with second Ground hole, and the side wall of every piece of above-mentioned connector is at least provided with two above-mentioned second ground holes.

Further, in above-mentioned energy-sving cable bridge support, the two side of above-mentioned connector is relative respectively to be provided with lockhole.

The beneficial effects of the utility model are：Without on the first buckling groove and connector side wall in cap-type crane span structure side wall Two buckling grooves all have the function that side wall strength where strengthening, and no cap-type crane span structure bottom wall is provided with reinforcement structure, reinforcement structure bag Reinforcement and rib are included, reinforcement and rib have the function that to strengthen without cap-type crane span structure bottom wall intensity, strengthen cable bridge The bearing capacity and flexing resistance of frame, cable testing bridge is met the needs of bearing capacity while reduce the thickness of cable testing bridge wall, so as to That reduces cable testing bridge uses material, reduces the cost of production and transportation, has higher cost performance；Cover plate passes through shackle member energy Respectively with without cap-type crane span structure and connector clamping, being easily installed, adding steadiness and sealing, effectively protect cable, prevent Only cable is influenceed by extraneous factor；Connector is by supporting plate and shell fragment with passing through connector without cap-type crane span structure clamping, connector It is connected with without cap-type crane span structure, enhances the steadiness of cable testing bridge installation.

Brief description of the drawings

Fig. 1 is the structural representation of the energy-sving cable bridge support of the embodiment of the utility model one；

Fig. 2 is connector, connector and the combination without cap-type crane span structure for the energy-sving cable bridge support that the utility model one is implemented Status architecture schematic diagram.

1st, without cap-type crane span structure；2nd, cover plate；3rd, shackle member；4th, the first buckling groove；5th, reinforcement；6th, rib；7th, connector； 8th, link slot；9th, supporting plate；10th, shell fragment；11st, the second buckling groove；12nd, connector；13rd, the first connecting hole；14th, the second connecting hole； 15th, the first ground hole；16th, the second ground hole；17th, lockhole.

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than all Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belong to the scope of the utility model protection.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining relative position relation under a certain particular pose (as shown in drawings) between each part, motion conditions etc., such as When the fruit particular pose changes, then directionality instruction also correspondingly changes therewith, and described connection can directly be connected Connect or be indirectly connected with.

In addition, the description for being related to " first ", " second " etc. in the utility model is only used for describing purpose, without being understood that To indicate or implying its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", At least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the technical side between each embodiment Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical scheme Occur conflicting or will be understood that the combination of this technical scheme is not present when can not realize, also not in the requires of the utility model Protection domain within.

With reference to figure 1, a kind of energy-sving cable bridge support, above-mentioned energy-sving cable bridge support bag are proposed in the embodiment of the utility model one Include no cap-type crane span structure 1 and cover plate 2；Above-mentioned no cap-type crane span structure 1 is trench structure；Above-mentioned cover plate 2 and the above-mentioned no both sides of cap-type crane span structure 1 The free end clamping of wall；The fixing end of the above-mentioned no two side of the cap-type crane span structure 1 both ends phase with the above-mentioned no bottom wall of cap-type crane span structure 1 respectively To affixed, and the bottom wall of above-mentioned no cap-type crane span structure 1 is provided with reinforcement structure, and the above-mentioned no He of cap-type crane span structure 1 is combined by interface arrangment Above-mentioned cover plate 2, adds steadiness and sealing, effectively protects the cable in above-mentioned energy-sving cable bridge support；Above-mentioned no cap-type The reinforcement structure of the bottom wall of crane span structure 1 strengthens the intensity and flexing resistance of the above-mentioned no bottom wall of cap-type crane span structure 1.

In the present embodiment, in above-mentioned energy-sving cable bridge support, the opposite end of above-mentioned cover plate 2 is provided with shackle member 3, and on Cover plate 2 is stated by above-mentioned shackle member 3 and the above-mentioned no clamping of cap-type crane span structure 1, the above-mentioned no He of cap-type crane span structure 1 is combined by interface arrangment Above-mentioned cover plate 2, adds steadiness and sealing, effectively protects the cable in above-mentioned energy-sving cable bridge support.

In the present embodiment, in above-mentioned energy-sving cable bridge support, the access section of above-mentioned no cap-type crane span structure 1 is provided with the first card Access slot 4, the shackle member 3 of above-mentioned first buckling groove 4 and above-mentioned cover plate cooperate, further increase steadiness, strengthen simultaneously The intensity of the above-mentioned no side wall of cap-type crane span structure 1, makes it not flexible.

In the present embodiment, in above-mentioned energy-sving cable bridge support, above-mentioned reinforcement structure includes reinforcement 5 and rib 6, Above-mentioned reinforcement 5 includes two, and the above-mentioned no bottom wall of cap-type crane span structure 1 pass through above-mentioned reinforcement 5 and above-mentioned no cap-type crane span structure 1 two Side wall is affixed；The above-mentioned no bottom wall of cap-type crane span structure 1 is provided with multiple above-mentioned ribs 6, and above-mentioned rib 6 is along above-mentioned no cap-type crane span structure The axis equidistant arrangement of 1 bottom wall, above-mentioned reinforcement 5 and above-mentioned rib 6 significantly strengthen above-mentioned no cap-type crane span structure bottom wall Intensity and flexing resistance, make above-mentioned no cap-type crane span structure that there is bigger bearing capacity.

In the present embodiment, in above-mentioned energy-sving cable bridge support, in addition to connector 7, above-mentioned connector 7 include connection Groove 8, supporting plate 9 and shell fragment 10；The both ends of above-mentioned link slot 8 are respectively equipped with above-mentioned supporting plate 9, and above-mentioned supporting plate 9 and above-mentioned link slot 8 Bottom wall it is affixed；The relative roof for being located at above-mentioned supporting plate 9 of above-mentioned shell fragment 10, and the fixing end of above-mentioned shell fragment 10 is fixedly arranged on above-mentioned support The junction of plate 9 and above-mentioned link slot 8；Above-mentioned connector 7 cooperated by above-mentioned supporting plate 9 and above-mentioned shell fragment 10 and with it is above-mentioned Without the clamping of cap-type crane span structure 1, above-mentioned connector 7 presss from both sides the bottom of steady above-mentioned no cap-type crane span structure 1 by above-mentioned supporting plate 9 and above-mentioned shell fragment 10 Wall, increase the stability that above-mentioned connector 7 is connected with above-mentioned no cap-type crane span structure 1.

In the present embodiment, in above-mentioned energy-sving cable bridge support, the free end of the above-mentioned two side of connector 7 is provided with second Buckling groove 11, and above-mentioned connector 7 is by above-mentioned second buckling groove 11 and the above-mentioned clamping of cover plate 2, it is convenient to combine above-mentioned connector 7 With above-mentioned cover plate 2, the steadiness and sealing of above-mentioned energy-sving cable bridge support are added, while also strengthens the above-mentioned side of connector 7 The intensity of wall.

Reference picture 2, in the present embodiment, in above-mentioned energy-sving cable bridge support, in addition to connector 12, above-mentioned connector 7 two side is relative respectively to be provided with the first connecting hole 13, and at least provided with four above-mentioned the in the side wall of every piece of above-mentioned connector 7 One connecting hole 13；The two side of above-mentioned no cap-type crane span structure 1 is relative respectively to be provided with the second connecting hole 14, and every piece of above-mentioned no cap-type bridge At least provided with four above-mentioned second connecting holes 14 in the side wall of frame 1；Above-mentioned connector 12 and the above-mentioned phase interworking of first connecting hole 13 Close, and above-mentioned connector 12 cooperates with above-mentioned second connecting hole 14, further strengthens above-mentioned connector 7 and above-mentioned no cap-type The steadiness that crane span structure 1 connects.

In the present embodiment, in above-mentioned energy-sving cable bridge support, the two side of above-mentioned no cap-type crane span structure 1 is relative respectively to be set There is the first ground hole 15, and the side wall of every piece of above-mentioned no cap-type crane span structure 1 is at least provided with two above-mentioned first ground holes 15, above-mentioned One ground hole 15 is generally used for being grounded, and prevents from leaking electricity, and increases the security of above-mentioned no cap-type crane span structure 1.

In the present embodiment, in above-mentioned energy-sving cable bridge support, the two side of above-mentioned connector 7 is relative respectively to be provided with the Two ground holes 16, and the side wall of every piece of above-mentioned connector 7 is at least provided with two above-mentioned second ground holes 16, above-mentioned second ground hole 16 are generally used for being grounded, and prevent from leaking electricity, and increase the security of above-mentioned connector 7.

In the present embodiment, in above-mentioned energy-sving cable bridge support, the two side of above-mentioned connector 7 is relative respectively to be provided with lock Hole 17, when the energy-sving cable bridge support width of selection is more than or equal to 400mm, cover plate 2 typically passes through seven word padlocks and the phase of lockhole 17 Mutually coordinate and fixed with the screw of connector 7, haveed the function that firm.

Energy-sving cable bridge support of the present utility model has the beneficial effect that：Above-mentioned first in the above-mentioned no side wall of cap-type crane span structure 1 Above-mentioned second buckling groove 11 on buckling groove 4 and the side wall of above-mentioned connector 7 all has the function that side wall strength where strengthening, above-mentioned Reinforcement structure is provided with without the bottom wall of cap-type crane span structure 1, above-mentioned reinforcement structure includes above-mentioned reinforcement 5 and above-mentioned rib 6, above-mentioned to add Strengthening tendons 5 and above-mentioned rib 6 have the function that the above-mentioned no bottom wall intensity of cap-type crane span structure 1 of reinforcement, strengthen above-mentioned energy-saving cable bridge The bearing capacity and flexing resistance of frame, above-mentioned energy-sving cable bridge support is met the needs of bearing capacity while reduce above-mentioned energy-saving cable bridge The thickness of frame wall, so as to reduce the cost for using material, reducing production and transportation of above-mentioned energy-sving cable bridge support, have higher Cost performance；Above-mentioned cover plate 2 can be easy to by above-mentioned shackle member 1 respectively with above-mentioned no cap-type crane span structure 6 and the clamping of above-mentioned connector 7 Installation, adds steadiness and sealing, effectively protects cable, prevent cable from being influenceed by extraneous factor；Above-mentioned connector 7 By above-mentioned supporting plate 9 and above-mentioned shell fragment 10 and the above-mentioned no clamping of cap-type crane span structure 1, above-mentioned connector 7 by above-mentioned connector 12 with Above-mentioned no cap-type crane span structure 1 connects, and enhances the steadiness of above-mentioned energy-sving cable bridge support installation.

Preferred embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, Every equivalent structure made using the utility model specification and accompanying drawing content or equivalent flow conversion, or directly or indirectly fortune Used in other related technical areas, similarly it is included in scope of patent protection of the present utility model.

Claims (10)

1. a kind of energy-sving cable bridge support, it is characterised in that including without cap-type crane span structure and cover plate；

The no cap-type crane span structure is trench structure；

The cover plate and the free end clamping of the no cap-type crane span structure two side；

The fixing end of the no cap-type crane span structure two side is relative affixed and described with the both ends of the no cap-type crane span structure bottom wall respectively Bottom wall without cap-type crane span structure is provided with reinforcement structure.

2. energy-sving cable bridge support according to claim 1, it is characterised in that the opposite end of the cover plate is provided with shackle member, And the cover plate passes through the shackle member and the no cap-type crane span structure clamping.

3. energy-sving cable bridge support according to claim 1, it is characterised in that the access section of the no cap-type crane span structure is provided with the One buckling groove.

4. energy-sving cable bridge support according to claim 1, it is characterised in that the reinforcement structure includes reinforcement and reinforcement Portion, the reinforcement include two, and the no cap-type crane span structure bottom wall pass through the reinforcement and the no cap-type crane span structure two Side wall is affixed；

The no cap-type crane span structure bottom wall is provided with multiple ribs, and axle of the rib along the no cap-type crane span structure bottom wall Line equidistant arrangement.

5. energy-sving cable bridge support according to claim 1, it is characterised in that also include including connector, the connector Link slot, supporting plate and shell fragment；

The both ends of the link slot are respectively equipped with the supporting plate, and the bottom wall of the supporting plate and the link slot is affixed；

The relative roof for being located at the supporting plate of the shell fragment, and the fixing end of the shell fragment is fixedly arranged on the supporting plate and the connection The junction of groove；

The connector cooperated by the supporting plate and the shell fragment and with the no cap-type crane span structure clamping.

6. energy-sving cable bridge support according to claim 5, it is characterised in that the free end of the connector two side is provided with Second buckling groove, and the connector passes through second buckling groove and the cover plate clamping.

7. energy-sving cable bridge support according to claim 5, it is characterised in that also including connector, the two of the connector Side wall is relative respectively to be provided with the first connecting hole, and at least provided with four first connections in the side wall of every piece of connector Hole；

The two side of the no cap-type crane span structure is relative respectively to be provided with the second connecting hole, and in the side wall of every piece of no cap-type crane span structure At least provided with four second connecting holes；

The connector cooperates with first connecting hole, and the connector cooperates with second connecting hole.

8. energy-sving cable bridge support according to claim 1, it is characterised in that the two side difference phase of the no cap-type crane span structure To provided with the first ground hole, and the side wall of every piece of no cap-type crane span structure is at least provided with two first ground holes.

9. energy-sving cable bridge support according to claim 5, it is characterised in that the two side of the connector is relative respectively to be set There is the second ground hole, and the side wall of every piece of connector is at least provided with two second ground holes.

10. energy-sving cable bridge support according to claim 5, it is characterised in that the two side of the connector is relative respectively Provided with lockhole.