CN218997642U - Bus duct with good earthquake resistance effect - Google Patents

Abstract

The utility model discloses a bus duct with good anti-seismic effect, which comprises a shell, wherein an anti-seismic mechanism is fixedly connected to the inner side surface of the shell, a conductor is arranged on the inner side surface of the anti-seismic mechanism, the top end of the shell is connected with a shell cover in a sliding manner, a fixing mechanism is fixedly connected to the left side of the shell, and a protective film is arranged on the outer side surface of the conductor. According to the utility model, the structure is adopted, in order to enhance the shock resistance of the interior of the shell, the shell cover can be slid by utilizing the sliding principle of the second sliding groove, the shell cover is covered and then is fixed by using the bolts, the shock resistance of the interior of the shell can be enhanced due to the existence of the shock-resistant plate, and the devices in the shell can be prevented from being broken when the shell shakes due to the existence of the rubber layer, so that the interior of the shell is secondarily protected, and the conductors are completely protected due to the fact that the conductors are arranged in the grooves, so that the beneficial effect of enhancing the shock resistance of the interior of the shell is achieved.

Description

Bus duct with good earthquake resistance effect

Technical Field

The utility model belongs to the technical field of bus duct power distribution, and particularly relates to a bus duct with good anti-seismic effect.

Background

With the increasing development of science and technology, the requirements of the modern society on the safety degree and space configuration of power output are also increasing, and in general, large-power transmission is generally used for transmitting power by arranging cables in industrial buildings or structures, and on the premise of requiring high safety, the cables are used for transmitting power which does not meet the requirements of safety and space configuration, and the bus duct is a closed metal device formed by copper and aluminum bus columns at the present stage to replace the complicated cable in the installation mode, so that the cable duct is used for distributing larger power for each element of a dispersion system, and the cable is increasingly replaced in the project of indoor low-voltage power transmission trunk engineering.

Compared with the prior art, because the bus duct does not have better shock resistance, when the bus duct receives the striking, the shake sense that the striking brought just can be followed the inside of transmission to the bus duct to shine into the damage to the inside device of bus duct, when needs are with two bus ducts interconnect, the staff is most to be the stuck together with two cardboard as the stuck point, give two bus ducts, then use the mode of screw thread fixation to fix it, because of the mode of screw thread fixation needs a large amount of bolts, with the bolt next screw in more waste time, when need dismantle two bus ducts, still need to unscrew the bolt next, thereby very inconvenient, consequently, need design a high protectiveness, make things convenient for a shock resistance effectual bus duct of dismouting.

Disclosure of Invention

Aiming at the problems in the background art, the utility model aims to provide the bus duct with good anti-seismic effect, so as to solve the problems of lower protection property and inconvenience in disassembly and assembly of the bus duct.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a effectual bus duct of antidetonation, includes the shell, the medial surface fixedly connected with antidetonation mechanism of shell, the medial surface of antidetonation mechanism is equipped with the conductor, the top sliding connection of shell has the cap, the left side fixedly connected with fixed establishment of shell, the lateral surface of conductor is equipped with the protection film, the lateral surface of protection film cover conductor.

Further, as the preferred technical scheme, antidetonation mechanism includes the antidetonation board, the equal fixedly connected with antidetonation board of medial surface of shell and the bottom of cap, the medial surface and the bottom of cap of antidetonation board cover shell, the medial surface fixedly connected with rubber layer of antidetonation board, the medial surface of rubber layer cover antidetonation board, the top fixedly connected with protection piece of rubber layer, the recess with conductor assorted is seted up on the top of protection piece, the conductor is located the inside of recess.

Further, as an optimal technical scheme, the outer side surfaces of the shell and the shell cover are coated with an anti-corrosion layer, and the anti-corrosion layer covers the outer side surfaces of the shell cover and the shell.

Further, as the preferable technical scheme, the fixing mechanism comprises a clamping plate, the outer side face of the clamping plate is connected with a sliding block in a sliding mode, a first clamping block is arranged on the inner side face of the sliding block, and the conductor is located on the inner side of the clamping plate.

Further, as the preferable technical scheme, the lateral surface of cardboard has seted up the first spout with slider assorted, the slider passes through first spout sliding connection in the lateral surface of cardboard.

Further, as a preferable technical scheme, a second chute matched with the shell cover is formed in the top end of the shell, and the shell cover is connected to the top end of the shell in a sliding manner through the second chute.

Further, as the preferable technical scheme, the top fixedly connected with rubber rope of cap, the bottom fixedly connected with second fixture block of rubber rope, the draw-in groove with second fixture block assorted is seted up to the lateral surface of shell.

Further, as a preferable technical scheme, a bolt is arranged at the top end of the shell cover, the bottom end of the bolt penetrates through the shell cover, a thread groove matched with the bolt is formed in the top end of the shell, and the position of the thread groove is symmetrical to that of the bolt.

In summary, the utility model has the following advantages:

firstly, in order to enhance the shock resistance of the inside of the shell, a sliding principle of a second chute can be utilized to slide the shell cover, the shell cover is covered, then a screw is screwed into a screw thread by utilizing a screw thread principle to fix the position of the shell cover, so that the shell cover can be fixed, the shock resistance of the inside of the shell can be enhanced due to the existence of a shock-resistant plate, devices in the shell can be prevented from being knocked out when the shell shakes due to the existence of a rubber layer, the inside of the shell is protected secondarily, and a conductor is arranged in a groove, so that the conductor can be completely protected, and the beneficial effect of enhancing the shock resistance of the inside of the shell is achieved;

secondly, when the butt joint between the conductor and the conductor is needed, two communicated shells can be used, then the clamping plate on the second shell is clamped into the clamping plate of the first shell, then a hole matched with the first clamping block is formed in a position symmetrical to the first clamping block, then the first clamping block is clamped into the hole, the positions of the first clamping block and the first clamping block can be fixed, when the conductor and the conductor are required to be disassembled, the first clamping block is taken out, and then the sliding block slides down by utilizing the sliding principle of the first sliding groove, so that the beneficial effects of convenience in disassembly and assembly can be achieved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front view of the present utility model;

fig. 3 is an enlarged view of the portion a of fig. 1 according to the present utility model.

Reference numerals: 1. the anti-vibration device comprises a shell, 2, an anti-vibration mechanism, 21, an anti-vibration plate, 22, a rubber layer, 23, a protection block, 24, a groove, 3, a conductor, 4, a fixing mechanism, 41, a clamping plate, 42, a first sliding groove, 43, a sliding block, 44, a first clamping block, 5, an anti-corrosion layer, 6, a shell cover, 7, a rubber rope, 8, a second clamping block, 9, a clamping groove, 10, a second sliding groove, 11, a bolt, 12, a thread groove, 13 and a protection film.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1 to 3, a bus duct with good anti-seismic effect of this embodiment includes a housing 1, an inner side surface of the housing 1 is fixedly connected with an anti-seismic mechanism 2, an inner side surface of the anti-seismic mechanism 2 is provided with a conductor 3, a top end of the housing 1 is slidably connected with a housing cover 6, a left side of the housing 1 is fixedly connected with a fixing mechanism 4, an outer side surface of the conductor 3 is provided with a protective film 13, and the protective film 13 covers an outer side surface of the conductor 3.

Example 2

Referring to fig. 1 and 2, on the basis of embodiment 1, in order to achieve the purpose of strengthening the shock resistance of the interior of the housing 1, the shock resistance mechanism 2 is innovatively designed, specifically, the shock resistance mechanism 2 comprises a shock resistance plate 21, the inner side surface of the housing 1 and the bottom end of the housing 6 are fixedly connected with the shock resistance plate 21, the shock resistance plate 21 covers the inner side surface of the housing 1 and the bottom end of the housing 6, the inner side surface of the shock resistance plate 21 is fixedly connected with a rubber layer 22, the rubber layer 22 covers the inner side surface of the shock resistance plate 21, the top end of the rubber layer 22 is fixedly connected with a protection block 23, the top end of the protection block 23 is provided with a groove 24 matched with the conductor 3, the conductor 3 is positioned in the groove 24, in order to strengthen the shock resistance of the interior of the housing 1, the sliding principle of the second sliding chute 10 can be utilized to slide the housing 6 on the cover 6, then the position of the bolt 11 is screwed into the screw threads to be fixedly processed, and accordingly, the shock resistance of the interior of the housing 1 can be strengthened due to the existence of the shock resistance plate 21, the shock resistance of the interior of the housing 1 can be strengthened, and the conductor 3 can be well protected in the interior of the housing 1 when the housing 1 is rocked, and the conductor 3 is well protected in the interior of the housing 1.

Referring to fig. 1, in order to achieve the purpose of protecting the housing 1 and the housing cover 6, the present embodiment innovates the housing 1 and the housing cover 6, the outer side surfaces of the housing 1 and the housing cover 6 are coated with the anti-corrosion layer 5, the anti-corrosion layer 5 covers the outer side surfaces of the housing 6 and the housing 1, and the outer side surfaces of the housing 1 and the housing cover 6 are effectively anti-corrosion protected due to the existence of the anti-corrosion layer 5, so that the outer side surfaces of the housing 1 and the housing cover 6 are prevented from being corroded.

Referring to fig. 1, in order to achieve the purpose of conveniently installing the housing 1, the fixing mechanism 4 is innovatively designed, the fixing mechanism 4 includes a clamping plate 41, the outer side surface of the clamping plate 41 is slidably connected with a sliding block 43, the inner side surface of the sliding block 43 is provided with a first clamping block 44, the conductor 3 is located at the inner side of the clamping plate 41, when the butt joint between the conductor 3 and the conductor 3 is needed, two housings 1 which are communicated can be used, then the clamping plate 41 on the second housing 1 is clamped on the clamping plate 41 of the first housing 1, then a hole matched with the first clamping block 44 is formed at a symmetrical position with the first clamping block 44, then the first clamping block 44 is clamped in, the positions of the two clamping blocks can be fixed, and when the two clamping blocks are required to be disassembled, the first clamping block 44 is taken out, so that the installation of the housing 1 is facilitated.

Example 3

Referring to fig. 1, in this embodiment, based on embodiment 2, in order to achieve the purpose of sliding the slider 43, the clamping plate 41 is innovatively designed in this embodiment, specifically, a first sliding groove 42 matched with the slider 43 is provided on an outer side surface of the clamping plate 41, the slider 43 is slidably connected to the outer side surface of the clamping plate 41 through the first sliding groove 42, and due to the existence of the first sliding groove 42, the sliding of the slider 43 is facilitated, so as to adjust the position where the slider 43 is to be clamped.

Referring to fig. 1 and 3, in order to achieve the purpose of facilitating sliding of the housing cover 6, the present embodiment innovates the housing 1, a second chute 10 matching with the housing cover 6 is provided at the top end of the housing 1, the housing cover 6 is slidably connected to the top end of the housing 1 through the second chute 10, and the housing cover 6 is slidably moved by the sliding principle of the second chute 10 due to the provision of the second chute 10, so as to facilitate sliding and position adjustment of the housing cover 6.

Referring to fig. 1, in order to achieve the purpose of conveniently fixing the housing cover 6, the embodiment innovates the design on the housing 1 and the housing cover 6, the top end of the housing cover 6 is fixedly connected with a rubber rope 7, the bottom end of the rubber rope 7 is fixedly connected with a second clamping block 8, the outer side surface of the housing 1 is provided with a clamping groove 9 matched with the second clamping block 8, and after the position of the housing cover 6 is adjusted, the second clamping block 8 can be clamped into the clamping groove 9 by using the rubber rope 7, so that the position of the housing cover 6 can be fixed.

Referring to fig. 1 and 3, in order to achieve the purpose of enhancing the fixing degree of the casing cover 6, the present embodiment innovates the casing cover 6 and the casing 1, the top end of the casing cover 6 is provided with a bolt 11, the bottom end of the bolt 11 penetrates through the casing cover 6, the top end of the casing 1 is provided with a thread groove 12 matched with the bolt 11, the position of the thread groove 12 is symmetrical with that of the bolt 11, after the position of the casing cover 6 is fixed, the bolt 11 can be screwed into the thread groove 12 by using the thread principle, thereby the position of the casing cover 6 can be secondarily fixed, and the casing cover 6 is prevented from being displaced.

The use principle and the advantages are that: when the bus duct with good shock resistance is used, the sliding principle of the second chute 10 can be utilized to slide the cover 6 to cover the cover 6, then the screw 11 is screwed into the screw thread by utilizing the screw thread principle to fix the position of the cover 6, so that the cover 6 can be fixed, the shock resistance inside the shell 1 can be enhanced due to the existence of the shock resistance plate 21, and the devices inside the shell 1 can be prevented from being knocked out due to the existence of the rubber layer 22 when the shell 1 shakes, so that the inside of the shell 1 is secondarily protected, the conductor 3 can be completely protected due to the fact that the conductor 3 is arranged in the groove 24, so that the beneficial effect of enhancing the shock resistance inside the shell 1 is achieved, when the butt joint between the conductor 3 and the conductor 3 is needed, two communicated shells 1 can be used, then the clamping plate 41 on the second shell 1 is clamped into the clamping plate 41 of the first shell 1, then a hole matched with the first clamping block 44 is formed at a position symmetrical to the first clamping block 44, then the first clamping block 44 is clamped into the clamping groove 9, so that the positions of the first clamping block 44 and the second clamping block can be fixed, when the first clamping block 44 and the second clamping block are required to be disassembled, the sliding block 43 is taken down by utilizing the sliding principle of the first sliding groove 42, thereby achieving the beneficial effects of convenient disassembly, effectively preventing the outer side surfaces of the shell 1 and the shell cover 6 from being corroded due to the existence of the anti-corrosion layer 5, avoiding the outer side surfaces of the shell 1 and the shell cover 6 from being corroded, avoiding the ageing of the bolt 11 after a long time, using the rubber rope 7 to clamp the second clamping block 8 into the clamping groove 9, thereby secondarily fixing the position of the shell cover 6, avoiding the displacement of the shell cover 6 due to the existence of the anti-corrosion film 13, the outer side surface of the conductor 3 can be protected, the conductor 3 can be effectively protected, and the conductor 3 is prevented from being damaged.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Effectual bus duct of antidetonation, its characterized in that: including shell (1), the medial surface fixedly connected with antidetonation mechanism (2) of shell (1), the medial surface of antidetonation mechanism (2) is equipped with conductor (3), the top sliding connection of shell (1) has cap (6), the left side fixedly connected with fixed establishment (4) of shell (1), the lateral surface of conductor (3) is equipped with protection film (13), the lateral surface of protection film (13) cover conductor (3).

2. The bus duct with good earthquake resistance as set forth in claim 1, wherein: the anti-vibration mechanism (2) comprises an anti-vibration plate (21), the inner side surface of the shell (1) and the bottom end of the shell cover (6) are fixedly connected with the anti-vibration plate (21), the anti-vibration plate (21) covers the inner side surface of the shell (1) and the bottom end of the shell cover (6), the inner side surface of the anti-vibration plate (21) is fixedly connected with a rubber layer (22), the rubber layer (22) covers the inner side surface of the anti-vibration plate (21), the top end of the rubber layer (22) is fixedly connected with a protection block (23), a groove (24) matched with the conductor (3) is formed in the top end of the protection block (23), and the conductor (3) is located inside the groove (24).

3. The bus duct with good earthquake resistance as set forth in claim 1, wherein: the anti-corrosion coating is coated on the outer side surfaces of the shell (1) and the shell cover (6), and the anti-corrosion coating (5) covers the outer side surfaces of the shell cover (6) and the shell (1).

4. The bus duct with good earthquake resistance as set forth in claim 1, wherein: the fixing mechanism (4) comprises a clamping plate (41), the outer side face of the clamping plate (41) is connected with a sliding block (43) in a sliding mode, a first clamping block (44) is arranged on the inner side face of the sliding block (43), and the conductor (3) is located on the inner side of the clamping plate (41).

5. The bus duct with good earthquake resistance as set forth in claim 4, wherein: the outer side surface of the clamping plate (41) is provided with a first chute (42) matched with a sliding block (43), and the sliding block (43) is connected to the outer side surface of the clamping plate (41) in a sliding mode through the first chute (42).

6. The bus duct with good earthquake resistance as set forth in claim 1, wherein: the top of shell (1) is seted up and is matchd second spout (10) with cap (6), cap (6) are connected in the top of shell (1) through second spout (10) sliding.

7. The bus duct with good earthquake resistance as set forth in claim 1, wherein: the top fixedly connected with rubber rope (7) of cap (6), the bottom fixedly connected with second fixture block (8) of rubber rope (7), draw-in groove (9) with second fixture block (8) assorted are seted up to the lateral surface of shell (1).

8. The bus duct with good earthquake resistance as set forth in claim 1, wherein: the top of cap (6) is equipped with bolt (11), the bottom of bolt (11) runs through cap (6), screw thread groove (12) with bolt (11) assorted are seted up on the top of shell (1), the position of screw thread groove (12) is symmetrical with the position of bolt (11).

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