CN219436514U - Cable laying bracket - Google Patents

Abstract

The utility model provides a cable laying bracket, and relates to the field of construction equipment. The cable laying bracket is used for supporting the disc member and comprises a supporting component, a rotating shaft and a lifting component, wherein the lifting component is arranged on the supporting component and comprises a bearing plane, and the lifting component can extend or retract along the gravity direction so as to enable the bearing plane to move along the gravity direction; the rotating shaft penetrates through the disc member so that the disc member can rotate around the rotating shaft, and the rotating shaft is arranged on the bearing plane. The cable laying support can solve the problems that installation of a cable drum of existing laying equipment is inconvenient and application scenes of the laying equipment are single.

Description

Cable laying bracket

Technical Field

The application relates to the field of construction equipment, in particular to a cable laying support.

Background

The cable laying is a basic project in construction, is the most important working part in the construction process of electric, instrument and power engineering, the speed of the cable laying construction directly influences the construction progress of the whole engineering, the cable laying can be carried out manually, but the cable winding and unwinding are inconvenient when the cable is laid manually, the construction labor intensity is high, the construction time period is long, the construction efficiency of the cable laying is low, and the normal production of the project is influenced.

In order to improve the efficiency of cable laying, constructor begins to use the cable drum and carries out the receive and releases of cable with the cabling equipment that the cable drum cooperation was used, and cabling equipment generally includes support and rotation axis specifically, and the cable winding is on the cable drum, is provided with the fixed knot who is used for bearing rotation axis on the support, at the in-process of using, generally penetrates the cable drum with the rotation axis earlier, later constructor lifts up the cable drum to with the rotation axis by the bearing on fixed establishment, make the cable drum unsettled. The cable drum can then be rotated to effect retraction of the cable. However, the cable drum has a large mass and is relatively inconvenient to mount on the support. Meanwhile, as the position of the fixing structure is fixed, when the radius of the cable drum is larger than the distance between the fixing structure and the ground, the rotating shaft cannot be placed on the fixing structure, and the cable drum cannot be suspended more, so that the application scene of the laying equipment is single.

Disclosure of Invention

In view of this, this application provides a cable laying support to solve the comparatively inconvenient and comparatively single problem of laying equipment application scenario of cable drum installation of current laying equipment.

The utility model provides a cable laying support, cable laying support is used for supporting disk member, cable laying support includes supporting component, rotation axis and lifting unit, lifting unit set up in supporting component, lifting unit includes the bearing plane, lifting unit can follow the direction of gravity extension or shrink, so that the bearing plane is followed the direction of gravity removes;

the rotating shaft penetrates through the disc member so that the disc member can rotate around the rotating shaft, and the rotating shaft is arranged on the bearing plane.

Preferably, the lifting assembly comprises a fixing part, a telescopic part and a bearing part, the bearing part comprises a bearing plane, the fixing part is fixed on the supporting assembly, one end of the telescopic part is connected with the fixing part, the other end of the telescopic part is connected with the bearing part, and the telescopic part can extend along the gravity direction.

Preferably, the support assembly comprises a support portion extending in the direction of gravity, and the lifting assembly further comprises a connecting member, the fixing portion being connected with the connecting member, the connecting member being connectable with the support portion at different positions in the direction of gravity.

Preferably, the support portion includes a plurality of mounting holes, the plurality of mounting holes are disposed at intervals along the gravity direction, and the connecting piece is disposed through one of the plurality of mounting holes.

Preferably, the number of the supporting parts and the number of the connecting pieces are two, the two supporting parts are arranged at intervals, and two ends of the fixing part are connected with the two supporting parts through the two connecting pieces respectively.

Preferably, the bearing part comprises a bearing part and a sliding part, the sliding part is connected with the bearing part, the bearing part is contacted with the end part of the telescopic part, and the sliding part is in sliding connection with the supporting component.

Preferably, the support assembly further includes a first mounting portion and a second mounting portion, and both ends of the support portion in the gravity direction are connected to the first mounting portion and the second mounting portion, respectively.

Preferably, the telescopic part is a jack.

Preferably, the lifting assembly further comprises a fixing groove, the fixing groove is fixed on the bearing plane, and a part of the rotating shaft is arranged in the fixing groove.

Preferably, the number of the supporting components and the number of the lifting components are two;

the two supporting components are arranged at intervals, the two lifting components are respectively fixed on the two supporting components, and two ends of the rotating shaft are respectively arranged on bearing planes included by the two lifting components.

The cable laying support of this application, in the in-process of using, with the bearing plane setting of lifting means in the below of rotation axis, later lifting means extension can make the rotation axis of placing on the bearing plane upwards move, and then makes the disk member of installing on the rotation axis upwards move, and at this moment, disk member is unsettled, and disk member can rotate around the rotation axis to realize the receive and releases of the cable of winding on disk member. When installing the cable laying support at this application with the dish component, need not the manual work and lift up the dish component, reduced the installation degree of difficulty of dish component.

In addition, the lifting assembly can shrink or extend along the gravity direction to make the bearing plane move along the gravity direction, the distance between the bearing plane and the ground can be adjusted at this time, and this makes cable laying support applicable to the disk member of different radiuses, has promoted the application scenario of cable laying support.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a side view of a cabling rack of an embodiment of the present utility model;

FIG. 2 shows a top view of a cabling rack of an embodiment of the present utility model;

fig. 3 shows a cross-sectional view taken along A-A' in fig. 1.

Icon: 1-a support assembly; 11-a support; 111-mounting holes; 12-a first mounting portion; 121-a frame; 122-reinforcement; 13-a second mounting portion; 14-a stabilizing section; 2-a lifting assembly; 21-a fixing part; 211-engagement members; 212-a moving member; 22-telescoping part; 23-a supporting part; 231-a support; 232-a slider; 24-a fixed groove; 3-a rotation axis.

Detailed Description

The following detailed description is provided to assist the reader in obtaining a thorough understanding of the methods, apparatus, and/or systems described herein. However, various changes, modifications, and equivalents of the methods, apparatuses, and/or systems described herein will be apparent after an understanding of the present disclosure. For example, the order of operations described herein is merely an example, and is not limited to the order set forth herein, but rather, obvious variations may be made upon an understanding of the present disclosure, other than operations that must occur in a specific order. In addition, descriptions of features known in the art may be omitted for the sake of clarity and conciseness.

The features described herein may be embodied in different forms and should not be construed as limited to the examples described herein. Rather, the examples described herein have been provided solely to illustrate some of the many possible ways of implementing the methods, devices, and/or systems described herein that will be apparent after a review of the disclosure of the present application.

In the entire specification, when an element (such as a layer, region or substrate) is described as being "on", "connected to", "bonded to", "over" or "covering" another element, it may be directly "on", "connected to", "bonded to", "over" or "covering" another element or there may be one or more other elements interposed therebetween. In contrast, when an element is referred to as being "directly on," directly connected to, "or" directly coupled to, "another element, directly on," or "directly covering" the other element, there may be no other element intervening therebetween.

As used herein, the term "and/or" includes any one of the listed items of interest and any combination of any two or more.

Although terms such as "first," "second," and "third" may be used herein to describe various elements, components, regions, layers or sections, these elements, components, regions, layers or sections should not be limited by these terms. Rather, these terms are only used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first member, component, region, layer or section discussed in examples described herein could also be termed a second member, component, region, layer or section without departing from the teachings of the examples.

For ease of description, spatially relative terms such as "above … …," "upper," "below … …," and "lower" may be used herein to describe one element's relationship to another element as illustrated in the figures. Such spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "upper" relative to another element would then be oriented "below" or "lower" relative to the other element. Thus, the term "above … …" includes both orientations "above … …" and "below … …" depending on the spatial orientation of the device. The device may also be otherwise positioned (e.g., rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

The terminology used herein is for the purpose of describing various examples only and is not intended to be limiting of the disclosure. Singular forms also are intended to include plural forms unless the context clearly indicates otherwise. The terms "comprises," "comprising," and "having" are intended to specify the presence of stated features, integers, operations, elements, and/or groups thereof, but do not preclude the presence or addition of one or more other features, integers, operations, elements, and/or groups thereof.

Variations from the shapes of the illustrations as a result, of manufacturing techniques and/or tolerances, are to be expected. Accordingly, the examples described herein are not limited to the particular shapes shown in the drawings, but include changes in shapes that occur during manufacture.

The features of the examples described herein may be combined in various ways that will be apparent after an understanding of the disclosure of the present application. Further, while the examples described herein have a variety of configurations, other configurations are possible as will be apparent after an understanding of the present disclosure.

As shown in fig. 1 to 3, the present application provides a cable laying support, the cable laying support is used for supporting a disc member, the cable laying support includes a support component 1, a rotating shaft 3 and a lifting component 2, the lifting component 2 is disposed on the support component 1, the lifting component 2 can be elongated or stretched along the gravity direction, and the lifting component 2 includes a bearing plane; the rotation shaft 3 is provided through the disk member so that the disk member can rotate around the rotation shaft 3, and the rotation shaft 3 is provided on the support plane.

In the use, with the bearing plane setting of lifting means 2 in the below of rotation axis 3, afterwards lifting means 2 extends, can make the rotation axis 3 of placing on the bearing plane upwards remove, and then makes the disk member of installing on rotation axis 3 upwards remove, and at this moment, disk member is unsettled, and disk member can rotate around rotation axis 3 to realize the receive and releases of the cable of winding on disk member. When installing the cable laying support at this application with the dish component, need not the manual work and lift up the dish component, reduced the installation degree of difficulty of dish component.

In addition, the lifting assembly 2 can be contracted or elongated in the gravity direction so that the bearing plane moves in the gravity direction, and the distance between the bearing plane and the ground can be adjusted at this time, so that the cable laying bracket can be suitable for disc members with different radiuses, and the application scene of the cable laying bracket is lifted.

Alternatively, the disc member is cylindrical, a circle of groove is formed in the circumferential direction of the disc member, the cable can be wound on the groove, a connecting hole is formed in the center of the disc member, the rotating shaft 3 can be arranged in the connecting hole in a penetrating manner, and the disc member can be a cable drum or the like.

In addition, compare in manual work receive and releases the cable, the cable of this application lays the support and can reduce constructor's work load, shortens the engineering time, and then has improved productivity, has reduced constructor's intensity of labour.

Further, the cabling rack may be mated with a cable conveyor (e.g., a GSS-6 type cable conveyor) and a cable payout pulley to perform the entire cabling process.

Alternatively, the rotation shaft 3 is a steel pipe.

As shown in fig. 1, the lifting unit 2 includes a fixing portion 21, a telescopic portion 22, and a supporting portion 23, where the fixing portion 21, the telescopic portion 22, and the supporting portion 23 are sequentially disposed from bottom to top, the supporting portion 23 includes a supporting plane (upper plane), the fixing portion 21 is fixed to the supporting unit 1, one end of the telescopic portion 22 is connected to the fixing portion 21, the other end of the telescopic portion 22 is connected to the supporting portion 23, and the telescopic portion 22 can be contracted or extended along the gravity direction. In this way, in the process of using the cable laying bracket, the telescopic part 22 can be firstly contracted to be shortest, so that the bearing plane is positioned below the rotating shaft 3, then the rotating shaft 3 is contacted by the extension of the telescopic part 22, and then the telescopic part 22 continues to extend, and the rotating shaft 3 and the disc member are lifted, so that the disc member is suspended.

As shown in fig. 1, the support assembly 1 includes a support portion 11, the support portion 11 extends in the direction of gravity, and the lifting assembly 2 further includes a connection member (not shown in fig. 1) to which the fixing portion 21 is connected, the connection member being connected to the support portion 11 at different positions in the direction of gravity. So, the supporting component 1 can be connected with the supporting part 11 at different positions in the gravity direction, and this is to make the installation height of whole supporting component 1 can be adjusted, and the distance between bearing plane and the ground can be further adjusted, so, further richened the application scenario of cable laying support.

Alternatively, the supporting part 11 includes a plurality of mounting holes 111, the plurality of mounting holes 111 are spaced apart in a gravitational direction, and the connection member is inserted into one of the plurality of mounting holes 111. The fixing portion 21 is located above the connecting member and abuts against the connecting member to achieve connection of the fixing portion 21 and the connecting member. Thus, the connecting member is mounted in different mounting holes 111, so that the connecting member and the supporting portion 11 can be connected at different positions in the gravity direction.

Further, the number of the supporting parts 11 and the number of the connecting pieces are two, the two supporting parts 11 are arranged at intervals, and two ends of the fixing part 21 are respectively connected with the two supporting parts 11 through the two connecting pieces.

In the embodiment of the present application, the supporting portion 11 may be a steel pipe, and the connecting member is a pin.

As shown in fig. 1, the supporting part 23 includes a supporting member 231 and a sliding member 232, the sliding member 232 is connected with the supporting part 23, the supporting part 23 is in contact with an end of the telescopic part 22, and the sliding member 232 is slidably connected with the supporting part 11 of the supporting assembly 1, so that the supporting part 11 can guide the movement of the supporting part 23.

Further, the number of the sliding members 232 is two, the two sliding members 232 are respectively fixed at two ends of the supporting member 231, and the two sliding members 232 are respectively slidably connected with the two supporting portions 11. The supporting member 231 may be i-steel, the sliding member 232 may be a steel pipe, the diameter of the sliding member 232 is larger than that of the supporting portion 11, and the sliding member 232 may be fixed to the supporting member 231 by welding.

Optionally, the cable laying bracket further includes an adaptor portion, which may be inserted into the mounting hole 111 and located below the sliding member 232 of the supporting portion 23, so that the position of the supporting portion 23 may be adjusted, and the adaptor portion may be a pin.

In the embodiment of the present application, the fixing portion 21 includes a connecting member 211 and two moving members 212, the two moving members 212 are respectively fixed at two ends of the connecting member 211, the two moving members 212 are respectively slidably connected with the two supporting portions 11, the lower ends of the two moving members 212 are respectively abutted with the two connecting members, and the telescopic portion 22 is fixed on the connecting member 211.

Alternatively, the engagement member 211 may be an i-steel, the moving member 212 may be a steel pipe, the diameter of the moving member 212 is larger than that of the supporting portion 11, and the sliding member 232 may be fixed to the engagement member 211 by welding.

Preferably, the telescopic portion 22 may be a jack (e.g. a screw jack, etc.), and the position of the supporting portion 23, and thus the height of the supporting plane, may be adjusted by telescoping the jack.

In the embodiment of the application, the lifting assembly 2 further comprises a fixing groove 24, the fixing groove 24 is fixed on the bearing plane, and the part of the rotating shaft 3 is arranged in the fixing groove 24, so that the stability of fixing the rotating shaft 3 can be ensured. Alternatively, the fixing groove 24 may be a channel steel.

As shown in fig. 1 to 3, the support assembly 1 further includes a first mounting portion 12 and a second mounting portion 13, the lower end of the support portion 11 is connected to the first mounting portion 12, and the upper end of the support portion 11 is connected to the second mounting portion 13. The first mounting portion 12 includes a frame 121 and two reinforcing portions 122, the frame 121 may be a hexagon formed by welding angle steel, two ends of the reinforcing portions 122 are welded with two angle steel parallel to each other of the frame 121, and the reinforcing portions 122 may be channel steel. The second mounting portion 13 may be a channel steel, and the upper ends of the two supporting portions 11 are welded to the second mounting portion 13.

As shown in fig. 1 and 2, the support assembly 1 further includes four stabilizing portions 14, one end of each stabilizing portion 14 is connected with the first mounting portion 12, the other end is connected with the frame 121 of the second mounting portion 13, and the stabilizing portions 14 are obliquely arranged, so that the overall stability of the support assembly 1 can be improved, and the stabilizing portions 14 can be steel pipes.

Further, the number of the supporting components 1 and the number of the lifting components 2 are two; the two supporting components 1 are arranged at intervals, the two lifting components 2 are respectively fixed on the two supporting components 1, and two ends of the rotating shaft 3 are respectively arranged on bearing planes included by the two lifting components 2.

When the cable laying support of the application is used for cable winding and unwinding, the cable is wound on the disc member, and the using process is as follows:

1. inserting the rotation shaft 3 into the center of the disk member;

2. placing two support assemblies 1 of the cable laying bracket at both ends of the disc member, respectively;

3. moving the bearing part 23 to the lower part of the rotating shaft 3, attaching the bearing part 23 to the lower part of the rotating shaft 3, and then inserting the joint part into the first mounting hole 111 below the bearing part 23;

4. the telescopic part 22 is adjusted to the shortest length (the jack is in a state of contracting to the shortest length), then the telescopic part 22 is placed on the fixed part 21, and the position of the fixed part 21 is adjusted so that the upper end of the telescopic part 22 is attached to the bearing part 23 and the lower end is attached to the fixed part 21, at this time, the connecting part is inserted into the first mounting hole 111 below the fixed part 21;

5. the telescopic part 22 is operated to extend the telescopic part 22 (the jack is extended), and the rotating shaft 3 is jacked up to suspend the disc member;

6. the manual rotation of the disc member can realize the winding and unwinding of the cable.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; 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.

Claims (10)

1. The cable laying support is characterized by being used for supporting a disc member and comprises a supporting component, a rotating shaft and a lifting component, wherein the lifting component is arranged on the supporting component and comprises a bearing plane, and the lifting component can extend or retract along the gravity direction so as to enable the bearing plane to move along the gravity direction;

the rotating shaft penetrates through the disc member so that the disc member can rotate around the rotating shaft, and the rotating shaft is arranged on the bearing plane.

2. The cabling bracket of claim 1, wherein the lifting assembly includes a fixed portion, a telescoping portion and a bearing portion, the bearing portion including the bearing plane, the fixed portion being fixed to the support assembly, one end of the telescoping portion being connected to the fixed portion, the other end of the telescoping portion being connected to the bearing portion, the telescoping portion being extendable in the direction of gravity.

3. The cabling bracket of claim 2, wherein the support assembly includes a support portion extending along the direction of gravity,

the lifting assembly further comprises a connecting piece, the fixing part is connected with the connecting piece, and the connecting piece can be connected with the supporting part at different positions in the gravity direction.

4. A cabling bracket as claimed in claim 3 wherein said support portion includes a plurality of mounting holes spaced along said direction of gravity, said connector extending through one of said plurality of mounting holes.

5. A cabling bracket according to claim 3, wherein the number of the supporting parts and the number of the connecting pieces are two, the two supporting parts are arranged at intervals, and both ends of the fixing part are respectively connected with the two supporting parts through the two connecting pieces.

6. The cabling bracket of claim 2, wherein the bearing portion includes a bearing and a slider, the slider being connected to the bearing, the bearing portion being in contact with an end of the telescoping portion, the slider being in sliding connection with the support assembly.

7. A cabling bracket as claimed in claim 3 wherein said support assembly further includes first and second mounting portions, said support portion being connected at each end in said direction of gravity to said first and second mounting portions, respectively.

8. The cabling bracket of claim 2, wherein the telescoping portion is a jack.

9. The cabling bracket of claim 2, wherein the lifting assembly further comprises a securing slot, the securing slot being secured to the bearing plane, a portion of the rotational axis being disposed in the securing slot.

10. The cabling rack of any of claims 1-9, wherein the number of support assemblies and the number of lift assemblies are two;

the two supporting components are arranged at intervals, the two lifting components are respectively fixed on the two supporting components, and two ends of the rotating shaft are respectively arranged on bearing planes included by the two lifting components.