Power transmission device mounting structure for electrical engineering

By designing an electrical engineering power transmission equipment installation structure that includes a base plate, fixing components, and supporting components, the problem of poor flexibility in fixing utility poles is solved, thereby improving the flexibility and stability of cable installation, reducing the difficulty and cost of relocation and maintenance, and enhancing safety.

CN115693563BActive Publication Date: 2026-06-19中邮建技术有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
中邮建技术有限公司
Filing Date
2022-10-28
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

The existing fixed installation of utility poles is not flexible enough to accommodate cables of different lengths, and maintenance at heights is dangerous and poses safety hazards.

Method used

An electrical engineering power transmission equipment installation structure was designed, comprising a base plate, fixed components, moving components, and support components. Height adjustment and stable support are achieved through components such as adjusting grooves, adjusting rods, cylinders, and casters, enhancing the flexibility and safety of the device.

Benefits of technology

This has improved the flexibility and stability of cable installation, reduced the difficulty and cost of relocation and maintenance, and enhanced safety.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN115693563B_ABST
    Figure CN115693563B_ABST
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Abstract

This invention relates to the field of electrical engineering technology, specifically to a power transmission backup installation structure for electrical engineering. It includes a base plate with multiple fixed components on the base plate, a movable component on one side of the fixed components, a fixed column at the top of the base plate, a movable groove within the fixed column, a height adjustment structure within the movable groove, two force-bearing rods with force-bearing blocks at one end of the force-bearing rods, force-bearing grooves on the side wall of the movable groove, and multiple support components on the side wall of the fixed column. Each support component includes a placement groove, a support column, a supplementary groove, a supplementary column, a fixed rod, a limiting plate, threads, a fixing ring, an elastic connecting strip, a spring, and a support plate. A distribution plate is located at the top of the height adjustment structure. This invention aims to solve the technical problems mentioned in the background art by providing a power transmission backup installation structure for electrical engineering that offers high stability, provides auxiliary support for the fixed column, is easy to adjust in height, and is easy to move.
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Description

Technical Field

[0001] This invention relates to the field of electrical engineering technology, specifically to an installation structure for power transmission equipment in electrical engineering. Background Technology

[0002] Electricity is the high-voltage part of electrical engineering, mainly responsible for providing and transmitting electrical energy. Power transmission is a crucial link in this process. Electricity transmission commonly uses utility poles to erect cables. However, utility poles are usually fixed, lacking flexibility and difficult to move, making them unsuitable for installing cables of different lengths. In necessary situations, reinstalling utility poles is laborious and relatively costly. Furthermore, the height and fixed position of utility poles mean that maintenance personnel must reach high places to maintain and dismantle cables, which is dangerous. During cable installation, cables are prone to tipping over, posing a safety hazard. Summary of the Invention

[0003] The present invention aims to solve the technical problems mentioned in the background art by providing an electrical engineering power transmission equipment installation structure that is highly stable, can provide auxiliary support for fixed columns, is easy to adjust in height, and is easy to move.

[0004] The technical solution provided by this invention is: an installation structure for power transmission equipment in electrical engineering, characterized in that: it includes a base plate, on which multiple fixing components are provided, each fixing component including an adjustment groove disposed at the bottom end of the base plate, an adjustment rod penetrating the top wall of the adjustment groove, a handle at the top of the adjustment rod, a fixing plate at the bottom of the adjustment rod, a plurality of fixing nails at the bottom of the fixing plate, a plurality of guide grooves at the top of the adjustment groove, a guide rod disposed within the guide groove, a movable rod movably disposed within the guide rod, a moving component disposed on one side of the fixing components, the moving component including a storage groove disposed at the bottom end of the base plate, a plurality of cylinders disposed on the top wall of the storage groove, a movable plate disposed at the output end of the cylinders, a plurality of universal wheels at the bottom of the movable plate, a fixing column disposed at the top of the base plate, and a movable rod disposed within the fixing column. The movable groove is equipped with a height adjustment structure, which has two force-shaping rods. Each force-shaping rod has a force-shaping block at one end. The movable groove has a force-shaping groove on its side wall. The fixed column has multiple support components on its side wall. Each support component includes a placement groove on the side wall of the fixed column, a support column in the placement groove, a supplementary groove in the support column, a supplementary column in the supplementary groove, a fixing rod penetrating the side wall of the supplementary groove and the side wall of the supplementary column in the supplementary groove, a limiting plate at one end of the fixing rod, threads on the surface of the fixing rod away from the limiting plate and the surface of the adjustment rod, a fixing ring on one end of the fixing rod, an elastic connecting band at the bottom of the supplementary column, several springs in the elastic connecting band, a support plate at the movable end of the springs, and a power distribution plate at the top of the height adjustment structure.

[0005] When the device needs to be secured, the user holds the handle and rotates it. The rotation of the handle moves the adjusting rod, which in turn moves the fixing plate. The fixing plate then moves the fixing pins into the ground for fixation. Tightening the fastening bolts loosens the connection between the support column and the placement slot. Pulling the support column moves it, and tightening the fixing ring causes it to move away from the fixing rod. Pulling the fixing rod causes it to move away from the through slot, releasing the fixation of the supplementary column. Pulling the supplementary column again, and fixing it in the same way when it is in the correct position, continues to rotate the support column. When the support column is in the correct position, fixing it in the same way, at which point the support plate touches the ground for support, achieving high stability and providing auxiliary support for the fixed column.

[0006] One end of the movable rod is movably connected to the guide rod, and the other end is fixedly connected to the fixed plate.

[0007] Both the movable rod and the guide rod are equipped with limiting structures.

[0008] The number of casters and fixed components are both four, and they are arranged in a rectangular pattern.

[0009] The force-shaping rod is inclined, and the surfaces of the force-shaping block and the force-shaping groove are rough.

[0010] The top and bottom ends of the support column are provided with through grooves for the fixing rod to pass through.

[0011] The support column and the placement groove are hinged together by fastening bolts.

[0012] The adjusting rod and the fixed plate are connected by ball bearings.

[0013] The advantages of this invention compared to the prior art are as follows: This invention has a simple structure. By incorporating a movable component, the casters can be retracted into the storage groove when not in use without affecting the stability of the device. When the cable length changes due to maintenance, the casters can be moved to the ground by the combined action of the cylinder and the movable plate. By incorporating a support component and a fixing component, and with each fixing component being relatively independent, the distance between the fixing plate and the top wall of the adjusting groove can be adjusted according to the flatness of the ground, ensuring that the bottom plate is always parallel to the ground, thus making the device more stable. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the overall structure of an electrical engineering power transmission equipment installation structure according to the present invention;

[0015] Figure 2 This is a schematic diagram of part A of the installation structure of power transmission equipment for electrical engineering according to the present invention;

[0016] Figure 3This is a schematic diagram of part B of the installation structure of a power transmission equipment for electrical engineering according to the present invention;

[0017] Figure 4 This is a schematic diagram of section C of an electrical engineering power transmission equipment installation structure according to the present invention;

[0018] As shown in the figure: 1. Base plate; 2. Fixed column; 3. Power distribution board; 4. Height adjustment structure; 5. Force distribution rod; 6. Force distribution block; 7. Force distribution groove; 8. Moving component; 81. Storage groove; 82. Movable plate; 83. Cylinder; 84. Caster wheel; 9. Fixed component; 91. Adjustment groove; 92. Adjustment rod; 93. Handle; 94. Fixing nail; 95. Guide groove; 96. Fixed plate; 97. Ball bearing; 98. Guide rod; 99. Movable rod; 10. Support component; 101. Placement groove; 102. Support column; 103. Supplement groove; 104. Supplement column; 105. Fixed rod; 106. Limiting plate; 107. Thread; 108. Fixing ring; 109. Through groove; 1010. Spring; 1011. Support plate; 1012. Elastic connecting strip; 11. Movable groove. Detailed Implementation

[0019] The following is a detailed description of the installation structure for power transmission equipment in electrical engineering according to the present invention, with reference to the accompanying drawings.

[0020] like Figure 1 As shown, in order to solve the technical problems mentioned in the background art, an installation structure for power transmission equipment in electrical engineering is provided, characterized in that: it includes a base plate 1, on which a plurality of fixing components 9 are provided, such as... Figure 1 and Figure 2 As shown, the fixing component 9 includes an adjusting groove 91 disposed at the bottom end of the base plate 1. An adjusting rod 92 penetrating the top wall of the adjusting groove 91 is provided on the top wall of the adjusting groove 91. A handle 93 is provided at the top of the adjusting rod 92. A fixing plate 96 is provided at the bottom of the adjusting rod 92. Several fixing nails 94 are provided at the bottom of the fixing plate 96. Multiple guide grooves 95 are provided at the top of the adjusting groove 91. A guide rod 98 is disposed within the guide groove 95. A movable rod 99 is movably disposed within the guide rod 98. A movable component 8 is provided on one side of the fixing component 9. Figure 1 As shown, the movable component 8 includes a storage groove 81 located at the bottom of the base plate 1. Multiple cylinders 83 are mounted on the top wall of the storage groove 81. A movable plate 82 is mounted at the output end of each cylinder 83. Multiple casters 84 are mounted on the bottom of the movable plate 82. A fixed column 2 is mounted on the top of the base plate 1. A movable groove 11 is located within the fixed column 2. A height adjustment structure 4 is located within the movable groove 11. Two force-shaping rods 5 are mounted on the height adjustment structure 4. One end of each force-shaping rod 5 is equipped with a force-shaping block 6. Force-shaping grooves 7 are located on the side wall of the movable groove 11. Multiple support components 10 are located on the side wall of the fixed column 2, such as... Figure 1 , Figure 3 and Figure 4 As shown, the support assembly 10 includes a placement groove 101 disposed on the side wall of the fixed column 2, a support column 102 disposed in the placement groove 101, a supplementary groove 103 disposed in the support column 102, a supplementary column 104 disposed in the supplementary groove 103, a fixing rod 105 disposed on the supplementary groove 103 penetrating the side wall of the supplementary groove 103 and the side wall of the supplementary column 104, a limiting plate 106 disposed at one end of the fixing rod 105, threads 107 disposed on the surface of the end of the fixing rod 105 away from the limiting plate 106 and the surface of the adjusting rod 92, a fixing ring 108 sleeved on one end of the fixing rod 105, an elastic connecting band 1012 disposed at the bottom of the supplementary column 104, a plurality of springs 1010 disposed in the elastic connecting band 1012, a support plate 1011 disposed at the movable end of the springs 1010, and a power distribution plate 3 disposed at the top of the height adjustment structure 4.

[0021] like Figure 1 and Figure 2 As shown, in this invention, one end of the movable rod 99 is movably connected to the guide rod 98, and the other end is fixedly connected to the fixed plate 96.

[0022] like Figure 1 and Figure 2 As shown, both the movable rod 99 and the guide rod 98 are equipped with limiting structures.

[0023] In this invention, the number of universal wheels and the fixing components 9 are both four and are arranged in a rectangular shape.

[0024] like Figure 1 As shown, the force-shaping rod 5 in this invention is inclined, and the surfaces of the force-shaping block 6 and the force-shaping groove 7 are rough.

[0025] like Figure 1 , Figure 3 and Figure 4 As shown, the support column 102 of the present invention is provided with through grooves 109 at both the top and bottom for the fixing rod 105 to pass through.

[0026] like Figure 1 , Figure 3 and Figure 4 As shown, the support column 102 and the placement groove 101 in this invention are hinged together by fastening bolts.

[0027] like Figure 1 and Figure 2 As shown, the adjusting rod 92 and the fixed plate 96 in this invention are movably connected by ball bearings 97.

[0028] In a specific implementation of this invention, when it is necessary to fix the device, the user holds the handle 93 and rotates it. The rotation of the handle 93 drives the adjusting rod 92 to move, which in turn drives the fixing plate 96 to move. The movement of the fixing plate 96 drives the fixing nail 94 to move and extend into the ground for fixation. Tightening the fastening bolts loosens the connection between the support column 102 and the placement groove 101. Pulling the support column 102 moves it. Tightening the fixing ring 108 moves it away from the fixing rod 105. Pulling the fixing rod 105 moves it away from the fixing rod 105. Opening slot 109 releases the fixation of supplementary column 104, pulls supplementary column 104, and fixes supplementary column 104 when it is in the correct position. Continue to rotate support column 102, and fix support column 102 when it is in the correct position. At this time, support plate 1011 touches the ground for support. When it is necessary to move the device, the fixation of the device is released, cylinder 83 is started, cylinder 83 moves and drives movable plate 82 to move, movable plate 82 moves and drives caster 84 to move, caster 84 touches the ground for support.

[0029] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the spirit of the invention, such designs should fall within the protection scope of the present invention.

Claims

1. An installation structure for power transmission equipment in electrical engineering, characterized in that: The system includes a base plate (1), on which multiple fixing components (9) are provided. Each fixing component (9) includes an adjustment groove (91) located at the bottom of the base plate (1). An adjustment rod (92) penetrating the top wall of the adjustment groove (91) is provided on the top wall of the adjustment groove (91). A handle (93) is provided at the top of the adjustment rod (92). A fixing plate (96) is provided at the bottom of the adjustment rod (92). Several fixing nails (94) are provided at the bottom of the fixing plate (96). Multiple guide grooves (95) are provided at the top of the adjustment groove (91). A guide rod (98) is provided in the guide groove (95). A movable rod (99) is movably provided in the guide rod (98). The fixed component (9) is provided with a movable component (8) on one side. The movable component (8) includes a storage groove (81) at the bottom of the base plate (1). Multiple cylinders (83) are provided on the top wall of the storage groove (81). A movable plate (82) is provided at the output end of the cylinders (83). Multiple casters (84) are provided at the bottom of the movable plate (82). A fixed column (2) is provided at the top of the base plate (1). A movable groove (11) is provided in the fixed column (2). A height adjustment structure (4) is provided in the movable groove (11). Two force-shaping rods (5) are provided on the height adjustment structure (4). A force-shaping block (6) is provided at one end of each force-shaping rod (5). The side wall of the movable groove (11) is provided with a force-sharing groove (7), and the side wall of the fixed column (2) is provided with a plurality of support components (10). The support component (10) includes a placement groove (101) provided on the side wall of the fixed column (2). The placement groove (101) is provided with a support column (102). The support column (102) is provided with a supplementary groove (103). The supplementary groove (103) is provided with a supplementary column (104). The supplementary groove (103) is provided with a fixing rod (105) that penetrates the side wall of the supplementary groove (103) and the side wall of the supplementary column (104). One end of the fixing rod (105) is provided with a limiting plate (106). The surface of the end away from the limiting plate (106) and the surface of the adjusting rod (92) are both provided with threads (107). The fixed rod (105) is fitted with a fixing ring (108) at one end. The supplementary column (104) is provided with an elastic connecting strip (1012) at the bottom. The elastic connecting strip (1012) is provided with several springs (1010). The movable end of the spring (1010) is provided with a support plate (1011). The height adjustment structure (4) is provided with a power distribution plate (3) at the top. The number of universal wheels and fixed components (9) are four and they are distributed in a rectangular shape. The force-sharing rod (5) is inclined. The surfaces of the force-sharing block (6) and the force-sharing groove (7) are rough.

2. The installation structure for power transmission equipment in electrical engineering according to claim 1, characterized in that: One end of the movable rod (99) is movably connected to the guide rod (98), and the other end is fixedly connected to the fixed plate (96).

3. The installation structure for power transmission equipment in electrical engineering according to claim 1, characterized in that: Both the movable rod (99) and the guide rod (98) are equipped with limiting structures.

4. The installation structure for power transmission equipment in electrical engineering according to claim 1, characterized in that: The support column (102) has through slots (109) at both the top and bottom for the fixing rod (105) to pass through.

5. The installation structure for power transmission equipment in electrical engineering according to claim 1, characterized in that: The support column (102) and the placement groove (101) are hinged by fastening bolts.

6. The installation structure for power transmission equipment in electrical engineering according to claim 1, characterized in that: The adjusting rod (92) and the fixed plate (96) are movably connected by ball bearings (97).