CN111370902B - Anti-rotation winding metal conductive connector for rotary table and using method - Google Patents

Abstract

The invention discloses a metal conductive joint used for anti-rotation winding on a turntable and a method of using the same. The metal conductive joint comprises a metal conductive joint body, one end of the metal conductive joint body is a rotary end joint, and the other end is a non-rotation end joint The metal conductive joint body is provided with at least one sleeve that can revolve around the central axis of the metal conductive joint body and can rotate around its own central axis, and the rotating end joint leads out the rotating conductive segment to connect the conductor inside the sleeve, The conductor in the sleeve is connected to the transition conductive segment, the transition conductive segment is connected to the non-rotation conductive segment through the rotating conductive lap joint, and the non-rotated conductive segment is connected to the non-rotating end joint. The present invention realizes that under the premise of having a conductive function, the same metal conductive connecting wire has the function of rotating and winding at one end and non-rotating at the other end.

Description

Anti-rotation winding metal conductive connector for rotary table and using method

Technical Field

The invention relates to a metal conductive joint, in particular to a metal conductive joint used for preventing rotation winding on a rotary table and a using method.

Background

On current unipolar revolving stage, if the one end of metal conductive connecting wire is connected on the revolving stage, the device on other platforms is connected to the other end, when unipolar revolving stage was rotatory round the axle center, traditional metal conductive connecting wire can be because of following the revolving stage and together rotate, takes place to turn round wrong and the winding, the normal working property and the security condition of the same root connecting wire on the different platforms are being directly influenced.

In the existing invention design, most of the metal conductive connecting wires are mechanical anti-rotation structures, and on the premise that the metal conductive connecting wires have a conductive function, the metal conductive connecting wires have the function that one end of each metal conductive connecting wire is wound in a rotating mode, and the other end of each metal conductive connecting wire is not wound in a rotating mode, so that the metal conductive connecting wires are inconvenient to operate.

Disclosure of Invention

The invention aims to provide a metal conductive joint used for preventing rotation winding on a rotary table and a use method thereof, which have the function that one end of the same metal conductive connecting wire is wound in a rotating mode and the other end of the same metal conductive connecting wire is not wound in a rotating mode on the premise of having a conductive function.

In order to achieve the purpose, the invention adopts the following scheme:

the metal conductive joint used for preventing the rotation winding on the rotary table comprises a metal conductive joint body, one end of the metal conductive joint body is a rotating end joint, the other end of the metal conductive joint body is a non-rotating end joint, at least one sleeve which can revolve around the central axis of the metal conductive joint body and can rotate around the central axis of the sleeve is arranged in the metal conductive joint body, the rotating end joint leads out the rotating conductive segment to be connected with the conductive body in the sleeve, the conductive body in the sleeve is connected with the transition conductive segment, the transition conductive segment is connected with the non-rotating conductive segment through a rotating conductive lap joint, the non-rotating conductive segment is connected with a non-rotating end joint, the rotary conductive lap joint comprises a conductive ring which is connected with the non-rotary conductive segment and has a funnel-shaped cross section and a conductive ball which is connected with the transition conductive segment and can slide in the conductive ring.

The metal conductive joint used for preventing the rotation winding on the rotary table has the advantages that the number of the rotary conductive segments led out by the rotary end joint is equal to the number of the non-rotary conductive segments led out by the non-rotary end joint, and is equal to the number of the sleeves; when the number of the sleeves is more than 2, the sleeves are axially and symmetrically distributed along the central axis of the metal conductive joint body.

The use method of the anti-rotation winding metal conductive joint for the turntable comprises the following steps: and connecting a rotating end on the metal conductive joint body with a device M on the rotary table, wherein the rotating end freely rotates along with the rotation of the rotary table, and a non-rotating end is connected with a ground device.

Has the advantages that:

the anti-winding metal conductive connector is simple in structure, convenient to operate, low in requirements on skills and environment of workers, capable of achieving anti-winding and electrifying functions and high in universality.

Drawings

Fig. 1 is a schematic view of a metal conductive joint structure according to the present invention.

FIG. 2 is a schematic diagram of a method of using the metal conductive contact of the present invention.

In the figure: 1 and 2 are rotating conducting segments; 3 and 4 are transition conducting segments; 5 and 6 are non-rotating conductive segments; 7 is a device M; 8 and 9 are electric conductors; 10 and 11 are sleeves; 12 and 13 are rotary conductive lap joints; 14 is a rotary table; 15 is a metal conductive joint body; 16 is a non-rotating end fitting; 17 is a rotary end joint; 18 is a ground device; and 19 is a bracket.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings:

as shown in fig. 1, the number of the rotating conductive segments led out by the rotating end connector, the number of the non-rotating conductive segments led out by the non-rotating end connector, and the number of the sleeves are 2 in this embodiment as an example for explanation:

the metal conductive joint for preventing the rotation winding on the turntable of the embodiment comprises a metal conductive joint body 15, one end of the metal conductive joint body 15 is a rotating end joint 17, the other end of the metal conductive joint body 15 is a non-rotating end joint 16, two sleeves 10 and 11 which can revolve around the central axis of the metal conductive joint body 15 and can rotate around the central axis of the sleeve are symmetrically arranged in the metal conductive joint body 15 along the central axis, the rotating end joint 17 leads out a rotating conductive section 1 and is connected with a conductor 8 in the sleeve 10, the rotating end joint 17 leads out a rotating conductive section 2 and is connected with a conductor 9 in the sleeve 11, the conductor 8 in the sleeve 10 is connected with a transition conductive section 3, the conductor 9 in the sleeve 11 is connected with a transition conductive section 4, the transition conductive section 3 is connected with a non-rotating conductive section 5 through a rotating conductive lap joint 12, the transition conducting segment 4 is connected with the non-rotation conducting segment 6 through a rotation conducting lap joint 13, the rotation conducting lap joint 12 and the rotation conducting lap joint 13 respectively comprise a conducting ball and a common conductive ring with a funnel-shaped cross section, and the non-rotation conducting segment 5 and the non-rotation conducting segment 6 are connected with a non-rotation end joint 16.

The number of rotating end fitting lead-out rotating conductive segments and the number of non-rotating end fitting lead-out non-rotating conductive segments are equal and equal to the number of sleeves; when the number of the sleeves is more than 2, the sleeves are axially and symmetrically distributed along the central axis of the metal conductive joint body. The number is generally 1 to 5 depending on the case.

The use method of the anti-rotation winding metal conductive joint for the turntable comprises the following steps: the rotating end of the metal conductive connector body 15 is connected with the device M7 on the rotary table 14, the rotating end freely rotates along with the rotation of the rotary table 14, and the non-rotating end is connected with the ground device 18. The rotary table 14 rotates in a working mode, the device M7 on the rotary table 14 rotates along with the rotary table, the rotary end can freely rotate along with the device M7, and the rotary end conductive section can freely rotate along with the driving of the rotary end; in the process, the part of the rotating end conductive segment in the sleeve can freely rotate by taking the axis of the position where the rotating end conductive segment is overlapped with the transition conductive segment as a rotating shaft; the transition conducting section is driven by the rotating conducting section to rotate freely by taking the central shaft of the metal conducting joint body as an axis, the conducting ball is driven to slide freely in the funnel-shaped conducting ring in the process of free rotation of the transition conducting section, the funnel-shaped conducting ring is collected at the non-rotating end through the non-rotating conducting section, and the redundant part of the non-rotating end is supported by the support 19.

The device can realize that the wire at one end of the metal conductive joint rotates and the wire does not rotate, and has simple and convenient whole process flow, low technical requirement on workers and high reliability. Although the embodiments are not exhaustive of all the fields in which the rotary metallic contact may be used, it will be appreciated by those skilled in the art that the above embodiments may be combined with one another to achieve the same or similar fields in a similar manner without creative efforts. And are merely representative of embodiments, given the limited space available.

Claims (2)

1. The metal conductive connector used for preventing the rotation winding on the rotary table is characterized by comprising a metal conductive connector body, one end of the metal conductive joint body is a rotating end joint, the other end is a non-rotating end joint, at least one sleeve which can revolve around the central axis of the metal conductive joint body and can rotate around the central axis of the sleeve is arranged in the metal conductive joint body, the rotating end joint leads out the rotating conductive segment to be connected with the conductive body in the sleeve, the conductive body in the sleeve is connected with the transition conductive segment, the transition conductive segment is connected with the non-rotating conductive segment through a rotating conductive lap joint, the non-rotating conductive segment is connected with a non-rotating end joint, the rotary conductive lap joint comprises a conductive ring with a funnel-shaped section and connected with the non-rotary conductive segment and a conductive ball which is connected with the transition conductive segment and can slide in the conductive ring; the number of rotating end fitting lead-out rotating conductive segments and the number of non-rotating end fitting lead-out non-rotating conductive segments are equal and equal to the number of sleeves; when the number of the sleeves is more than 2, the sleeves are axially and symmetrically distributed along the central axis of the metal conductive joint body.

2. Use of a metal contact for preventing the winding of rotation on a turntable according to claim 1, characterized in that it is: connecting a rotating end on a metal conductive joint body with a device M on a rotary table, wherein the rotating end freely rotates along with the rotation of the rotary table, a non-rotating end is connected with a ground device, the rotary table rotates during working, the device M on the rotary table rotates along with the rotary table, the rotating end freely rotates along with the device M, and a conductive section at the rotating end freely rotates along with the driving of the rotating end; in the process, the part of the rotating end conductive segment in the sleeve is in lap joint with the transition conductive segment, and the axis of the position is a rotating shaft and can rotate freely; the transition conducting section is driven by the rotating conducting section to rotate freely by taking the central shaft of the metal conducting joint body as an axis, the conducting ball is driven to slide freely in the funnel-shaped conducting ring in the process of free rotation of the transition conducting section, the funnel-shaped conducting ring is collected at the non-rotating end through the non-rotating conducting section, and the long part of the non-rotating end is supported by the support.

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