CN211351622U - Solid insulation type high-low voltage bus - Google Patents

Abstract

The utility model discloses a solid insulation type high-low voltage bus, including generating line body and installation body, installation body top is equipped with the mounting panel, and the mounting panel top is equipped with the owner groove and assists the groove, and mounting panel lateral part symmetry is equipped with the limiting plate, and generating line body bottom is equipped with the installation face, and installation face bottom is equipped with the principal post and assists the post. The utility model discloses with the king-post with assist the post respectively with the king-groove with assist the groove and correspond the joint, then fixed column and king-post are fixed through the bolt, and then further fixed with generating line body and mounting panel, the limiting plate is spacing about the generating line body simultaneously, the locking groove sets up with supplementary locking mechanical system locking, with generating line body, installation body formation body structure, accomplishes fixed mounting then.

Description

Solid insulation type high-low voltage bus

Technical Field

The utility model relates to a generating line technical field, concretely relates to solid insulation type high-low voltage generating line.

Background

The bus bar refers to a common passage to which a plurality of devices are connected in parallel branches. In a computer system, a shared high-speed path is formed by connecting a plurality of computers in parallel, data can be transmitted between the computers at will, but only one device can transmit data at the same time. With the emergence of modern engineering facilities and equipment, the power consumption of various industries is increased rapidly, particularly, the appearance of numerous high-rise buildings and large-scale factory workshops, the traditional cable serving as a power transmission lead cannot meet the requirement in a large-current transmission system, and the parallel connection of multiple cables brings inconvenience to on-site installation, construction and connection. The plug-in type bus duct is produced as a novel distribution wire, and compared with the traditional cable, the plug-in type bus duct fully embodies the superiority thereof in large current transmission.

The existing bus has poor insulation performance, and meanwhile, the bus is not convenient to mount and dismount with a support, so that the working performance of the bus is limited.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solid insulation type high-low voltage generating line to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a solid insulation type high-low voltage bus comprises a bus body and an installation body, wherein the top of the installation body is provided with an installation plate, the top of the installation plate is provided with a main groove and an auxiliary groove, the side parts of the installation plate are symmetrically provided with limiting plates, the bottom of the bus body is provided with an installation surface, and the bottom of the installation surface is provided with a main column and an auxiliary column;

the main column and the auxiliary column are respectively arranged corresponding to the main groove and the auxiliary groove, a fixing column is arranged on the mounting plate, a preset screw hole is formed in the fixing column, a mounting screw hole is formed in the main column, and the fixing column and the main column are fixed through a fixing bolt by the preset screw hole and the mounting screw hole;

the bus body both sides are equipped with the mount, are equipped with canceling release mechanical system on the mount, and canceling release mechanical system is connected with the chucking board, is equipped with the card post on the chucking board, is equipped with the draw-in groove on the limiting plate, and card post and draw-in groove chucking set up, and the chucking board bottom is equipped with the locking groove, and the locking groove sets up with supplementary locking mechanical system locking.

Preferably, the bus bar body comprises a base body, a first insulating layer is coated outside the base body, a second insulating layer is coated outside the first insulating layer, and a weather-resistant layer is coated outside the second insulating layer.

Preferably, the first insulating layer and the second insulating layer are both made of ethylene chlorotrifluoroethylene copolymer.

Preferably, the weather-resistant layer is made of a polyolefin material.

Preferably, the reset mechanism comprises a reset sleeve, a reset column is arranged in the reset sleeve in a sliding mode, and the reset column is connected with the inner bottom end of the reset sleeve through a first reset spring.

Preferably, the reset sleeve is provided with a reset groove, a reset block is arranged in the reset groove in a sliding mode, the bottom end of the reset block is connected with the reset column, and one side of the reset block is connected with the reset groove through a second reset spring.

Preferably, the top end of the reset column is also provided with a pushing block.

Preferably, supplementary locking mechanical system includes supplementary locking case, and supplementary locking case both sides are equipped with supplementary locking groove, and supplementary locking inslot slides and is equipped with supplementary locking block, and two supplementary locking blocks are connected with the locking board jointly, and the locking board top is equipped with first locking post, and the bottom is equipped with the second locking post, and first locking post passes supplementary locking case and is connected with the locking kelly, and the locking kelly locks the setting with the locking groove, and the second locking post passes supplementary locking case and is connected with the pull block, still be equipped with power supply mechanism in the supplementary locking case.

Preferably, the force supply mechanism comprises a force supply column, a force supply spring is sleeved on the force supply column, one end of the force supply spring is connected with the auxiliary locking box, the other end of the force supply spring is connected with a force supply block, the force supply block is arranged on the force supply column in a sliding mode, the top end of the force supply block is connected with a power connecting rod, and the two power connecting rods are connected with the locking plate.

Preferably, the force supply column is also provided with a stop block.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) with the king-post with assist the post respectively with the king-groove with assist the groove and correspond the joint, then fixed column and king-post are fixed through the bolt, and then further fixed with generating line body and mounting panel, spacing about the limiting plate is to the generating line body simultaneously, the locking groove sets up with supplementary locking mechanical system locking, with generating line body, installation body formation body structure, accomplishes fixed mounting then.

(2) Through the pulling block, the second locking post moves downwards, and then drives the locking plate to move downwards, so that the first locking post drives the locking clamping rod to be separated from the locking groove, the locking plate moves downwards to drive the power connecting rod to move the power supply block on the power supply post, and then the power supply spring is extruded, and thus the process that the locking clamping rod is separated from the locking groove is completed.

(3) Through first insulating layer, the setting on first insulating layer can improve the insulating nature of generating line body, and the setting on the resistant layer of generating line body can improve the weatherability of generating line body, and then improves the life-span of generating line body.

(4) Through promoting the chucking board, the card post breaks away from the draw-in groove to drive and promote the piece and promote the post that resets, the post that resets slides in the sleeve that resets, and first reset spring, second reset spring compression lock through locking kelly and locking groove this moment, thereby accomplish the fixed of chucking board, make things convenient for the limiting plate to break away from the card post.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the locking structure of the limiting plate of the present invention;

FIG. 3 is a schematic view of the fixing structure of the main column and the mounting plate of the present invention;

FIG. 4 is a schematic view of the bus bar body structure of the present invention;

FIG. 5 is a schematic structural view of the repositioning mechanism of the present invention;

fig. 6 is a schematic structural view of the auxiliary locking mechanism of the present invention.

In the figure: 1. a bus body; 101. a substrate; 102. a first insulating layer; 103. a second insulating layer; 104. a weatherable layer; 2. installing a body; 3. mounting a plate; 4. a main tank; 5. an auxiliary groove; 6. a limiting plate; 7. a mounting surface; 8. a main column; 9. auxiliary columns; 10. fixing a column; 11. presetting a screw hole; 12. a reset mechanism; 121. a reset sleeve; 122. a reset column; 123. a first return spring; 124. a reset groove; 125. a reset block; 126. a second return spring; 127. a pushing block; 13. a chucking plate; 14. clamping the column; 15. a card slot; 16. a locking groove; 17. an auxiliary locking mechanism; 171. an auxiliary lock box; 172. an auxiliary locking groove; 173. an auxiliary locking block; 174. a locking plate; 175. a first locking post; 176. a second locking post; 177. locking the clamping rod; 178. pulling the block; 18. a force supply mechanism; 181. a force supply column; 182. a power supply spring; 183. a force supply block; 184. a power link; 19. a stop block; 20. mounting a screw hole; 21. a fixed mount; 22. and (5) fixing the bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, in the present invention, a solid insulation type high-low voltage bus comprises a bus body 1 and an installation body 2, wherein the top of the installation body 2 is provided with an installation plate 3, the top of the installation plate 3 is provided with a main groove 4 and an auxiliary groove 5, the side of the installation plate 3 is symmetrically provided with a limiting plate 6, the bottom of the bus body 1 is provided with an installation surface 7, and the bottom of the installation surface 7 is provided with a main column 8 and an auxiliary column 9;

the main column 8 and the auxiliary column 9 are respectively arranged corresponding to the main groove 4 and the auxiliary groove 5, the mounting plate 3 is provided with a fixing column 10, the fixing column 10 is provided with a preset screw hole 11, the main column 8 is provided with a mounting screw hole 20, and the fixing column 10 and the main column 8 are fixed through the preset screw hole 11 and the mounting screw hole 20 through a fixing bolt 22;

two sides of the bus body 1 are provided with fixing frames 21, the fixing frames 21 are provided with resetting mechanisms 12, the resetting mechanisms 12 are connected with clamping plates 13, the clamping plates 13 are provided with clamping columns 14, the limiting plates 6 are provided with clamping grooves 15, the clamping columns 14 are clamped with the clamping grooves 15, the bottom ends of the clamping plates 13 are provided with locking grooves 16, and the locking grooves 16 are locked with auxiliary locking mechanisms 17;

the main column 8 and the auxiliary column 9 are correspondingly clamped with the main groove 4 and the auxiliary groove 5 respectively, then the fixing column 10 is fixed with the main column 8 through the fixing bolt 22, further the bus body 1 and the mounting plate 3 are further fixed, meanwhile, the limiting plate 6 limits the bus body 1 leftwards and rightwards, the locking groove 16 and the auxiliary locking mechanism 17 are locked, the bus body 1 and the mounting body 2 form an integrated structure, and then fixed mounting is completed;

the bus body 1 of the embodiment comprises a base body 101, wherein a first insulating layer 102 is coated outside the base body 101, a second insulating layer 103 is coated outside the first insulating layer 102, and a weather-resistant layer 104 is coated outside the second insulating layer 103; the first insulating layer 102 and the second insulating layer 103 are made of ethylene chlorotrifluoroethylene copolymer; the weather-resistant layer 104 is made of polyolefin material;

the first insulating layer 102 can improve the insulation of the bus body 1 by providing the first insulating layer 102, and the weather-resistant layer 104 can improve the weather resistance of the bus body 1 by providing the bus body, thereby improving the service life of the bus body 1.

The reset mechanism 12 of this embodiment includes a reset sleeve 121, a reset column 122 is slidably disposed in the reset sleeve 121, and the reset column 122 is connected to an inner bottom end of the reset sleeve 121 through a first reset spring 123; a reset groove 124 is formed in the reset sleeve 121, a reset block 125 is slidably arranged in the reset groove 124, the bottom end of the reset block 125 is connected with the reset post 122, and one side of the reset block 125 is connected with the reset groove 124 through a second reset spring 126; the top end of the reset column 122 is also provided with a pushing block 127;

by pushing the clamping plate 13, the clamping column 14 is separated from the clamping groove 15, so that the pushing block 127 is driven to push the reset column 122, the reset column 122 slides in the reset sleeve 121, the first reset spring 123 and the second reset spring 126 are compressed, and at the moment, the locking rod 177 and the locking groove 16 are locked, so that the clamping plate 13 is fixed, and the limiting plate 6 is conveniently separated from the clamping column 14;

the auxiliary locking mechanism 17 of the embodiment comprises an auxiliary locking box 171, auxiliary locking grooves 172 are arranged on two sides of the auxiliary locking box 171, auxiliary locking blocks 173 are arranged in the auxiliary locking grooves 172 in a sliding mode, the two auxiliary locking blocks 173 are connected with a locking plate 174 together, a first locking column 175 is arranged at the top end of the locking plate 174, a second locking column 176 is arranged at the bottom end of the locking plate 174, the first locking column 175 penetrates through the auxiliary locking box 171 to be connected with a locking clamping rod 177, the locking clamping rod 177 is locked with the locking groove 16, the second locking column 176 penetrates through the auxiliary locking box 171 to be connected with a pulling block 178, and a force supply mechanism 18 is further arranged in the auxiliary locking box 171; the force supply mechanism 18 comprises a force supply column 181, a force supply spring 182 is sleeved on the force supply column 181, one end of the force supply spring 182 is connected with the auxiliary locking box 171, the other end of the force supply spring is connected with a force supply block 183, the force supply block 183 is arranged on the force supply column 181 in a sliding manner, the top end of the force supply block 183 is connected with a power connecting rod 184, and the two power connecting rods 184 are connected with the locking plate 174; the force supply column 181 is also provided with a stop block 19;

through the pulling of the pulling block 178, the second locking column 176 moves downwards, and then drives the locking plate 174 to move downwards, so that the first locking column 175 drives the locking clamping rod 177 to separate from the locking groove 16, the locking plate 174 moves downwards to drive the power connecting rod 184 to move the power supply block 183 on the power supply column 181, and then the power supply spring 182 is extruded, and thus the process that the locking clamping rod 177 separates from the locking groove 16 is completed.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A solid insulation type high-low voltage bus comprises a bus body (1) and an installation body (2), and is characterized in that the top of the installation body (2) is provided with an installation plate (3), the top of the installation plate (3) is provided with a main groove (4) and an auxiliary groove (5), the side parts of the installation plate (3) are symmetrically provided with limiting plates (6), the bottom of the bus body (1) is provided with an installation surface (7), and the bottom of the installation surface (7) is provided with a main column (8) and an auxiliary column (9);

the main column (8) and the auxiliary column (9) are respectively arranged corresponding to the main groove (4) and the auxiliary groove (5), a fixing column (10) is arranged on the mounting plate (3), a preset screw hole (11) is formed in the fixing column (10), a mounting screw hole (20) is formed in the main column (8), and the fixing column (10) and the main column (8) are fixed through the preset screw hole (11) and the mounting screw hole (20) through a fixing bolt (22);

the bus body (1) both sides are equipped with mount (21), are equipped with canceling release mechanical system (12) on mount (21), and canceling release mechanical system (12) are connected with chucking board (13), are equipped with card post (14) on chucking board (13), are equipped with draw-in groove (15) on limiting plate (6), and card post (14) and draw-in groove (15) chucking setting, chucking board (13) bottom are equipped with locking groove (16), and locking groove (16) and supplementary locking mechanical system (17) locking setting.

2. The solid insulated high-low voltage busbar according to claim 1, wherein the busbar body (1) comprises a base body (101), the base body (101) is coated with a first insulating layer (102), the first insulating layer (102) is coated with a second insulating layer (103), and the second insulating layer (103) is coated with a weather-resistant layer (104).

3. The solid insulation type high-low voltage bus bar according to claim 2, wherein the first insulation layer (102) and the second insulation layer (103) are made of ethylene chlorotrifluoroethylene copolymer.

4. The solid insulation type high-low voltage bus bar according to claim 2, wherein the weather-resistant layer (104) is made of polyolefin.

5. The solid insulation type high-low voltage bus bar according to claim 1, wherein the reset mechanism (12) comprises a reset sleeve (121), a reset column (122) is slidably arranged in the reset sleeve (121), and the reset column (122) is connected with the inner bottom end of the reset sleeve (121) through a first reset spring (123).

6. The solid insulation type high-low voltage bus bar according to claim 5, wherein the reset sleeve (121) is provided with a reset groove (124), a reset block (125) is slidably arranged in the reset groove (124), the bottom end of the reset block (125) is connected with the reset post (122), and one side of the reset block (125) is connected with the reset groove (124) through a second reset spring (126).

7. The solid insulation type high-low voltage bus bar as claimed in claim 5, wherein the top end of the reset column (122) is further provided with a pushing block (127).

8. The solid insulation type high-low voltage bus bar according to claim 1, wherein the auxiliary locking mechanism (17) comprises an auxiliary locking box (171), auxiliary locking grooves (172) are formed in two sides of the auxiliary locking box (171), auxiliary locking blocks (173) are slidably arranged in the auxiliary locking grooves (172), two auxiliary locking blocks (173) are jointly connected with a locking plate (174), a first locking column (175) is arranged at the top end of the locking plate (174), a second locking column (176) is arranged at the bottom end of the locking plate, the first locking column (175) penetrates through the auxiliary locking box (171) to be connected with a locking clamping rod (177), the locking clamping rod (177) is locked with the locking groove (16), the second locking column (176) penetrates through the auxiliary locking box (171) to be connected with a pulling block (178), and a force supply mechanism (18) is further arranged in the auxiliary locking box (171).

9. The solid insulation type high-low voltage bus bar according to claim 8, wherein the force supply mechanism (18) comprises a force supply column (181), a force supply spring (182) is sleeved on the force supply column (181), one end of the force supply spring (182) is connected with the auxiliary locking box (171), the other end of the force supply spring is connected with a force supply block (183), the force supply block (183) is arranged on the force supply column (181) in a sliding manner, the top end of the force supply block (183) is connected with a power connecting rod (184), and the two power connecting rods (184) are connected with the locking plate (174).

10. The solid insulated high-low voltage bus bar according to claim 9, wherein the force supply column (181) is further provided with a stop block (19).

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