CN209963423U - Rigid power connector of bus duct - Google Patents

Abstract

The utility model discloses a rigid power connector of bus duct for rigid connection and flexible power connector between the row's of inserting formula power bus duct and the flexonics between the row's of inserting formula power bus duct, include: the connector comprises a connector shell, a connector plug, at least two double-end metal connecting sheets and an insulating plugboard; the double-end metal connecting sheet comprises a connecting plate and inserting sheets, and the two ends of the connecting plate are provided with the inserting sheets; the connector plug comprises a connector plug body structure with openings at two ends, wherein the top of the body structure is provided with a convex edge extending horizontally in the groove, the bottom of the connector plug body is provided with a patch jack and a limiting baffle, and the patch is clamped in the patch jack after passing through the limiting baffle and the patch jack; and slots matched with the convex edges are arranged on two sides of the insulating plug board. The utility model discloses the design is novel, simple structure, and is safe in utilization, makes things convenient for the dismouting, can realize fast and insert the fastening connection between the row's formula power bus duct and between flexible power connector and the row's formula power bus duct.

Description

Rigid power connector of bus duct

Technical Field

The utility model relates to a power bus duct connects technical field, and more specifically says so and relates to a rigid power connector of row's of inserting power bus duct.

Background

The bus duct is a closed metal device formed from copper and aluminium bus bars and used for distributing large power to various elements of decentralized system, and its bus duct system is a power distribution device capable of effectively transferring current, and has been increasingly substituted for electric wire and cable in indoor low-voltage power transmission main line engineering project. In recent years, the demand for wiring is increasing year by year in electrical equipment and power systems such as high-rise buildings and factories, and the use of the conventional circuit wiring method, i.e., the pipe-through laying method, causes many difficulties in construction and also causes low efficiency in installation and maintenance. There are many difficulties in configuring distribution lines when installing, maintaining or changing distribution systems. If the bus duct is adopted, the installation and maintenance of the power distribution system are convenient and fast, the working efficiency is greatly improved, and the power utilization safety factor of the building can be effectively improved.

The length of bus duct is limited, and when configuration distribution lines, because spatial position demand, the setting of bus duct needs to have the extensibility, so, has higher requirement to connection structure and firm in connection degree between the bus duct.

Therefore, how to provide a busway rigid power connector with good contact, firm connection and convenient assembly and disassembly is a problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a rigid power connector of bus duct, its novel structure, safe in utilization, make things convenient for the dismouting, can realize the fastening connection between the row's of inserting power bus duct.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a rigid power connector for a busway of a patch power supply for rigid connection between busways of a patch power supply and flexible connection between a flexible power connector and a busway of a patch power supply, comprising: the connector comprises a connector shell, a connector plug, at least two double-end metal connecting sheets and an insulating plugboard;

the double-end metal connecting sheet comprises a connecting plate and inserting sheets, inserting sheets are arranged at two ends of the connecting plate and are integrally connected with the connecting plate, and the two inserting sheets are in the same direction and are perpendicular to the connecting plate;

the connector plug is of a groove body structure with openings at two ends, the top of the groove body structure is provided with a convex edge extending to the horizontal direction in the groove, the bottom of the connector plug is provided with a plug sheet inserting hole and a limiting partition plate integrally formed with the connector plug, and the plug sheet inserting hole penetrates through the limiting partition plate and is clamped in the plug sheet inserting hole; the side surface of the connector plug is provided with a plurality of protruding barbs, and the bottom of the connector plug is provided with a safety pin and a positioning pin;

slots matched with the convex edges are formed in two sides of the insulating plug board, and the length of the insulating plug board is equal to the sum of the lengths of the two connector plugs.

Preferably, the convex edge arranged at the top of the connector plug is clamped in the insulating plugboard slot, so that the connector plug, the double-head metal connecting sheet and the insulating plugboard are spliced together.

Preferably, each rigid power connector comprises at least two double-ended metal connecting pieces, two connector plugs, an insulating plug board and a connector housing. A plurality of double-end metal connecting sheets are clamped in the connecting sheet inserting holes of the two connector plugs in parallel.

Preferably, the inserting sheet is provided with two inserting sheet working sections which are parallel and staggered with the same side section surface, the upper parts of the two inserting sheet working sections are integrally connected with the connecting plate through a transition chamfer, the middle parts of the two inserting sheet working sections are provided with longitudinal notches, the lower parts of the two inserting sheet working sections are mutually independent, and chamfers are arranged on the outer sides of the tail ends of the two inserting sheet working sections; two connect and insert piece working section and can insert as two pins in the U type metal power supply cutting, parallel dislocation set two the working section respectively with U type metal power supply cutting slot inner wall both sides fully extrude, produce bigger interact power, reach and make connect the outside section face of inserting piece working section respectively with the effect of U type metal power supply cutting slot inner wall in close contact with guarantees to reach double-end metal connection piece with the long-time effective, the effect of full contact of U type metal power supply cutting.

Preferably, the safety pin is arranged on the outer surface of the connector plug and located in the middle of the connecting sheet jack, and the positioning pin is arranged on the outer surface of the connector plug and located on the lower portion of the connecting sheet jack.

Preferably, the side surface of the connector shell is provided with a barb hole matched with the barb, so that the connector plug, the double-head metal connecting sheet and the insulating flashboard can be tightly clamped into the integral rigid power connector; and connector locking hooks are symmetrically arranged at the bottoms of the two sides of the connector shell, so that the rigid power connector can be clamped and fixed with the socket type power bus duct or the flexible power connector after being plugged.

Preferably, the connector plug is integrally formed with a limiting partition board around the connecting sheet insertion hole, and the limiting partition board is in a structure of '┤', and is used for spacing and fixing adjacent double-end metal connecting sheets.

Preferably, the connector plug is provided with a plurality of barbs on the side surface thereof, which are matched with the barb holes of the connector shell, and the barbs are used for tightly clamping the rigid power connector integrally.

Preferably, the tail end of the safety pin is of a tapered wedge structure, the slope of the tapered wedge structure corresponds to the slope of the tapered wedge structure of the safety pin guide block arranged on the protective baffle plate in the row-plugging power supply bus duct protective socket, and the tapered wedge structure is in a transition state.

When the rigid power connector is not plugged into the protection socket, the safety pin is not led into the safety pin hole in advance, the protection baffle is not stirred, the reset spring is in a natural state, the positions of the protection baffle jack on the protection baffle and the socket jack are staggered, the protection baffle shields the socket jack, the double-end metal connecting sheet cannot pass through the socket jack and the protection baffle jack and cannot be inserted into the U-shaped inserting strip slot, and the protection socket is in a closed protection state; when the rigid power supply connector needs to be plugged into a protection socket, the safety pin is firstly guided into the safety pin hole, the safety pin dials the protection baffle, the reset spring is in a compressed state, and after the protection baffle slides, the protection baffle jack on the protection baffle is correspondingly superposed with the socket jack, so that the plugging sheet is smoothly plugged into the U-shaped plugging strip slot through the socket jack and the protection baffle jack, and then the locking hook is firmly clamped on the plug row type power supply bus duct; when the rigid power supply connector is pulled out, the safety pin is pulled out, the return spring returns to the natural state, the protective baffle is reset, the protective baffle shields the jack of the socket, and the protective socket returns to the closed protection state;

preferably, the positioning pins can be arranged at different positions of the connector plug, the positioning pins and the positioning pin holes at different positions can be used for distinguishing the specification models of the rigid power connector and the strip power bus duct or the flexible power connector, and the rigid power connector can be inserted into the matched strip power bus duct or the flexible power connector only when the specification models of the rigid power connector and the strip power bus duct or the flexible power connector are matched.

Preferably, slots matched with the convex edges are arranged on two sides of the insulating plugboard along the radial direction, and the length of the insulating plugboard is equal to the sum of the lengths of the two connector plugs. The insulating plugboard covers the inner double-end metal connecting sheet and does not expose, and the double-end metal connecting sheet is protected and fixed.

Preferably, the connector plug is made of flame-retardant insulating materials, so that the safety of the rigid power connector in the processes of disassembly, assembly and use is improved.

According to the technical scheme, the utility model discloses a rigid power connector of power bus duct of row of inserting type is provided, through the whole of the tight joint combination between connector plug, double-end metal connecting piece, insulating picture peg and the connector shell, can realize the rigid connection between two power bus ducts of row of inserting type; the rigid power connector can enable the strip power bus duct to extend in a linear direction in a connected mode, and the rigid power connector and the flexible power connector can enable the strip power bus duct to extend in a curved direction in a connected mode. The utility model discloses overall structure is novel, easy dismounting, and it is strong to connect the fastness, and all parts adopt the formula of inserting assembly, need not the instrument and can accomplish rigid power connector and the dismouting process of inserting row's formula power bus duct or flexible power connector.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

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

figure 2 is a side view of the connector plug of the present invention;

fig. 3 is a perspective view of the connector plug of the present invention;

FIG. 4 is a schematic structural view of the double-headed metal connecting sheet of the present invention;

FIG. 5 is a schematic structural view of the insulating board of the present invention;

fig. 6 is a schematic structural diagram of the connector housing of the present invention;

FIG. 7 is a first assembly view of the rigid power connector of the present invention;

FIG. 8 is a second drawing illustrating the assembly of the rigid power connector of the present invention;

fig. 9 is a schematic side view of the overall structure of a first embodiment of the present invention;

fig. 10 is a bottom view of the overall structure of the first embodiment of the present invention;

fig. 11 is a first application diagram of a linear direction extending structure according to a first embodiment of the present invention;

fig. 12 is a schematic view illustrating an application of a curve direction extending structure according to a first embodiment of the present invention; wherein the reference numbers in the figures denote:

1 is a connector shell, 11 is a connector locking hook, and 12 is a barb hole;

2, a connector plug, 21, a patch jack, 22, a safety pin, 23, a positioning pin, 24, a convex edge, 25, a limiting partition plate and 26, wherein the connector plug is a connector plug;

3, a double-end metal connecting sheet, 31, a connecting plate, 32, 320, 321 and a chamfer angle;

4, an insulating plug board, 41, a slot;

5 is a power bus duct of a socket type;

and 6, a flexible power connector.

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.

Example 1

Referring to fig. 1-9, embodiment 1 of the present invention discloses a two-hole rigid power connector for a bus duct, which is suitable for rigid connection between row-inserting power bus ducts of 2U-shaped copper bars, and includes: the connector comprises a connector shell 1, a connector plug 2, two double-end metal connecting sheets 3 and an insulating flashboard 4; the double-end metal connecting piece 3 comprises a connecting plate 31 and inserting pieces 32, the two inserting pieces 32 are in the same direction and are perpendicular to the connecting plate 31, the inserting pieces 32 are provided with two inserting piece working sections (320) which are parallel and staggered to the same side section surface, the upper parts of the two inserting piece working sections (320) are connected through a transition chamfer, the middle parts of the two inserting piece working sections are provided with longitudinal notches, the lower parts of the two inserting piece working sections are independent, and chamfers (321) are arranged on the outer sides of the tail ends of the two inserting piece working sections (320); the connector plug 2 is of a groove body structure with two open ends, the top of the groove body structure is provided with a convex edge 24 extending towards the horizontal direction in the groove, the bottom of the connector plug 2 is provided with a patch jack 21 and a limiting partition plate 25 integrally formed with the connector plug 2, and the patch plug 32 penetrates through the limiting partition plate 25 and the patch jack 21 and is clamped in the patch jack 21; the side of the connector plug 2 is provided with a plurality of protruding barbs 26, the bottom of the connector plug 2 is provided with a safety pin 22 and a positioning pin 23, the safety pin 22 is arranged on the outer surface of the connector plug 2 and is positioned in the middle of the connecting sheet insertion hole 21, and the positioning pin 23 is arranged on the outer surface of the connector plug 2 and is positioned at the lower part of the connecting sheet insertion hole 21.

The convex edge 24 arranged at the top of the connector plug 2 is clamped in the slot of the insulating plugboard 4, so that the connector plug 2, the double-head metal connecting sheet 3 and the insulating plugboard 4 are spliced together.

The side of the connector housing 1 is provided with barb holes 12 matching with the barbs 26 for the rigid power connector to be tightly clamped as a whole. And the bottom of the two sides of the connector shell 1 is provided with a connector locking hook 11 for clamping and fixing with the socket type power bus duct 5 or the flexible power connector 6.

In order to further optimize the above technical solution, the connector plug 2 is integrally formed with a spacing spacer 25 around the connecting piece insertion hole 21.

In order to further optimize the above solution, the connector plug 2 is provided with several barbs 26 on the side.

In order to further optimize the technical scheme, the tail end of the safety pin 22 is of a tapered wedge structure, the slope of the tapered wedge structure corresponds to the slope of a tapered wedge structure of a safety pin guide block arranged on a protective baffle plate in a row-type power bus duct protective socket, and the tapered wedge structure is in a transition state.

In order to further optimize the technical scheme, the specification and model of the rigid power connector and the plug-in power bus duct 5 or the flexible power connector 6 can be distinguished by the arranged positioning pin 23, and the rigid power connector can be inserted into the plug-in power bus duct 5 or the flexible power connector 6 only if the positioning pin 23 is matched with a protection socket positioning pin hole of the plug-in power bus duct 5 or the flexible power connector 6.

It is to be noted that, referring to fig. 7, the two connector pins 2 of the rigid power connector are mounted in opposite directions, and the safety pins of the complete rigid power connector are arranged diagonally.

In order to further optimize the above technical solution, the insulating board 4 is provided with slots 41 matching with the protruding edges 24 at both sides along the radial direction, and the length of the insulating board 4 is equal to the sum of the lengths of the two connector plugs 2.

In order to further optimize the above technical solution, the connector housing 1 is provided with barb holes 12 matching with the barbs 26 on the side for clamping and fixing the connector plug.

In order to further optimize the above technical solution, the limiting partition 25 is in the structure "┤", and the double-ended metal connecting piece 3 is clamped in the middle inserting piece inserting hole 21 of the limiting partition 25.

In order to further optimize the above technical solution, the connector plug 2 is made of flame retardant insulating material.

Refer to fig. 9 for the side view of the overall structure of the first embodiment of the present invention, which provides a two-hole rigid power connector of a bus duct, its structural principle and assembly method:

1. the two connector plugs 2 are combined together, and one side of the bottom surface of each connector plug 2 with the mark is placed at the middle joint;

2. inserting the two-end inserting sheets 32 of one double-end metal connecting sheet 3 into the connecting sheet inserting holes 21 at the same position in the two connector plugs 2 respectively; inserting another double-end metal connecting sheet 3 into another group of connecting sheet inserting holes 21 at corresponding positions in the same manner;

3. horizontally inserting one insulating plug board 4 from one side of the connector plug 2, and after inserting, clamping the convex edge 24 with the slot 41 to realize the clamping of the two connector plugs 2 and the insulating plug board 4;

4. the connector plug 2 with the double-end metal connecting sheet 3 clamped is clamped in the connector shell 1, and the barbs 26 on the two sides of the connector plug 2 protrude from the barb holes 12 on the two sides of the connector shell 1, so that clamping and fixing of the complete rigid power connector are realized.

Referring to fig. 11, an application of a two hole rigid power connector for a bus duct is shown:

1. linearly placing two segments of plug-in power supply bus ducts which need to be linearly extended and connected, wherein end protection sockets of the two segments of plug-in power supply bus ducts are adjacent;

2. simultaneously clamping a rigid power connector in the end protection socket of the two-section plug-in power bus duct sections, guiding a safety pin of the rigid power connector into a safety pin hole of the end protection socket, stirring a protection baffle by the safety pin, enabling a jack of the protection baffle to coincide with a jack of the socket, inserting a plug sheet of a bimetallic connecting sheet to be inserted into a U-shaped metal inserting strip slot, and clamping a locking hook of a connector shell on the plug-in power bus duct sections to realize safe electric connection in the linear direction of the two-section plug-in power bus duct sections;

example 2

Referring to fig. 10, the overall structure of the second embodiment of the present invention is schematically illustrated, and the difference from example 1 is only that a four-hole rigid power connector of a strip power bus slot is provided, the double-headed metal connecting sheet 3 is provided with four pieces, four connecting sheet inserting holes 21 are arranged at the bottom of each connector plug 2, correspondingly, four limiting partition plates 25 are arranged in the connector plug 2, and the four limiting partition plates 25 are arranged side by side. The double-end metal connecting sheet 3 is clamped inside the connector plug 2 in parallel by taking four sheets as a group.

The embodiment is suitable for rigid connection among the 4U-shaped copper strip power bus ducts.

Example 3

Referring to fig. 12, an overall structural diagram of a third embodiment of the present invention is shown, and the difference from fig. 11 is that only a two-hole rigid power connector and a matched flexible power connector of a strip power bus duct are provided, so as to jointly implement an extended connection in a curved direction of the strip power bus duct.

1. Two segments of plug-in power supply bus ducts which need to be extended and connected in the curve direction are placed in parallel, and end protection sockets of the two segments of plug-in power supply bus ducts are placed in parallel;

2. a matched flexible power connector is arranged between the two sections of the power bus ducts;

3. firstly, a first rigid power connector is simultaneously clamped in a left end protection socket of an upper-section plug-in power bus duct and an upper end protection socket of a flexible power connector, a safety pin of the first rigid power connector is led into the end protection socket and passes through a safety pin jack, the safety pin shifts a protection baffle, the protection baffle is overlapped with the socket jack, a plug sheet of a bimetallic connecting sheet is inserted into a U-shaped metal plug strip, and a locking hook of a first connector shell is respectively clamped on the upper-section plug-in power bus duct and the flexible power connector, so that the safe electric connection of the upper-section plug-in power bus duct and an upper junction box of the flexible power connector is realized;

4. secondly, a second rigid power connector is simultaneously clamped in a left end protection socket of the lower-section plug-in power bus duct and a lower end protection socket of the flexible power connector, a safety pin of the second rigid power connector is led into the end protection socket and passes through a safety pin jack, the safety pin shifts a protection baffle, the protection baffle is overlapped with the socket jack, a plug sheet of a bimetallic connecting sheet is inserted into a U-shaped metal insert strip, and a locking hook of a second connector shell is respectively clamped on the lower-section plug-in power bus duct and the flexible power connector, so that the safe electric connection of the lower-section plug-in power bus duct and a lower junction box of the flexible power connector is realized;

at the moment, the two-hole rigid power connector and the matched flexible power connector jointly realize the extended safe electric connection in the curve direction of the matched socket type power bus duct.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A rigid power connector of a bus duct is used for rigid connection between row-in power bus ducts and flexible connection between a flexible power connector and the row-in power bus ducts, and is characterized by comprising: the connector comprises a connector shell (1), a connector plug (2) arranged in the connector shell (1), at least two double-head metal connecting sheets (3) and an insulating flashboard (4);

the double-end metal connecting piece (3) comprises a connecting plate (31) and connecting inserting pieces (32), the connecting inserting pieces (32) are arranged at two ends of the connecting plate (31) and are integrally connected with the connecting plate (31), and the two connecting inserting pieces (32) are in the same direction and are perpendicular to the connecting plate (31);

the connector plug (2) is of a groove body structure with two open ends, the top of the groove body structure is provided with a convex edge (24) extending towards the horizontal direction in the groove, the bottom of the connector plug (2) is provided with a plug sheet inserting hole (21) and a limiting partition plate (25) integrally formed with the connector plug (2), and the plug sheet inserting hole (32) penetrates through the limiting partition plate (25) and the plug sheet inserting hole (21) to be clamped in the plug sheet inserting hole (21); the bottom of the connector plug (2) is provided with a safety pin (22) and a positioning pin (23).

2. A rigid power connector for a bus duct according to claim 1, characterized in that the connector plug (2) is laterally provided with several barbs (26) projecting.

3. A rigid power connector of a bus duct according to claim 2, characterized in that the side of the connector housing (1) is provided with a barb hole (12) matching with the barb (26); and the bottom of the two sides of the connector shell (1) is provided with a connector locking hook (11), and the connector locking hook (11) is used for being clamped and fixed with the socket type power bus duct (5) or the flexible power connector (6).

4. The rigid power connector of the bus duct of claim 1, wherein the connector plug (2) is integrally formed with a limiting partition (25) around the plug insertion hole (21), the limiting partition (25) is in a structure of '┤ spacing', and the plug insertion hole (21) is arranged in the middle of each limiting partition (25).

5. The rigid power connector of the bus duct is characterized in that the safety pin (22) is arranged in the middle of the patch jack (21) of the connector plug (2), and the tail end of the safety pin is of a wedge-shaped structure.

6. The rigid power connector of the bus duct is characterized in that the positioning pin (23) is arranged at the lower part of the patch jack (21) of the connector plug (2) and is matched with the positioning pin hole of the end protection socket.

7. The rigid power connector of the bus duct is characterized in that slots (41) matched with the convex edges (24) are arranged on two sides of the insulating plug board (4) along the radial direction, and the length of the insulating plug board (4) is equal to the sum of the lengths of the two connector plugs (2).

8. The rigid power connector of the bus duct according to claim 1, wherein the inserting sheets (32) of the two double-ended metal connecting sheets (3) are provided with two inserting sheet working sections (320) which are parallel to and staggered with the same side section surface, the upper parts of the two inserting sheet working sections (320) are connected through a transition chamfer, the middle parts of the two inserting sheet working sections are provided with longitudinal notches, the lower parts of the two inserting sheet working sections are independent, and chamfers (321) are arranged on the outer sides of the tail ends of the two inserting sheet working sections (320).

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