CN212874920U - Bus field installation joint - Google Patents

Abstract

The utility model discloses a bus field erection joint relates to and connects technical field. This on-spot erection joint of bus, including main plug and vice plug, the device shell has all been welded to the both sides of main plug, and the equal sliding connection in inside of two device shells has the bearing, and the round bar has all been welded in the inside of two bearings, and the one end welding that the device shell was kept away from to two round bars has the hexagonal piece. When the connector is installed, the enameled wire of the electric wire to be connected is removed, the metal wire is leaked, and the wire connecting method comprises the following steps: upwards stimulate and draw the piece, draw the piece to drive the connecting plate and remove, the connecting plate drives splint rebound through the spliced pole, the telescopic link is tensile, the telescopic link carries on spacingly with splint, the spring is stretched, the electric wire that will remove the enameled wire inserts on leading electrical rack through the thread hole, loosen and draw the piece, the spring makes splint reset, presss from both sides the electric wire tightly, does not use the screw to connect, when connecting, better that can connect.

Description

Bus field installation joint

Technical Field

The utility model relates to a connect technical field, specifically be a bus field erection joint.

Background

The wire connector is also called a wire terminal, and after the wires are laid, in order to form a continuous line, the wires must be connected into a whole, and the connection points are called wire connectors.

The existing wire joint can be well connected with wires, and the wires are communicated with each other, but when the wires are connected into the existing wire joint, the wires are pressed on the conducting strips by screws, when the wires are pressed on the conducting strips by the screws, when the screws are tightened, the wires with too large force can be crushed on the conducting strips, the wires with too small force can fall off, and the wires are not well connected when being connected.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bus field erection joint does not use the screw to connect, when connecting, better that can connect.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a bus field erection joint, includes king-plug and vice plug, the device shell, two have all been welded to the both sides of king-plug the equal sliding connection in inside of device shell has a bearing, two the round bar, two have all been welded in the inside of bearing the one end welding that the device shell was kept away from to the round bar has the hexagonal piece, and the one end welding that the hexagonal piece was kept away from to two round bars has the threaded rod, two the stopper has all been welded to the both sides of device shell inner wall, the nut has all been welded to the both sides of vice plug.

The service plug includes the owner shell, one side welding that the inner wall of owner shell is close to vice plug has the picture peg, the picture peg is kept away from vice plug's one end welding and is had double-layered traditional thread binding putting, the top welding of double-layered traditional thread binding putting has the spliced pole, the spliced pole is kept away from the one end welding of double-layered traditional thread binding putting and is had the connecting plate, the top of main shell is run through at the top of connecting plate, and the top welding of connecting plate has the piece of drawing, the main line hole has been seted up to one.

The auxiliary plug comprises an auxiliary shell, an inserting cylinder is fixedly mounted on the inner wall of the auxiliary shell close to the edge of the left side, and an auxiliary wire hole is formed in one side, away from the main plug, of the auxiliary shell.

In order to make and to press from both sides the line on the device, conduct the utility model relates to a bus field erection joint is preferred, it is including leading electrical frame to press from both sides the line device, the bottom fixed mounting who leads the electrical frame inner wall has the telescopic link, the telescopic link is kept away from the one end welding that leads the electrical frame and is had splint, the bottom welding of splint has the spring.

In order to make the electric wire on the device can insert the trapping mechanism and install, conduct the utility model relates to a bus field erection joint is preferred, the one end that vice plug was kept away from to the picture peg and the equal fixed mounting of one end of inserting a section of thick bamboo and keeping away from the picture peg have trapping mechanism, the position in main line hole and trapping mechanism's position phase-match, the position in auxiliary line hole and trapping mechanism's position phase-match.

In order to make picture peg on the device can insert the inside of inserting a section of thick bamboo, conduct the utility model relates to a bus field erection joint is preferred, the relative one side of main casing and subshell all is the opening form, the picture peg with insert a section of thick bamboo phase-match, the spliced pole is kept away from the one end welding of connecting plate and is on the obverse surface of splint.

In order to make the spring on the device can be with reseing, conduct the utility model relates to a bus field erection joint is preferred, the one end welding that splint were kept away from to the spring is in the bottom of electrically conductive frame inner wall.

In order to make the electric conductivity of the conductive frame, the inserting cylinder and the inserting plate material on the device better, the utility model relates to a bus field installation joint is preferred, the conductive frame, the inserting cylinder and the inserting plate material are superconducting materials.

The utility model provides a bus field erection joint. The method has the following beneficial effects:

(1) this bus field erection joint, when erection joint head, the electric wire that will need to connect removes the enameled wire, spills the wire, connects the electric wire method: upwards stimulate and draw the piece, draw the piece to drive the connecting plate and remove, the connecting plate drives splint rebound through the spliced pole, the telescopic link is tensile, the telescopic link carries on spacingly with splint, the spring is stretched, the electric wire that will remove the enameled wire inserts on leading electrical rack through the thread hole, loosen and draw the piece, the spring makes splint reset, presss from both sides the electric wire tightly, does not use the screw to connect, when connecting, better that can connect.

(2) This bus field erection connects, insert the picture peg and insert a section of thick bamboo in, remove hexagonal piece, hexagonal piece drives the bearing through the round bar and removes, when the threaded rod contacts the nut, twists and moves hexagonal piece, makes the threaded rod carry out rotary motion in the nut, makes the bearing remove in the inside of device shell, connects the device, makes the device be convenient for assemble.

Drawings

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

fig. 2 is a cross-sectional view of the main plug of the present invention;

fig. 3 is a cross-sectional view of the auxiliary plug of the present invention;

fig. 4 is a sectional view of the wire clamping device of the present invention.

In the figure: 1. a main plug; 101. a main housing; 102. inserting plates; 103. a wire clamping device; 1031. a conductive frame; 1032. a spring; 1033. a splint; 1034. a telescopic rod; 104. connecting columns; 105. a connecting plate; 106. pulling the block; 107. a main line hole; 2. a sub-plug; 201. a sub-housing; 202. inserting a cylinder; 203. a secondary wire hole; 3. a device housing; 4. a bearing; 5. a round bar; 6. a hexagonal block; 7. a threaded rod; 8. a limiting block; 9. and a nut.

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.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a bus field erection joint, including king-plug 1 and auxiliary plug 2, device shell 3 has all been welded to king-plug 1's both sides, the equal sliding connection in inside of two device shells 3 has bearing 4, round bar 5 has all been welded to the inside of two bearing 4, the one end welding that device shell 3 was kept away from to two round bar 5 has hexagonal piece 6, and the one end welding that hexagonal piece 6 was kept away from to two round bar 5 has threaded rod 7, stopper 8 has all been welded to the both sides of 3 inner walls of two device shells, nut 9 has all been welded to auxiliary plug 2's both sides.

The main plug 1 comprises a main shell 101, a plug board 102 is welded on one side, close to the auxiliary plug 2, of the inner wall of the main shell 101, a wire clamping device 103 is welded on one end, away from the auxiliary plug 2, of the plug board 102, a connecting column 104 is welded on the top of the wire clamping device 103, a connecting plate 105 is welded on one end, away from the wire clamping device 103, of the connecting column 104, the top of the connecting plate 105 penetrates through the top of the main shell 101, a pull block 106 is welded on the top of the connecting plate 105, and a main wire hole 107 is formed in one side, away.

The auxiliary plug 2 comprises an auxiliary shell 201, an inserting barrel 202 is fixedly mounted on the inner wall of the auxiliary shell 201 close to the edge of the left side, and an auxiliary wire hole 203 is formed in one side, far away from the main plug 1, of the auxiliary shell 201.

In this embodiment: the end of the plug board 102 far away from the auxiliary plug 2 and the end of the plug barrel 202 far away from the plug board 102 are both fixedly provided with the wire clamping device 103, the position of the main wire hole 107 is matched with the position of the wire clamping device 103, the position of the auxiliary wire hole 203 is matched with the position of the wire clamping device 103, the pull block 106 is pulled upwards to drive the connecting plate 105 to move, the connecting plate 105 is opened through the connecting column 104 to drive the wire clamping device 103, the pull block 106 is loosened to clamp the wire, the wire of the enameled wire is removed from the other end, the wire is inserted into the wire clamping device 103 in the auxiliary shell 201 through the auxiliary wire hole 203 by using the same wire connecting method, after connection, the plug board 102 is inserted into the plug barrel 202, the hexagonal block 6 is moved, the hexagonal block 6 drives the bearing 4 to move through the round rod 5, when the threaded rod 7 contacts the nut 9, the hexagonal block 6 is screwed to enable the threaded rod 7 to rotate and move in the nut 9, so that the bearing 4, the devices are connected.

Specifically, the method comprises the following steps: the wire clamping device 103 comprises a conductive frame 1031, a telescopic rod 1034 is fixedly mounted at the bottom of the inner wall of the conductive frame 1031, a clamping plate 1033 is welded at one end of the telescopic rod 1034, which is far away from the conductive frame 1031, and a spring 1032 is welded at the bottom of the clamping plate 1033.

In this embodiment: the opposite sides of the main shell 101 and the sub-shell 201 are both in an open shape, the inserting plate 102 is matched with the inserting tube 202, one end of the connecting column 104, which is far away from the connecting plate 105, is welded on the front surface of the clamping plate 1033, one end of the spring 1032, which is far away from the clamping plate 1033, is welded on the bottom of the inner wall of the conductive frame 1031, the inserting tube 202 and the inserting plate 102 are made of superconducting materials, the clamping plate 1033 moves upwards, the telescopic rod 1034 stretches, the telescopic rod 1034 limits the clamping plate 1033, the spring 1032 is stretched, an electric wire with an enameled wire removed is inserted into the conductive frame 1031 through the main wire hole 107, the pulling block 106 is loosened, the.

During the use, when the connector is installed, the enameled wire is removed from the electric wire to be connected, the metal wire is leaked, and the wire connecting method comprises the following steps: the pulling block 106 is pulled upwards, the pulling block 106 drives the connecting plate 105 to move, the connecting plate 105 drives the clamping plate 1033 to move upwards through the connecting column 104, the telescopic rod 1034 stretches, the telescopic rod 1034 limits the clamping plate 1033, the spring 1032 is stretched, the electric wire with the enameled wire removed is inserted into the conductive frame 1031 through the main wire hole 107, the pulling block 106 is loosened, the spring 1032 resets the clamping plate 1033, the electric wire is clamped, the electric wire with the enameled wire removed at the other end is removed, the wire clamping device 103, which is inserted into the sub-housing 201 through the sub-wire hole 203 using the same wire connection method as described above, is connected, the inserting plate 102 is inserted into the inserting cylinder 202, the hexagonal block 6 is moved, the hexagonal block 6 drives the bearing 4 to move through the round rod 5, when the threaded rod 7 contacts the nut 9, the hexagonal block 6 is screwed to rotationally move the threaded rod 7 in the nut 9, and the bearing 4 is moved inside the device case 3 to connect the devices.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A bus field installation joint comprises a main plug (1) and an auxiliary plug (2), and is characterized in that: the device shell (3) is welded on two sides of the main plug (1), the bearings (4) are connected inside the two device shells (3) in a sliding mode, round rods (5) are welded inside the two bearings (4), a hexagonal block (6) is welded on one end, away from the device shells (3), of each round rod (5), a threaded rod (7) is welded on one end, away from the hexagonal block (6), of each round rod (5), limiting blocks (8) are welded on two sides of the inner wall of each device shell (3), and nuts (9) are welded on two sides of the auxiliary plug (2);

the main plug (1) comprises a main shell (101), an inserting plate (102) is welded on one side, close to the auxiliary plug (2), of the inner wall of the main shell (101), a wire clamping device (103) is welded on one end, far away from the auxiliary plug (2), of the inserting plate (102), a connecting column (104) is welded on the top of the wire clamping device (103), a connecting plate (105) is welded on one end, far away from the wire clamping device (103), of the connecting column (104), the top of the connecting plate (105) penetrates through the top of the main shell (101), a pull block (106) is welded on the top of the connecting plate (105), and a main wire hole (107) is formed in one side, far away from the auxiliary plug (2), of the main shell;

the auxiliary plug (2) comprises an auxiliary shell (201), an inserting barrel (202) is fixedly mounted on the inner wall of the auxiliary shell (201) close to the edge of the left side, and an auxiliary wire hole (203) is formed in one side, away from the main plug (1), of the auxiliary shell (201).

2. A field-installable bus connector as defined in claim 1, wherein: the wire clamping device (103) comprises a conductive frame (1031), a telescopic rod (1034) is fixedly mounted at the bottom of the inner wall of the conductive frame (1031), a clamping plate (1033) is welded at one end, away from the conductive frame (1031), of the telescopic rod (1034), and a spring (1032) is welded at the bottom of the clamping plate (1033).

3. A field-installable bus connector as defined in claim 1, wherein: the plug board is characterized in that a wire clamping device (103) is fixedly mounted at one end, away from the auxiliary plug (2), of the plug board (102) and one end, away from the plug board (102), of the plug inserting cylinder (202), the position of the main wire hole (107) is matched with the position of the wire clamping device (103), and the position of the auxiliary wire hole (203) is matched with the position of the wire clamping device (103).

4. A field-installable bus connector as claimed in claim 2, wherein: the relative one side of main casing (101) and subshell (201) all is the opening form, picture peg (102) and a section of thick bamboo of inserting (202) phase-match, the one end welding of connecting plate (105) is kept away from in spliced pole (104) is on the obverse surface of splint (1033).

5. A field-installable bus connector as claimed in claim 2, wherein: one end of the spring (1032) far away from the clamping plate (1033) is welded to the bottom of the inner wall of the conductive frame (1031).

6. A field-installable bus connector as claimed in claim 2, wherein: the conducting frame (1031), the inserting barrel (202) and the inserting plate (102) are all made of superconducting materials.

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