CN215528457U - Overlap joint structure for electric power engineering - Google Patents

Abstract

The utility model discloses a lap joint structure for electric power engineering, which relates to the technical field of electric power engineering and comprises an installation shell and a foot margin fixing mechanism fixed on the installation shell; the mounting shell is connected with the sliding plate mechanism in a sliding manner; the sliding plate mechanism is fixedly connected with two telescopic connecting assemblies, and each telescopic connecting assembly comprises a telescopic mechanism and a limiting mechanism; the telescopic mechanism is fixedly connected with the connecting mechanism, the stability of a connecting point can be guaranteed by arranging the ground foot fixing mechanism, cables with different heights can be guaranteed to be connected by arranging the sliding plate mechanism, the fact that the length cannot guarantee that the overlapped cables are quickly connected can be realized by arranging the telescopic mechanism and the limiting mechanism, the cables with different sizes can be guaranteed to be installed and connected by arranging the connecting mechanism, the overlapped efficiency for electric power engineering is increased, and the function of the integral device is enriched.

Description

Overlap joint structure for electric power engineering

Technical Field

The utility model relates to the technical field of electric power engineering, in particular to a lap joint structure for electric power engineering.

Background

Electric power engineering, i.e. engineering related to the production, transmission, distribution of electric energy, also broadly includes engineering where electricity is used as a power and energy source in a variety of fields. Meanwhile, the method can be understood to the transmission and transformation business expansion project.

Among the prior art, through the screw rod, the cooperation between second slide bar and the second sliding sleeve for after the inside cable for electric power engineering of placing of square tube, can be according to needs electric power engineering at that time with control the position with cable winding displacement height, adjust, avoid electric power engineering under different environment with cable winding displacement height difference, but prior art can not fix the integrated device, can not adjust the extension connection to the cable of not enough length simultaneously, so prior art has great improvement space.

SUMMERY OF THE UTILITY MODEL

The utility model provides a lap joint structure for electric power engineering, which solves the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

a lap joint structure for electric power engineering comprises a mounting shell and a foot fixing mechanism fixed on the mounting shell;

the mounting shell is connected with the sliding plate mechanism in a sliding manner;

the sliding plate mechanism is fixedly connected with two telescopic connecting assemblies, and each telescopic connecting assembly comprises a telescopic mechanism and a limiting mechanism;

the telescopic mechanism is fixedly connected with the connecting mechanism.

According to a preferable technical scheme of the utility model, the ground foot fixing mechanism comprises a ground foot fixing plate fixed on the mounting shell, and a first bolt is arranged on the ground foot fixing plate.

As a preferable technical solution of the present invention, the sliding plate mechanism includes a first sliding rod slidably connected to the mounting housing, the first sliding rod is fixedly connected to the first sliding plate, the first sliding plate is slidably connected to a second sliding rod, the second sliding rod is slidably connected to the mounting housing, the second sliding rod is fixedly connected to the second sliding plate, and the second sliding plate is slidably connected to the first sliding rod.

As a preferred technical scheme of the present invention, the telescopic mechanism includes a telescopic sleeve fixed on the first sliding plate and the second sliding plate respectively, the telescopic sleeve is slidably connected with the mounting shell, the telescopic sleeve is slidably connected with a telescopic block, one side of the telescopic block far away from the mounting shell is fixedly connected with a telescopic rod, and the telescopic rod penetrates through the telescopic sleeve and is slidably connected with the telescopic sleeve.

As a preferred technical scheme of the utility model, the limiting mechanism comprises a limiting ring fixed on the telescopic sleeve, the limiting ring is in threaded connection with a second bolt, and the telescopic sleeve is provided with a plurality of limiting holes.

As a preferable technical scheme of the utility model, the connecting mechanism comprises a connecting sleeve fixed on the telescopic rod, and the connecting sleeve is in threaded connection with a third bolt.

As a preferred technical scheme of the utility model, the mounting shell and the ground pin fixing plate are made of insulating materials.

The utility model has the following advantages: the utility model can ensure the stability of the connection point by arranging the ground foot fixing mechanism, can ensure the cables with different heights to be connected by arranging the sliding plate mechanism, can realize the quick connection of the cables which cannot ensure the overlapping of the lengths by arranging the telescopic mechanism and the limiting mechanism, and can ensure the installation and connection of the cables with different sizes by arranging the connecting mechanism, thereby increasing the overlapping efficiency for electric power engineering and enriching the functions of the whole device.

Drawings

Fig. 1 is a schematic structural diagram of a lap joint structure for electrical engineering.

Fig. 2 is a partially enlarged view of the area a in fig. 1.

Fig. 3 is a schematic structural view of a sliding plate mechanism in a lap joint structure for electrical engineering.

In the figure: 1. mounting a shell; 2. a ground leg fixing mechanism; 201. a ground margin fixing plate; 202. a first bolt; 3. a slide plate mechanism; 301. a first slide bar; 302. a first slide plate; 303. a second slide bar; 304. a second slide plate; 4. a telescoping mechanism; 401. a telescopic sleeve; 402. a telescopic block; 403. a telescopic rod; 5. a limiting mechanism; 501. a limiting ring; 502. a second bolt; 503. a limiting hole; 6. a connecting mechanism; 601. connecting sleeves; 602. and a third bolt.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

It should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1 to 3, a lap joint structure for electrical engineering includes a mounting case 1 and a foot fixing mechanism 2 fixed to the mounting case 1;

the mounting shell 1 is connected with a sliding plate mechanism 3 in a sliding way;

the sliding plate mechanism 3 is fixedly connected with two telescopic connecting assemblies, and each telescopic connecting assembly comprises a telescopic mechanism 4 and a limiting mechanism 5;

the telescopic mechanism 4 is fixedly connected with the connecting mechanism 6.

The sliding plate mechanism 3 comprises a first sliding rod 301 connected with the mounting shell 1 in a sliding manner, the first sliding rod 301 is fixedly connected with a first sliding plate 302, the first sliding plate 302 is connected with a second sliding rod 303 in a sliding manner, the second sliding rod 303 is connected with the mounting shell 1 in a sliding manner, the second sliding rod 303 is fixedly connected with a second sliding plate 304, and the second sliding plate 304 is connected with the first sliding rod 301 in a sliding manner.

In particular, by controlling the first and second sliding plates 302, 304 to move along the first and second sliding bars 301, 303, respectively, the relative height of the connecting mechanism 6 can be adjusted to accommodate the connection of cables of different heights.

The telescopic mechanism 4 comprises a telescopic sleeve 401 fixed on the first sliding plate 302 and the second sliding plate 304 respectively, the telescopic sleeve 401 is in sliding connection with the installation shell 1, the telescopic sleeve 401 is in sliding connection with a telescopic block 402, one side of the telescopic block 402 far away from the installation shell 1 is fixedly connected with a telescopic rod 403, and the telescopic rod 403 penetrates through the telescopic sleeve 401 and is in sliding connection with the telescopic sleeve 401.

The limiting mechanism 5 comprises a limiting ring 501 fixed on the telescopic sleeve 401, a second bolt 502 is in threaded connection with the limiting ring 501, and a plurality of limiting holes 503 are formed in the telescopic rod 403.

Specifically, the second bolt 502 is unscrewed, the length of the telescopic rod 403 extending out of the telescopic sleeve 401 is adjusted, the length of the connecting mechanism 6 extending out is adjusted, and then the second bolt 502 penetrates through the limiting hole 503 to achieve length limiting.

The connecting mechanism 6 comprises a connecting sleeve 601 fixed on the telescopic rod 403, and the connecting sleeve 601 is in threaded connection with a third bolt 602.

The mounting shell 1 and the ground fixing plate 201 are made of insulating materials.

Example 2

Referring to fig. 1-3, the other contents of the present embodiment are the same as embodiment 1, except that: the anchor fixing mechanism 2 comprises an anchor fixing plate 201 fixed on the mounting shell 1, and a first bolt 202 is arranged on the anchor fixing plate 201.

In the implementation process of the utility model, firstly, the mounting shell 1 is mounted at a specified position to be connected through the anchor fixing mechanism 2, then the sliding plate mechanism 3 is adjusted according to different cable heights to adjust and control the height of the connecting mechanism 6, if the cable is not connected due to insufficient length, the telescopic mechanism 4 is adjusted to realize prolonged connection, and then the end part of the cable is mounted in the connecting mechanism 6 to realize the overlapping of the cable.

The utility model can ensure the stability of the connection point by arranging the ground foot fixing mechanism 2, can ensure the connection of cables with different heights by arranging the sliding plate mechanism 3, can realize the quick connection of cables which cannot ensure the overlapping length by arranging the telescopic mechanism 4 and the limiting mechanism 5, can ensure the installation and connection of cables with different sizes by arranging the connecting mechanism 6, increases the overlapping efficiency for electric power engineering, and enriches the functions of the whole device.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A lap joint structure for electric power engineering is characterized by comprising an installation shell and a foot margin fixing mechanism fixed on the installation shell;

the mounting shell is connected with the sliding plate mechanism in a sliding manner;

the sliding plate mechanism is fixedly connected with two telescopic connecting assemblies, and each telescopic connecting assembly comprises a telescopic mechanism and a limiting mechanism;

the telescopic mechanism is fixedly connected with the connecting mechanism.

2. The lap joint structure for electric power engineering according to claim 1, wherein the anchor fixing mechanism includes an anchor fixing plate fixed to the mounting shell, and the anchor fixing plate is provided with a first bolt.

3. The lap joint structure for electric power engineering of claim 1, wherein the sliding plate mechanism comprises a first sliding rod slidably connected with the mounting shell, the first sliding rod is fixedly connected with the first sliding plate, the first sliding plate is slidably connected with the second sliding rod, the second sliding rod is slidably connected with the mounting shell, the second sliding rod is fixedly connected with the second sliding plate, and the second sliding plate is slidably connected with the first sliding rod.

4. The lap joint structure for electric power engineering of claim 3, wherein the telescopic mechanism comprises a telescopic sleeve fixed on the first sliding plate and the second sliding plate respectively, the telescopic sleeve is connected with the mounting shell in a sliding manner, the telescopic sleeve is connected with a telescopic block in a sliding manner, one side of the telescopic block far away from the mounting shell is fixedly connected with a telescopic rod, and the telescopic rod penetrates through the telescopic sleeve and is connected with the telescopic sleeve in a sliding manner.

5. The lap joint structure for electric power engineering of claim 4, wherein the limiting mechanism comprises a limiting ring fixed on the telescopic sleeve, the limiting ring is in threaded connection with a second bolt, and the telescopic sleeve is provided with a plurality of limiting holes.

6. The lap joint structure for electric power engineering of claim 4, wherein the connecting mechanism comprises a connecting sleeve fixed on the telescopic rod, and the connecting sleeve is in threaded connection with the third bolt.

7. The lap joint structure for electric power engineering according to claim 2, wherein the mounting shell and the anchor fixing plate are made of an insulating material.

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