CN218771070U - Easy radiating forceful electric power crane span structure - Google Patents

Abstract

The utility model discloses a strong current bridge easy to radiate, which comprises a protective bottom groove, a protective top cover and radiating support mechanisms; each heat dissipation supporting mechanism is arranged on the bottom of the protection bottom groove at intervals along the length direction of the protection bottom groove; each side radiating hole is arranged on the vertical side wall of the protection bottom groove at intervals; the bottom of the protective bottom groove is provided with a bottom heat dissipation hole; each top radiating pipe is communicated with the protective top cover. The strong current bridge easy to dissipate heat can form up-and-down ventilation and left-and-right ventilation by utilizing the arrangement of the side heat dissipation holes, the bottom heat dissipation holes and the top heat dissipation pipe, so that the cables in the bridge have better heat dissipation performance; utilize each heat dissipation supporting mechanism can be in inside layering bearing structure for the cable can be supported by the layering, is favorable to the heat dissipation of cable on the one hand, and on the other hand also is convenient for arrangement and the later maintenance of cable.

Description

Easy radiating forceful electric power crane span structure

Technical Field

The utility model relates to a cable testing bridge, especially an easy radiating forceful electric power crane span structure.

Background

In a modern high-rise building, because a large number of cables of a power system need to be used, and corresponding cables need to be laid inside and outside the building, in order to arrange and protect the cables, cable bridges are often used for merging and arranging. However, the existing cable bridge has low heat dissipation performance, and the commonly adopted heat dissipation method is to perform natural heat dissipation simply through the heat dissipation holes arranged at the bottom of the cable bridge, so that the heat dissipation method has poor heat dissipation effect and cannot meet the existing actual requirements. In addition, in the interior of the cable tray, the direct stacking of the cables also results in poor heat dissipation. Therefore, a strong electric bridge easy to radiate is needed to be designed, the radiating effect of the bridge can be enhanced, and the safety and reliability of the internal cable are ensured.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the strong-current bridge easy to radiate heat is provided, cables can be merged and arranged, and the strong-temperature-resistant performance is achieved, so that the reliability of cable arrangement is guaranteed.

In order to realize the purpose of the utility model, the utility model provides a strong current bridge easy to radiate heat, which comprises a protective bottom groove, a protective top cover and each radiating support mechanism; each heat dissipation support mechanism is arranged on the bottom of the protection bottom groove at intervals along the length direction of the protection bottom groove and is used for carrying out layered support on cables; the protective top cover covers the upper opening of the protective bottom groove and is detachably arranged on the heat dissipation supporting mechanism; each side radiating hole is arranged on the vertical side wall of the protective bottom groove at intervals, and a convex water baffle is arranged at the upper edge of each side radiating hole; the bottom of the protective bottom groove is provided with a bottom heat dissipation hole; each top radiating pipe is communicated with the protective top cover, and the pipe orifice at the upper end of each top radiating pipe is higher than the upper side surface of the protective top cover; the upper end pipe orifice of the top radiating pipe is provided with a water retaining cap in a supporting mode, the edge of the water retaining cap is lower than the upper end pipe orifice of the top radiating pipe, and a ventilation gap is reserved between the top radiating pipe and the water retaining cap.

Furthermore, the heat dissipation support mechanism comprises a central support unit and each side inclined support unit; the central support units of the heat dissipation support mechanisms are arranged on the bottoms of the protection bottom grooves at intervals along the length direction of the protection bottom grooves; the middle part of each side inclined strut unit is detachably arranged on the central support unit, the side edge of each side inclined strut unit extends upwards in an inclined manner and is detachably arranged on the vertical inner wall of the corresponding side of the protection bottom groove; each side bracing unit is used for carrying out the layering support to the cable.

Furthermore, the central supporting unit comprises a supporting upright post, an inner supporting plate and an outer supporting plate; the lower extreme of support post is fixed on the inboard backup pad, and inboard backup pad and outside backup pad inside and outside wafer formula are installed on the bottom of protection kerve, and the detachable installation of protection top cap is on the upper end of support post.

Furthermore, the side inclined strut unit comprises a central supporting seat, two side supporting rods and a bottom supporting pin rod; the central supporting seat is sleeved on the supporting upright post; the bottom supporting pin rod is vertically arranged on the supporting upright post in a penetrating way and is used for supporting the central supporting seat; the lower extreme of two side support rods is all articulated formula to be installed on central supporting seat, and the upper end of two side support rods is detachable to be installed on the vertical inner wall that the protection kerve corresponds the side.

Furthermore, each rotary supporting sleeve is rotatably mounted on the side supporting rod, and a limiting annular plate is arranged at the lower end of each rotary supporting sleeve and used for limiting and supporting the cable.

Further, a side support is detachably mounted on the vertical inner wall of the protective bottom groove, and an end mounting seat is arranged on the side support; the upper end of the side supporting rod is detachably arranged on the end mounting seat.

Furthermore, a support pore plate is arranged between the adjacent heat dissipation support mechanisms and used for supporting the cable; the middle of the edge of the end part of the support pore plate is clamped between the bottom support pin rod and the central support seat; the two ends of the edge of the end part of the supporting pore plate are respectively detachably arranged on the side supports on the corresponding sides.

Furthermore, a cantilever rod is detachably mounted on the outer side supporting plate, and a vertical surface mounting plate is fixedly arranged at the cantilever end of the cantilever rod.

The beneficial effects of the utility model reside in that: by means of the arrangement of the side radiating holes, the bottom radiating holes and the top radiating pipes, up-down ventilation and left-right ventilation can be formed, and the cables inside are guaranteed to have good radiating performance; utilize each heat dissipation supporting mechanism can be in inside layering bearing structure for the cable can be supported by the layering, is favorable to the heat dissipation of cable on the one hand, and on the other hand also is convenient for arrangement and the later maintenance of cable.

Drawings

Fig. 1 is a schematic diagram of the outer structure of the present invention;

FIG. 2 is a schematic sectional end view of the present invention;

FIG. 3 is the schematic view of the mounting structure of the support orifice plate of the present invention

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-3, the utility model discloses an easy radiating forceful electric power crane span structure includes: the protective bottom groove 1, the protective top cover 2 and each heat dissipation supporting mechanism; each heat dissipation supporting mechanism is arranged on the bottom of the protection bottom groove 1 at intervals along the length direction of the protection bottom groove and is used for carrying out layered supporting on the cable 35; the protective top cover 2 covers the upper opening of the protective bottom groove 1 and is detachably arranged on the heat dissipation supporting mechanism; each side heat dissipation hole 36 is arranged on the vertical side wall of the protective bottom groove 1 at intervals, and a convex water baffle 3 is arranged at the upper edge of each side heat dissipation hole 36; the bottom of the protective bottom groove 1 is provided with a bottom heat radiation hole 13; each top radiating pipe 4 is communicated with the protective top cover 2, and the upper end pipe orifice of each top radiating pipe 4 is higher than the upper side surface of the protective top cover 2; the water blocking cap 5 is supported and arranged at the upper end pipe orifice of the top radiating pipe 4 through the supporting short column 18, the edge of the water blocking cap 5 is lower than the upper end pipe orifice of the top radiating pipe 4, and a ventilation gap is reserved between the top radiating pipe 4 and the water blocking cap 5.

By arranging the side radiating holes 36, the bottom radiating holes 13 and the top radiating pipe 4, up-and-down ventilation and left-and-right ventilation can be formed, so that the cables 35 inside have good radiating performance; a layered support structure can be formed inside each heat dissipation support mechanism, so that the cables 35 can be supported in a layered manner, which is beneficial to heat dissipation of the cables 35 and is convenient for arrangement and later maintenance of the cables 35; utilize breakwater 3 can play the manger plate effect in last edge for the rainwater that the top was left can not flow into in the side louvre 36.

Furthermore, protective nets 14 are disposed at the ventilation positions of the side radiating holes 36, the bottom radiating hole 13 and the top radiating pipe 4, so as to prevent impurities or insects from entering.

Further, be provided with buckle turn-ups 17 of buckle on protection kerve 1 side on the side of protection top cap 2, can realize the stable installation at protection top cap 2 edge.

Furthermore, the heat dissipation support mechanism comprises a central support unit and each side inclined support unit; the central support units of the heat dissipation support mechanisms are arranged on the bottom of the protection bottom groove 1 at intervals along the length direction of the protection bottom groove; the middle part of each side inclined strut unit is detachably arranged on the central support unit, the side edge of each side inclined strut unit extends upwards in an inclined mode, and the side edges of the side inclined strut units are detachably arranged on the vertical inner wall of the corresponding side of the protection bottom groove 1; each side sprag unit is used to support the cable 35 in layers. Utilize each side bracing unit can form each approximate V-arrangement's bearing structure on central support unit, not only can support more cables 35, but also can carry out the inclined support to the vertical side of protection kerve 1, the structural strength of reinforcing protection kerve 1 itself.

Further, the central supporting unit comprises a supporting upright post 16, an inner side supporting plate 15 and an outer side supporting plate 10; the lower extreme of support post 16 is fixed on inside backup pad 15, and inside and outside butt clamp formula is installed on the bottom of protection kerve 1 in inside backup pad 15 and outside backup pad 10, and protection top cap 2 passes through top bolt 6 and detachably installs on the upper end of support post 16. The installation stability of the supporting upright post 16 and the bottom of the protective bottom groove 1 can be enhanced by the clamping installation of the inner side supporting plate 15 and the outer side supporting plate 10; the mounting structural strength of the protective bottom groove 1 and the cantilever 7 can be enhanced by the outer support plate 10.

Further, the side diagonal bracing unit comprises a central support base 21, two side support bars 27 and a bottom support pin bar 20; the central supporting seat 21 is sleeved on the supporting upright post 16; a bolt hole 19 is formed in the bottom supporting pin rod 20, and the bottom supporting pin rod 20 is vertically installed on the bolt hole 19 in the supporting upright post 16 in a penetrating mode and used for supporting a central supporting seat 21; the lower ends of the two side support rods 27 are hinged to the central support base 21, and the upper ends of the two side support rods 27 are detachably mounted on the vertical inner wall of the corresponding side of the protective bottom groove 1. The lower ends of the two side support rods 27 can be positioned and installed by matching the central support base 21 with the bottom support pin rod 20, and the height position of the lower ends can be conveniently adjusted; utilize side support bar 27 can support cable 35, also can support the vertical lateral wall of protection kerve 1, strengthen the structural strength of protection kerve 1.

Further, a hinge notch 30 is arranged on the central support seat 21, and the end part of the side support rod 27 is hinged and installed in the hinge notch 30 in a swinging mode; a central mounting hole 29 is formed in the middle of the central support base 21, and the central support base 21 is sleeved on the support column 16 through the central mounting hole 29.

Further, each of the rotary support sleeves 31 is rotatably mounted on the side support bar 27, and a limit ring plate 32 is provided on a lower end portion of the rotary support sleeve 31 for limit-supporting the cable 35. The cable 35 can be supported by the rotary support sleeve 31 and can be supported in a rolling manner when the cable 35 is drawn, so that the cable 35 can be conveniently laid and maintained; utilize spacing annular plate 32 can keep apart between each cable 35 to avoid influence each other when laying the pull.

Further, in order to limit the position of the rotation support sleeve 31, a limit ring groove is provided on the inner wall of the rotation support sleeve 31, and a limit convex ring embedded in the limit ring groove is provided on the side support bar 27.

Further, a side support 24 is detachably mounted on the vertical inner wall of the protective bottom groove 1, and an end mounting seat 25 is arranged on the side support 24; the upper end of the side support bar 27 is detachably mounted on the end mounting base 25. The detachable mounting of the ends of the side support rods 27 can be achieved by the design of the side supports 24.

Furthermore, an installation notch 26 is arranged on the end installation seat 25, an installation block 28 is arranged on the end of the side support rod 27, a positioning hole is arranged on the installation block 28, a positioning screw 34 is screwed on the side of the end installation seat 25, and the end of the positioning screw 34 extends into the positioning hole. By means of the design of the mounting notch 26 and the mounting block 28, the end of the side support bar 27 can be mounted in a limiting manner, and the side support bar can be detachably mounted through the positioning screw 34.

Further, a support hole plate 22 is installed between adjacent heat dissipation support mechanisms and used for supporting the cable 35; the middle of the end edge of the support orifice plate 22 is clamped between the bottom support pin rod 20 and the central support seat 21; the two ends of the end edge of the support orifice plate 22 are detachably mounted on the side supports 24 on the corresponding sides, respectively. The cables 35 can be supported between adjacent heat dissipation support mechanisms by utilizing the support pore plates 22, and ventilation and heat dissipation of the cables 35 are facilitated; the removable mounting of the end of the support orifice plate 22 can be achieved by the provision of the central support base 21, the bottom support pin 20 and the side supports 24.

Furthermore, an inclined mounting slope surface 23 is arranged on the side support 24, and the support pore plate 22 is mounted on the inclined mounting slope surface 23 through a pore plate mounting screw 33. The use of the inclined mounting ramp 23 facilitates the snug mounting of the end of the support orifice 22.

Furthermore, a cantilever rod 7 is detachably mounted on the outer support plate 10 through a bottom bolt 11, and a vertical surface mounting plate 8 is fixedly arranged at the cantilever end of the cantilever rod 7; a vertical surface mounting hole 9 is formed in the vertical surface mounting plate 8; a triangular rib plate 12 is arranged at the joint of the cantilever rod 7 and the vertical surface mounting plate 8, so that the structural strength of the joint can be enhanced. The cantilever type installation of the bridge can be realized by utilizing the cantilever rods 7 and the vertical surface installation plate 8.

The utility model discloses an easy radiating forceful electric power crane span structure is when installing and using, through 8 fixed mounting in facade mounting panel wait to install the position department, install bottom support pin pole 20 again, central supporting seat 21 and side bracing piece 27, place cable 35 on corresponding rotatory support sleeve 31 again, when twitching cable 35, rotatory support sleeve 31 is rotatory to reduce the resistance, through the layering setting of upper and lower multilayer side bracing piece 27, can be convenient for the layering of cable 35 to lay, and when lower floor's cable 35 was laid, upper side bracing piece 27 did not install earlier; after the protective top cover 2 covers the protective bottom groove 1, the protective top cover is fixed through a top bolt 6.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides an easy radiating forceful electric power crane span structure which characterized in that: the device comprises a protective bottom groove (1), a protective top cover (2) and various heat dissipation supporting mechanisms; each heat dissipation support mechanism is arranged on the bottom of the protection bottom groove (1) at intervals along the length direction of the protection bottom groove and is used for carrying out layered support on the cables (35); the protective top cover (2) covers the upper opening of the protective bottom groove (1) and is detachably mounted on the heat dissipation supporting mechanism; each side radiating hole (36) is arranged on the vertical side wall of the protective bottom groove (1) at intervals, and a convex water baffle (3) is arranged at the upper edge of each side radiating hole (36); a bottom heat dissipation hole (13) is formed in the bottom of the protective bottom groove (1); each top radiating pipe (4) is communicated and arranged on the protective top cover (2), and the pipe orifice at the upper end of each top radiating pipe (4) is higher than the upper side surface of the protective top cover (2); the upper end pipe orifice of the top radiating pipe (4) is provided with a water retaining cap (5) in a supporting way, the edge of the water retaining cap (5) is lower than the upper end pipe orifice of the top radiating pipe (4), and a ventilation gap is reserved between the top radiating pipe (4) and the water retaining cap (5).

2. A strong electric bridge frame easy to dissipate heat as claimed in claim 1, wherein: the heat dissipation support mechanism comprises a central support unit and side inclined support units; the central support units of the heat dissipation support mechanisms are arranged on the bottoms of the protection bottom grooves (1) at intervals along the length direction of the protection bottom grooves; the middle part of each side inclined strut unit is detachably arranged on the central support unit, the side edge of each side inclined strut unit extends upwards in an inclined mode, and the side edges of the side inclined strut units are detachably arranged on the vertical inner wall of the corresponding side of the protection bottom groove (1); each side diagonal bracing unit is used for carrying out layered support on the cable (35).

3. A strong electric bridge frame easy to dissipate heat as claimed in claim 2, wherein: the central supporting unit comprises a supporting upright post (16), an inner side supporting plate (15) and an outer side supporting plate (10); the lower end of the supporting upright post (16) is fixed on the inner side supporting plate (15), the inner side supporting plate (15) and the outer side supporting plate (10) are arranged on the bottom of the protective bottom groove (1) in an internal and external clamping manner, and the protective top cover (2) is detachably arranged on the upper end of the supporting upright post (16).

4. A strong electric bridge frame easy to dissipate heat as claimed in claim 3, wherein: the side inclined strut unit comprises a central supporting seat (21), two side supporting rods (27) and a bottom supporting pin rod (20); the central supporting seat (21) is sleeved on the supporting upright post (16); the bottom supporting pin rod (20) is vertically installed on the supporting upright post (16) in a penetrating way and is used for supporting the central supporting seat (21); the lower ends of the two side supporting rods (27) are all hinged to the central supporting seat (21), and the upper ends of the two side supporting rods (27) are detachably mounted on the vertical inner wall of the corresponding side of the protective bottom groove (1).

5. A strong electric bridge frame easy to dissipate heat as claimed in claim 4, wherein: each rotary supporting sleeve (31) is rotatably arranged on the side supporting rod (27), and a limiting ring plate (32) is arranged at the lower end part of the rotary supporting sleeve (31) and used for limiting and supporting the cable (35).

6. A strong electric bridge frame easy to dissipate heat as claimed in claim 4, wherein: a side support (24) is detachably arranged on the vertical inner wall of the protective bottom groove (1), and an end mounting seat (25) is arranged on the side support (24); the upper end of the side supporting rod (27) is detachably arranged on the end mounting seat (25).

7. A strong electric bridge frame easy to dissipate heat as claimed in claim 6, wherein: a support pore plate (22) is arranged between the adjacent heat dissipation support mechanisms and is used for supporting the cable (35); the middle part of the end edge of the support pore plate (22) is clamped between the bottom support pin rod (20) and the central support seat (21); two ends of the end edge of the supporting orifice plate (22) are respectively and detachably arranged on the side supports (24) on the corresponding sides.

8. A strong electric bridge frame easy to dissipate heat as claimed in claim 3, wherein: a cantilever rod (7) is detachably arranged on the outer support plate (10), and a vertical surface mounting plate (8) is fixedly arranged on the cantilever end of the cantilever rod (7).

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