CN221126813U - Combined cable supporting component - Google Patents

Abstract

The utility model discloses a combined cable supporting component, which comprises a square frame structure, wherein the frame structure comprises a first supporting rod which transversely extends, a second supporting rod which longitudinally extends and a third supporting rod which vertically extends, and the first supporting rod and the second supporting rod are telescopic structures; the opposite ends of the second supporting rod along the extending direction are detachably connected with the two first supporting rods respectively, the first supporting rods and the second supporting rods are surrounded by a first notch, the first notch is connected with a supporting plate, the first supporting rods and the third supporting rods are surrounded by a second notch, and the second notch is connected with a protection plate. The utility model can solve the problems of large volume, high transportation cost, inconvenient assembly and incapability of adjusting the size of the traditional cable bridge.

Description

Combined cable supporting component

Technical Field

The utility model belongs to the technical field of cables, and particularly relates to a combined cable supporting member.

Background

Cables are devices for transmitting high voltage electricity, and are often laid in basements, factories, and other buildings using a bridge as a supporting structure.

The existing cable bridge is generally divided into a groove type, a tray type, a ladder type and the like. However, the existing cable bridge is generally transported after being manufactured and molded, and because the space for laying cables is required to be reserved in the cable bridge, the cable bridge is large in size, large in occupied space during transportation and high in transportation cost.

The existing combined cable bridge can save the transportation volume and the transportation cost, but after the combined cable bridge is transported to a site, the required assembly time is long, and connecting members such as bolts, nuts and the like are required to be used continuously in the assembly process, so that the combined cable bridge is inconvenient to assemble. And the cable bridge frame is fixed in size, and when the number of cables to be laid is large, the cable bridge frame with fixed size cannot be used for laying more cables.

Disclosure of utility model

The utility model aims to provide a combined cable supporting component which solves the problems that an existing cable bridge is large in size, high in transportation cost, inconvenient to assemble and incapable of adjusting the size.

The technical scheme adopted for solving the technical problems is as follows:

The utility model discloses a combined cable supporting component, which comprises a square frame structure, wherein the frame structure comprises a first supporting rod which transversely extends, a second supporting rod which longitudinally extends and a third supporting rod which vertically extends, and the first supporting rod and the second supporting rod are telescopic structures;

The opposite ends of the second supporting rod along the extending direction are detachably connected with the two first supporting rods respectively, the first supporting rods and the second supporting rods are surrounded by a first notch, the first notch is connected with a supporting plate, the first supporting rods and the third supporting rods are surrounded by a second notch, and the second notch is connected with a protection plate.

The utility model has at least the following beneficial effects: the first support rod which transversely extends is of a telescopic structure, so that the first support rod can transversely stretch, the transverse length and the volume of the first support rod are reduced, and the transportation is convenient; the second support rod which extends longitudinally is of a telescopic structure, so that the second support rod can stretch longitudinally, the longitudinal length and the volume of the second support rod are reduced, and the transportation is convenient; the first branch and the second branch can be dismantled and connected, and the split transportation of the combination formula cable supporting member of being convenient for reduces the transportation volume, reduces cost of transportation, and after transporting to building such as installation mill, a plurality of structures such as first branch, second branch can the quick assembly shaping.

The transverse length and the longitudinal length of the square frame body structure can be adjusted through the first support rod and the second support rod, so that the transverse length or the longitudinal length of the frame body structure is more fit with the size required by laying a cable, and the applicability of the combined cable supporting member is improved. The backup pad of connecting in first notch is used for supporting the cable, and the guard plate of connecting in the second notch is used for avoiding the cable to drop from the second notch, ensures that the cable is firm to be laid in combination formula cable support component.

As a further improvement of the technical scheme, connecting grooves are formed in the inner side faces, close to each other, of the two first support rods, corresponding to each other horizontally, along the extending direction at intervals, connecting pieces are arranged at the opposite ends of the second support rods along the extending direction, and the connecting pieces can be clamped in the connecting grooves.

Through the arrangement, the second support rod can be directly clamped in the connecting groove along the two longitudinal ends through the connecting piece, so that the connection between the first support rod and the second support rod is simply and quickly realized, the assembly time is saved, and the assembly portability is improved. Moreover, when the connecting piece of the second support rod is separated from the connecting groove of the first support rod, the mutual separation of the first support rod and the second support rod is easily realized.

As a further improvement of the technical scheme, the connecting groove comprises a mutually-conducted inserting hole and a clamping groove, and the connecting piece can slide through the inserting hole and is clamped in the clamping groove.

Through the arrangement, an installer inserts the connecting piece on the second supporting rod into the inserting hole, and slides the connecting piece into the clamping groove through the conducted inserting hole and the clamping groove, so that the connection of the first supporting rod and the second supporting rod is realized, and the connecting piece can only be separated from the clamping groove through the inserting hole, so that the connection of the first supporting rod and the second supporting rod in clamping connection is stable.

As a further improvement of the technical scheme, the clamping groove is L-shaped, comprises a transverse groove and a vertical groove, wherein the transverse groove is transversely arranged, the vertical groove is vertically communicated with the vertical groove, and one end of the transverse groove, which is far away from the vertical groove, is communicated with the inserting hole.

Through the arrangement, the connecting piece which is arranged in the vertical groove in a sliding manner is always positioned at the lower end of the vertical groove under the action of gravity, and an unnecessary limiting structure or fixing structure is not required to be arranged, so that the connecting piece can not be separated from the clamping groove when no external force acts.

As a further improvement of the technical scheme, the cross section of the clamping groove is T-shaped, the connecting piece comprises a clamping block and a sliding rod, the cross section area of the clamping block is larger than that of the sliding rod, and two ends of the sliding rod in the longitudinal direction are respectively connected with the clamping block and the second supporting rod.

Through above-mentioned setting, the joint piece of connecting piece plays spacing effect, and the joint piece can't directly break away from the joint groove, and the pole that slides plays the effect of slip direction, and the installer can lift the second branch, makes the connecting piece slide to the spliced eye along the joint groove to realize the split of first branch and second branch.

As a further improvement of the technical scheme, the clamping groove comprises a mutually communicated embedded groove and a communicating groove, wherein the embedded groove and the communicating groove are longitudinally arranged and communicated with the inner side surface of the first supporting rod, the clamping block is clamped in the embedded groove, and the sliding rod slides and is clamped in the communicating groove.

Through above-mentioned setting, the joint groove of T type divide into gomphosis groove and intercommunication groove, and the joint piece gomphosis is in the gomphosis inslot, and the pole slides in the intercommunication groove, and connects joint piece and second branch through the intercommunication groove.

As a further improvement of the technical scheme, the telescopic structure comprises an embedded pipe and two outer sleeves which are coaxially arranged, wherein a hollow groove is formed in one side, close to each other, of each outer sleeve in an inward conduction mode, and two opposite ends of the embedded pipe are respectively connected in the two hollow grooves in a sliding mode.

Through above-mentioned setting, telescopic structure accessible slides in the embedded pipe of outer tube and realizes the shrink, and telescopic structure still accessible shows the embedded pipe outside the hollow groove and realize stretching, and then realizes the length and the volume change of first branch and second branch.

As a further improvement of the technical scheme, the supporting plate comprises a plurality of top plates which are transversely paved, two adjacent top plates are hinged, the top plates longitudinally extend and are arranged on the second supporting rods, and the top plates at the head end and the tail end are respectively detachably connected with the two second supporting rods at the head end and the tail end in the transverse direction.

Through above-mentioned setting, the backup pad is formed through a plurality of roof hinge, and the collapsible setting of backup pad is convenient for transport. The detachable top plate and the second supporting rod can enable the supporting plate and the second supporting rod to be firmly connected, and the supporting plate is prevented from loosening and falling.

As a further improvement of the technical scheme, the protection plate comprises a plurality of lateral plates which are transversely paved, two adjacent lateral plates are hinged, the lateral plates vertically extend, and the two lateral plates at the front end and the rear end along the transverse direction are respectively detachably connected with the two third supporting rods which transversely correspond to each other.

Through above-mentioned setting, the guard plate is formed through a plurality of curb plate is articulated, and the collapsible setting of guard plate is convenient for transport. The side plates and the third support rods which are detachably connected can strengthen the connection of the protection plate and the frame body structure, and the protection plate is prevented from falling.

As a further improvement of the above technical solution, the upper surface of the top plate mounted on the second supporting rod is leveled with the upper side surface of the first supporting rod; the outer surface of the side plate is leveled with the outer side surface of the first supporting rod and the outer side surface of the third supporting rod.

Through the arrangement, the combined type cable supporting member is square in structure and smooth in surface, and friction between a laid cable and the combined type cable supporting member is reduced.

Drawings

The utility model is further described below with reference to the drawings and examples;

FIG. 1 is a schematic view of the overall structure of a modular cable support member according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the internal structure of a second strut according to an embodiment of the present utility model;

fig. 3 is a side view of a first strut and a third strut provided by an embodiment of the present utility model.

The figures are marked as follows:

100. A modular cable support member;

200. a frame structure; 210. a first strut; 220. a second strut; 230. a third strut; 240. a second notch;

300. a telescopic structure; 310. an embedded pipe; 320. an outer sleeve; 330. a hollow groove;

400. A connecting groove; 410. a plug hole; 420. a clamping groove; 421. a transverse groove; 422. a vertical groove;

500. A connecting piece; 510. a clamping block; 520. a sliding rod;

600. a support plate; 610. a top plate;

700. a protection plate; 710. and a side plate.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, if there is a word description such as "a plurality" or the like, the meaning of the plurality is one or more, the meaning of the plurality is two or more, and greater than, less than, exceeding, etc. are understood to exclude the present number, and above, below, within, etc. are understood to include the present number. The description of first, second, and third is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

It should be noted that, in the drawing, the X direction is from the rear side to the front side of the combined cable support member; the Y direction is from the right side to the left side of the combined cable supporting member; the Z-direction is directed from the underside of the modular cable support member to the upper side.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 3, several embodiments of the modular cable support member of the present utility model are illustrated below.

As shown in fig. 1 to 3, the combined cable supporting member 100 according to the embodiment of the utility model includes a frame structure 200, wherein the frame structure 200 is square, and the frame structure 200 is formed by connecting a plurality of first struts 210, a plurality of second struts 220, and a plurality of third struts 230. The first support rod 210 extends transversely and is a telescopic structure 300, so that the first support rod 210 can adjust the transverse length, and when in transportation, the first support rod 210 can adjust the transverse length in a telescopic manner, so as to reduce the occupied space of the first support rod 210. The second support rod 220 extends longitudinally and is a telescopic structure 300, so that the second support rod 220 can adjust the longitudinal length, and the longitudinal length of the second support rod is convenient to be telescopic during transportation, so that the occupied space of the second support rod 220 is reduced. The third struts 230 extend vertically, providing space in the vertical direction for the laying of cables.

It will be appreciated that when the modular cable support member 100 is assembled, the first and second struts 210 and 220 of the telescopic structure 300 can also adjust the size of the modular cable support member 100 in the lateral and longitudinal directions, respectively, so that the lateral and longitudinal directions of the modular cable support member 100 are more consistent with the cable laying during the cable laying process.

In the present embodiment, the first strut 210 extending in the transverse direction extends in the left-right direction, the second strut 220 extending in the longitudinal direction extends in the front-back direction, and the third strut 230 extending in the vertical direction extends in the up-down direction, as shown in fig. 1 to 3.

It will be appreciated that the plurality of first struts 210 are connected to the plurality of second struts 220, and the plurality of first struts 210 are connected to the plurality of third struts 230, and the square frame structure 200 is formed. Specifically, the front and rear ends of the second support rod 220 are detachably connected to the two first support rods 210, so that the first support rods 210 and the second support rods 220 can be assembled and disassembled conveniently.

It will be appreciated that the first and second struts 210 and 220, which are at the same level, are formed with first notches to which the support plates 600 are connected, as shown in fig. 1. Because the frame body structure 200 is square, the first notch is provided with two support plates 600, and the support plates 600 are respectively arranged at two positions, so that the cables can be laid from the support plates 600, the support plates 600 above are used for shielding dust and preventing dust from being deposited on the laid cables.

In this embodiment, the support plate 600 is erected on the plurality of second struts 220.

It will be appreciated that the first and third struts 210 and 230, which are in the same vertical plane, are formed with the second notch 240, and the second notch 240 is connected with the shielding plate 700, as shown in fig. 1. Because the frame structure 200 is square, the second notch 240 is provided with two protection plates 700, which are aligned front and back, and the two protection plates 700 limit the laying position and movement of the cable from front and back directions, so that the cable is prevented from falling from the second notch 240, and dust entering from the second notch 240 can be reduced.

It will be appreciated that the support plate 600 and the shielding plate 700 have good effects on the protection of cable shielding interference and the protection of heavy corrosion environment cables, and ensure the interference resistance of the modular cable support member 100.

It will be appreciated that the second strut 220 and the third strut 230, which are disposed on the same vertical plane, are formed with a third slot, the third slot is provided with two slots and aligned left and right, the cable can extend left and right to be laid in the third slot, and the plurality of combined cable support members 100 can be aligned left and right and connected and fixed through the third slot, so that the cable can be stably laid in the plurality of combined cable support members 100 along the left and right directions.

In this embodiment, the first strut 210 is detachably connected to the second strut 220. Specifically, the side surface of the first strut 210 is provided with connection grooves 400 for connecting the second strut 220, and the connection grooves 400 are arranged at intervals along the extending direction of the first strut 210, i.e., a plurality of connection grooves 400 are arranged at intervals along the left-right direction, as shown in fig. 3. Correspondingly, the front end and the rear end of the second support rod 220 along the extending direction are respectively provided with a connecting piece 500 corresponding to the connecting groove 400, and the connecting piece 500 is clamped in the connecting groove 400 to realize the detachable connection between the first support rod 210 and the second support rod 220, as shown in fig. 2.

It can be appreciated that when the first struts 210 are connected with the second struts 220, the two first struts 210 corresponding horizontally are symmetrically arranged, and the connecting grooves 400 are formed on inner side surfaces of the two first struts 210 close to each other, so that two ends of the plurality of second struts 220 are respectively clamped in the connecting grooves 400 corresponding to the front and rear of the two first struts 210, and the first struts 210 and the second struts 220 are relatively fixed, so that the combined cable supporting member 100 is convenient to be stable in structure.

Further, the plurality of connecting grooves 400 are equidistantly arranged along the left-right direction, so that the plurality of second supporting rods 220 are orderly connected to the first supporting rods 210, and the supporting plate 600 is effectively provided with a supporting function.

In this embodiment, the connection slot 400 includes a plugging hole 410 for inserting the connection piece 500 and a clamping slot 420 for sliding the connection piece 500, and the plugging hole 410 and the clamping slot 420 are connected, so that the connection piece 500 of the second strut 220 can be directly inserted into the plugging hole 410 and slide into the clamping slot 420 along the connection position of the plugging hole 410 and the clamping slot 420, and the clamping slot 420 plays a limiting role on the connection piece 500, so as to prevent the connection piece 500 from being directly separated from the connection slot 400.

In some embodiments, the clamping groove 420 has a vertically extending linear structure, the plugging hole 410 is conducted at the upper end of the clamping groove 420, when the connecting piece 500 is clamped in the connecting groove 400, the second supporting rod 220 automatically slides to the lower end of the clamping groove 420 under the action of gravity, and when no external force acts, the connecting piece 500 is always clamped in the connecting groove 400, so as to realize the connection between the first supporting rod 210 and the second supporting rod 220.

Further, the in-line clamping groove 420 is provided with a limiting opening, the width of the limiting opening is smaller than the groove width of the clamping groove 420, the connecting piece 500 is in interference fit with the limiting opening, the connecting piece 500 passes through the limiting opening under the action of external force, the connecting piece 500 is clamped between the limiting opening and the clamping groove 420, and the first support rod 210 and the second support rod 220 are ensured to be firmly connected, and the connecting piece 500 is not easy to be separated from the clamping groove 420.

In this embodiment, the clamping groove 420 has an L-shaped structure, as shown in fig. 3. Specifically, the clamping groove 420 includes a transverse groove 421 and a vertical groove 422, which are perpendicular to each other and are communicated, the transverse groove 421 is parallel to the first supporting rod 210, i.e. the transverse groove 421 extends along the left-right direction, the vertical groove 422 is parallel to the third supporting rod 230, i.e. the vertical groove 422 extends along the up-down direction, and one end of the transverse groove 421 away from the communicating vertical groove 422 is communicated with the plugging hole 410.

It can be understood that when the first support rod 210 is connected to the second support rod 220, the connecting piece 500 of the second support rod 220 can be inserted into the connecting slot 400 through the insertion hole 410, slide left and right along the insertion hole 410 and the transverse slot 421 to the connection position of the transverse slot 421 and the vertical slot 422, slide downward through the vertical slot 422 to the end of the vertical slot 422, and complete the connection between the first support rod 210 and the second support rod 220, and the connecting piece 500 is always located at the end of the vertical slot 422 under the action of gravity when no external force acts. When the first support rod 210 and the second support rod 220 are detached, the installer can lift the second support rod 220, make the connecting piece 500 of the second support rod 220 move upwards to the upper end of the vertical groove 422, slide along the horizontal groove 421 to the plugging hole 410, and disengage from the connecting groove 400 from the plugging hole 410, so as to complete the detachment of the first support rod 210 and the second support rod 220.

It can be understood that the cross section of the clamping groove 420 is a T-shaped groove, and the clamping groove 420 comprises a transverse groove 421 and a vertical groove 422, and the connecting piece 500 slides left and right in the transverse groove 421, so that the vertical section of the transverse groove 421 is a T-shaped groove, and the connecting piece 500 slides up and down in the vertical groove 422, so that the cross section of the vertical groove 422 is a T-shaped groove.

Correspondingly, the connecting piece 500 comprises a clamping block 510 and a sliding rod 520, wherein the cross-sectional area of the clamping block 510 is larger than that of the sliding rod 520, as shown in fig. 2, two ends of the sliding rod 520 along the longitudinal direction are respectively connected with the clamping block 510 and the first supporting rod 210, namely, one end of the sliding rod 520 along the front-back direction is connected with the clamping block 510, and the other end is connected with the first supporting rod 210.

It can be appreciated that the size of the clamping block 510 is matched with the size of the plugging hole 410, and the clamping block 510 can be inserted into the connecting slot 400 through the plugging hole 410. In this embodiment, the clamping block 510 and the sliding rod 520 are both cylindrical.

It can be appreciated that the T-shaped clamping groove 420 comprises a larger groove width embedding groove and a smaller groove width communicating groove, the embedding groove is used for the clamping block 510 to slide, the communicating groove is used for the sliding rod 520 to slide, the embedding groove and the communicating groove are arranged along the front-back direction, the communicating groove is communicated with the inner side surface of the first supporting rod 210, when the connecting piece 500 is clamped in the connecting groove 400, the clamping block 510 slides and is clamped in the embedding groove, the sliding rod 520 slides and is clamped in the communicating groove, and the clamping block 510 cannot be separated from the clamping groove 420 through the communicating groove because the groove width of the communicating groove is smaller than that of the embedding groove.

It can be appreciated that, since the first support rod 210 and the second support rod 220 are both of the telescopic structure 300, the telescopic structure 300 includes the embedded tube 310 and the outer sleeve 320 coaxially arranged, a side surface of the outer sleeve 320 is provided with the hollow groove 330 which is communicated inwards, and the embedded tube 310 can be slidably connected in the hollow groove 330, so as to realize the telescopic function of the first support rod 210 and the second support rod 220, and reduce the space occupied by the first support rod 210 and the second support rod 220 during transportation, as shown in fig. 2.

In some embodiments, first strut 210 is illustrated as including an inner tube 310 and an outer tube 320. However, since the embedded pipe 310 can slide in the hollow groove 330, the pipe diameter of the embedded pipe 310 is smaller than that of the outer sleeve 320, and when the first support rod 210 is in the extended state, the left end and the right end of the frame structure 200 are not uniform, and the center of gravity of the frame structure 200 is easily shifted toward the outer sleeve 320.

Similarly, if the second supporting rod 220 includes the embedded tube 310 and the outer sleeve 320, the front end height and the rear end height of the second supporting rod 220 extending back and forth are not uniform, and when the supporting plate 600 is mounted on the second supporting rod 220, the supporting plate 600 is easily inclined to the front end or the rear end and falls from the second supporting rod 220.

In this embodiment, the first supporting rod 210 and the second supporting rod 220 each include an embedded tube 310 and two outer sleeves 320, and the hollow grooves 330 are respectively disposed on one side of the two outer sleeves 320 close to each other. Taking the first supporting rod 210 as an example, when the first supporting rod 210 is in a contracted state, the embedded pipes 310 are respectively slidably clamped in the hollow grooves 330 of the two outer sleeves 320, and at this time, the left-right length of the first supporting rod 210 is the sum of the left-right lengths of the two outer sleeves 320; when the first strut 210 is in the extended state, the embedded tube 310 is exposed between the two outer sleeves 320, and at this time, the left-right length of the first strut 210 is the sum of the left-right lengths of the two outer sleeves 320 and the left-right length of the exposed embedded tube 310, as shown in fig. 2.

It can be appreciated that, since the embedded tube 310 is slidably clamped between the two outer sleeves 320, the left and right lengths of the embedded tube 310 exposed to the outer sleeves 320 are the telescopic left and right lengths of the first supporting rod 210. Similarly, the front-to-back length of the second strut 220 is such that the embedded tube 310 can be exposed to the front-to-back length of the outer sleeve 320.

In some embodiments, support panel 600 is a single piece of sheet material. However, the transportation cost of the whole plate is high, and the corners of the plate are easy to collide and damage, so that the corners of the support plate 600 are not easy to directly be arranged on the second support rod 220.

In this embodiment, the support plate 600 includes a plurality of top plates 610, the plurality of top plates 610 are transversely laid along the left-right direction, and two adjacent top plates 610 are hinged to each other, so that the support plate 600 can be folded into a plurality of stacked top plates 610 for transportation, as shown in fig. 1; the support plate 600 may be unfolded to be laid transversely with a plurality of top plates 610 to convert the support plate 600 into a horizontally extending plate; each top plate 610 extends longitudinally, i.e. each top plate 610 extends back and forth, so that the back and forth length of the top plate 610 corresponds to the back and forth length of the first slot, and when the support plate 600 is connected to the first slot, a plurality of top plates 610 laid transversely can correspondingly cover the first slot, i.e. each top plate 610 is mounted on the upper end surface of the second support rod 220, so as to provide a supporting effect for the cable.

Further, in order to reinforce the connection between the support plate 600 and the second support rod 220, the two top plates 610 constituting the front and rear ends of the support plate 600 are detachably connected to the second support rod 220 of the front and rear ends laid in the lateral direction, respectively, so that the support plate 600 is prevented from falling from the second support rod 220.

In this embodiment, the protection plate 700 includes a plurality of side plates 710, the plurality of side plates 710 are transversely laid along the left-right direction, and two adjacent side plates 710 are hinged to each other, so that the protection plate 700 can be folded into a plurality of stacked side plates 710 for transportation, as shown in fig. 1; the guard plate 700 can be unfolded to be transversely paved by a plurality of side plates 710, so that the guard plate 700 is converted into a vertically extending plate; each side plate 710 extends vertically, i.e., each side plate 710 extends up and down, such that the up and down length of the side plate 710 corresponds to the up and down length of the second slot 240, so that when the shielding plate 700 is connected to the second slot 240, a number of side plates 710 laid laterally may correspond to the second slot 240.

It will be appreciated that the two side plates 710 that form the front and rear ends of the shielding plate 700 are detachably connected to the two third struts 230 that correspond to each other in the lateral direction, respectively, to reinforce the connection between the shielding plate 700 and the second notch 240, and prevent the shielding plate 700 from falling from the second notch 240.

It will be appreciated that the top plate 610 and the second strut 220, and the side plate 710 and the third strut 230 may be detachably connected by bolts, clips, or the like.

Further, the side plate 710 is provided with a plurality of vent holes which are opened in the left and right direction so as to vent and dissipate heat of the cable positioned in the combined cable supporting member 100, as shown in fig. 1.

It can be appreciated that the upper surface of the top plate 610, which is disposed on the second supporting rod 220, is leveled with the upper side of the first supporting rod 210, so that the upper surface of the supporting plate 600 and the upper side of the first supporting rod 210 are in the same horizontal plane, which is convenient for smooth cable laying and smooth structure of the combined cable supporting member 100.

It will be appreciated that the outer surface of side plate 710 is flush with the outer side of first strut 210 and the outer side of third strut 230, allowing for a smooth construction of modular cable support member 100.

While the preferred embodiment of the present utility model has been described in detail, the utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The combined cable supporting component is characterized by comprising a square frame structure, wherein the frame structure comprises a first supporting rod which transversely extends, a second supporting rod which longitudinally extends and a third supporting rod which vertically extends, and the first supporting rod and the second supporting rod are telescopic structures;

The opposite ends of the second supporting rod along the extending direction are detachably connected with the two first supporting rods respectively, the first supporting rods and the second supporting rods are provided with first notch, the first notch is connected with a supporting plate, the first supporting rods and the third supporting rods are provided with second notch, and the second notch is connected with a protection plate.

2. The combination cable supporting member according to claim 1, wherein the inner side surfaces of the two horizontally corresponding first struts, which are adjacent to each other, are provided with connecting grooves at intervals along the extending direction, and the two opposite ends of the second struts along the extending direction are provided with connecting pieces, and the connecting pieces can be clamped in the connecting grooves.

3. The modular cable support member of claim 2, wherein the connector slot includes a mating hole and a clamping slot in communication with each other, and the connector is slidably received through the mating hole and is clamped in the clamping slot.

4. A modular cable support member according to claim 3, wherein the clamping groove is L-shaped, and comprises a transverse groove arranged transversely and a vertical groove arranged vertically, wherein the transverse groove is vertically communicated with the vertical groove, and one end of the transverse groove away from the vertical groove is communicated with the plugging hole.

5. The combined cable supporting component of claim 3 or 4, wherein the slot cross section of the clamping slot is T-shaped, the connecting piece comprises a clamping block and a sliding rod, the cross section area of the clamping block is larger than that of the sliding rod, and two ends of the sliding rod along the longitudinal direction are respectively connected with the clamping block and the second supporting rod.

6. The modular cable support member of claim 5, wherein the clamping groove comprises a fitting groove and a communicating groove which are communicated with each other, the fitting groove and the communicating groove are longitudinally arranged and the communicating groove is communicated with the inner side surface of the first supporting rod, the clamping block is clamped in the fitting groove, and the sliding rod slides and is clamped in the communicating groove.

7. The combined cable supporting component according to claim 1, wherein the telescopic structure comprises an embedded pipe and two outer sleeves which are coaxially arranged, a hollow groove is formed in one side, close to each other, of each outer sleeve in an inward conduction mode, and two opposite ends of the embedded pipe are respectively connected in the two hollow grooves in a sliding mode.

8. The modular cable support member of claim 7, wherein the support plate includes a plurality of top plates disposed transversely, two adjacent top plates are hinged, the top plates extend longitudinally and are mounted on the second struts, and the top plates at the front and rear ends are detachably connected to the two second struts at the front and rear ends respectively.

9. The modular cable support member of claim 8, wherein the shield includes a plurality of lateral plates extending transversely, two adjacent lateral plates being pivotally mounted, the lateral plates extending vertically and being detachably connected to corresponding third struts along the transverse ends.

10. The modular cable support member of claim 9, wherein the upper surface of the top plate riding on the second strut is flush with the upper side of the first strut;

The outer surface of the side plate is leveled with the outer side surface of the first supporting rod and the outer side surface of the third supporting rod.