CN113193455A

CN113193455A - Linear connecting device of single-stranded copper core wire for electric power rush-repair

Info

Publication number: CN113193455A
Application number: CN202110475612.6A
Authority: CN
Inventors: 范雷; 杨威; 王飞; 曹立冬; 沙文龙; 刘杰
Original assignee: State Grid Henan Electric Power Co Qixian Power Supply Co
Current assignee: State Grid Henan Electric Power Co Qixian Power Supply Co
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2021-07-30
Anticipated expiration: 2041-04-29
Also published as: CN113193455B

Abstract

The invention discloses a linear connecting device of a single-stranded copper core wire for electric power rush-repair, which comprises a top plate, mounting pieces mounted above two sides of the top plate, hanging pieces fixed below two sides of the top plate, a motor mounted on the mounting pieces on one side, an output shaft mounted on the mounting pieces through bearings and connected with the output end of the motor, a forward rotating assembly connected with one end of the output shaft, and a reverse rotating assembly connected with the other end of the output shaft, wherein the mounting pieces are mounted on the two sides of the top plate; the motor is connected with the controller through a lead; the device drives the output shaft through the motor and rotates, and then utilizes a driving medium and No. two driving mediums to drive the sleeve of one side and the pivot of opposite side respectively and rotate, and the pivot drives the sleeve antiport of this side with the help of intermeshing's gear, realizes the carousel antiport of both sides, and the fixed section of thick bamboo that utilizes mutual antiport and eccentric settings drives two cables that need the hinge to connect twine the hinge and close fixedly.

Description

Linear connecting device of single-stranded copper core wire for electric power rush-repair

Technical Field

The invention relates to electrical equipment, in particular to a linear connecting device of a single-stranded copper core wire for electrical power rush-repair.

Background

The wire connection is a basic process and an important process of electrician operation. The quality of the wire connection is directly related to whether the entire line can be operated safely and reliably for a long period of time. The basic requirements for the connection of the lead are firm and reliable connection, small joint resistance, high mechanical strength, corrosion resistance, oxidation resistance and good electrical insulation performance.

The types and connection forms of the wires to be connected are different, and the connection methods are also different. Common connection methods are stranded connection, press connection, welding, etc.

At present, the linear connecting device of the single-stranded copper core wire is often manually completed, the wire ends of the two wire cores are firstly placed into an X shape to be intersected, and the wire ends are straightened and fixed after being annularly hinged for a plurality of circles, but the manual operation can only complete the hinging of a single circle at each time, and the efficiency is lower.

Disclosure of Invention

Based on the defects in the prior art mentioned in the background art, the invention provides the linear connecting device of the single-stranded copper core wire for the electric power rush-repair.

The invention overcomes the technical problems by adopting the following technical scheme, and specifically comprises the following steps:

a linear connecting device of a single-stranded copper core wire for electric power rush-repair comprises a top plate, mounting pieces mounted above two sides of the top plate, hanging pieces fixed below two sides of the top plate, a motor mounted on one side of the mounting pieces, an output shaft mounted on the mounting pieces through bearings and connected with an output end of the motor, a forward rotating assembly connected with one end of the output shaft, and a reverse rotating assembly connected with the other end of the output shaft; the motor is connected with a controller through a lead, and the controller is connected with a power box fixed on the top plate.

As a further scheme of the invention: the forward rotating assembly comprises a penetrating sleeve which is fixedly installed on the hanging piece on one side and used for the cable to penetrate, an eccentric hinging mechanism which is rotatably connected onto the penetrating sleeve, and a second transmission piece which is used for connecting the eccentric hinging mechanism with the output shaft.

As a still further scheme of the invention: the reverse rotation assembly comprises a reverse driving mechanism arranged on a hanging piece close to one side of the motor, a first transmission piece used for connecting the reverse driving mechanism and the output shaft, another penetrating sleeve fixed on the hanging piece close to one side of the motor, and an eccentric hinging mechanism rotatably arranged on the penetrating sleeve close to one side of the motor, wherein the eccentric hinging mechanism close to one side of the motor is connected with the reverse driving mechanism.

As a still further scheme of the invention: the reverse driving mechanism comprises a rotating shaft connected to a hanging piece close to one side of the motor through a bearing, a first gear fixed on the rotating shaft, and a second gear fixed on an eccentric hinge mechanism close to one side of the motor, wherein the first gear and the second gear are meshed with each other.

As a still further scheme of the invention: the top plate is provided with a first transmission part and a second transmission part which are respectively connected with the rotating shaft.

As a still further scheme of the invention: the eccentric hinging mechanism comprises a turntable connected with the sleeve through a bearing, a sleeve fixed on the turntable and sleeved with the sleeve in a clearance manner, and a fixed cylinder fixed on the outer edge of the turntable; the second transmission part is connected to the sleeve far away from one side of the motor, the second gear is fixed to the sleeve close to one side of the motor, and the cable penetrates through the sleeve to be connected into the fixing cylinder.

As a still further scheme of the invention: and the side wall of the fixed cylinder is in threaded connection with a fixing screw for fastening the end of the cable.

After adopting the structure, compared with the prior art, the invention has the following advantages: the device passes through the motor and drives the output shaft and rotate, and then utilize a driving medium and No. two driving mediums to drive the sleeve of one side and the pivot of opposite side respectively and rotate, the pivot drives the sleeve antiport of this side with the help of intermeshing's gear, realize the carousel antiport of both sides, the solid fixed cylinder that utilizes mutual antiport and eccentric settings drives two cables that need the hinge to connect twines the hinge and closes fixedly, thereby replace artifical single circle reciprocal twist reverse hinge, it is high to have degree of automation, save labour's effect.

Drawings

Fig. 1 is a schematic structural diagram of a linear connecting device of a single-stranded copper core wire for electrical power rush-repair.

Fig. 2 is a schematic structural diagram of a sleeve and a rotary table in a linear connecting device of a single-stranded copper core wire for electrical power rush-repair.

Fig. 3 is a schematic structural diagram of a top plate and a through groove in a linear connecting device of a single-stranded copper core wire for electrical power rush-repair.

In the figure: 1-a top plate; 2-a mounting member; 3-an electric motor; 4-an output shaft; 5-a transmission member; 6-a rotating shaft; 7-a hanger; 8-a first gear; 9-a second gear; 10-a sleeve; 11-a turntable; 12-threading a sleeve; 13-a fixed cylinder; 14-transmission part number two; 15-a power box; 16-a cable 16; 17-a set screw; 18-through groove.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1, in an embodiment of the present invention, a linear connection device for a single-stranded copper core wire for electrical power rush-repair includes a top plate 1, mounting members 2 mounted above two sides of the top plate 1, hanging members 7 fixed below two sides of the top plate 1, a motor 3 mounted on the mounting member 2 on one side, an output shaft 4 mounted on the mounting member 2 through a bearing and connected to an output end of the motor 3, a forward rotation assembly connected to one end of the output shaft 4, and a reverse rotation assembly connected to the other end of the output shaft;

the motor 3 is connected with a controller through a wire, the controller is connected and fixed with a power box 15 on the top plate 1, the motor 3 and an electric motor work to drive the output shaft 4 to rotate, and further the forward rotating assembly and the reverse rotating assembly on the two sides are driven to rotate, so that the eccentric hinging mechanisms on the two sides are driven to rotate reversely to hinge and fix the two cables 16.

In an embodiment of the present invention, referring to fig. 3, the forward rotation assembly includes a bushing 12 fixedly installed on one side hanger 7 for a cable 16 to pass through, an eccentric hinge mechanism rotatably connected to the bushing 12, and a second transmission member 14 for connecting the eccentric hinge mechanism and the output shaft 4;

the rotating output shaft 4 drives the eccentric hinging mechanism to rotate around the through sleeve 12 by means of a second transmission part 14, and then drives a cable 16 to rotate in a forward eccentric mode.

In another embodiment of the present invention, the reverse rotation assembly comprises a reverse driving mechanism installed on the hanger 7 adjacent to the side of the motor 3, a first transmission member 5 for connecting the reverse driving mechanism and the output shaft 4, another through sleeve 12 fixed on the hanger 7 adjacent to the side of the motor 3, and an eccentric hinge mechanism rotatably installed on the through sleeve 12 adjacent to the side of the motor 3, wherein the eccentric hinge mechanism adjacent to the side of the motor 3 is connected with the reverse driving mechanism;

utilize pivoted output shaft 4 to drive reverse drive mechanism operation with the help of a driving medium 5, and then drive the eccentric hinge mechanism antiport that closes on motor 3 one side, and then drive another cable 16 antiport, it is fixed with positive pivoted cable 16 mutual hinge.

In still another embodiment of the present invention, the reverse driving mechanism includes a rotating shaft 6 connected to the hanger 7 adjacent to the side of the motor 3 through a bearing, a first gear 8 fixed to the rotating shaft 6, and a second gear 9 fixed to the eccentric hinge mechanism adjacent to the side of the motor 3, wherein the first gear 8 and the second gear 9 are engaged with each other, and the change of the steering is achieved through gear transmission.

In another embodiment of the present invention, through grooves 18 are respectively formed on two sides of the top plate 1 for the first transmission member 5 and the second transmission member 14 to pass through, the first transmission member 5 is connected to the rotating shaft 6, and the first transmission member 5 and the second transmission member 14 include, but are not limited to, transmission standard members such as a transmission belt and a chain.

In another embodiment of the present invention, referring to fig. 2, the eccentric hinge mechanism includes a rotating disc 11 connected to the through-sleeve 12 through a bearing, a sleeve 10 fixed to the rotating disc 11 and in clearance fit with the through-sleeve 12, and a fixed cylinder 13 fixed to an outer edge of the rotating disc 11;

the second transmission piece 14 is connected to the sleeve 10 far away from the motor 3, the second gear 9 is fixed to the sleeve 10 near the motor 3, and the cable 16 passes through the through sleeve 12 and is connected to the fixed cylinder 13, so that X-shaped cross-hinge fixation is achieved.

In a further embodiment of the present invention, a fixing screw 17 for fastening the end of the cable 16 is screwed to the side wall of the fixing cylinder 13, and the end of the cable 16 is fixed by the fixing screw 17 to prevent the cable from falling off when the cable is hinged and fixed.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary. But all changes which come within the scope of the invention are intended to be embraced therein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Claims

1. The linear connecting device for the single-stranded copper core wire for the electric power rush-repair is characterized by comprising a top plate (1), mounting pieces (2) mounted above two sides of the top plate (1), hanging pieces (7) fixed below two sides of the top plate (1), a motor (3) mounted on the mounting pieces (2) on one side, an output shaft (4) mounted on the mounting pieces (2) through bearings and connected with the output end of the motor (3), a forward rotating assembly connected with one end of the output shaft (4), and a reverse rotating assembly connected with the other end of the output shaft; the motor (3) is connected with a controller through a lead, and the controller is connected with a power box (15) fixed on the top plate (1).

2. The linear connection device of a single-stranded copper core wire for electrical power rush-repair according to claim 1, wherein the forward rotation component comprises a through sleeve (12) fixedly mounted on a hanging piece (7) at one side for a cable (16) to penetrate through, an eccentric hinge mechanism rotatably connected to the through sleeve (12), and a second transmission piece (14) for connecting the eccentric hinge mechanism and the output shaft (4).

3. The linear connection device of the single-stranded copper core wire for the electrical power rush-repair according to claim 2, wherein the reverse rotation component comprises a reverse driving mechanism installed on a hanging piece (7) close to one side of the motor (3), a first transmission piece (5) for connecting the reverse driving mechanism with the output shaft (4), another penetrating sleeve (12) fixed on the hanging piece (7) close to one side of the motor (3), and an eccentric hinge mechanism rotatably arranged on the penetrating sleeve (12) close to one side of the motor (3), wherein the eccentric hinge mechanism close to one side of the motor (3) is connected with the reverse driving mechanism.

4. The linear connection device of a single-stranded copper core wire for electrical power rush-repair according to claim 3, wherein the reverse driving mechanism comprises a rotating shaft (6) connected to a hanger (7) near one side of the motor (3) through a bearing, a first gear (8) fixed to the rotating shaft (6), and a second gear (9) fixed to an eccentric hinge mechanism near one side of the motor (3), wherein the first gear (8) and the second gear (9) are meshed with each other.

5. The linear connecting device for the single-stranded copper core wire for the electric power rush-repair according to claim 4, wherein the two sides of the top plate (1) are respectively provided with a through groove (18) for the first transmission member (5) and the second transmission member (14) to pass through, and the first transmission member (5) is connected to the rotating shaft (6).

6. The linear connecting device of the single-stranded copper core wire for the electrical power rush-repair according to claim 4, wherein the eccentric hinge mechanism comprises a rotary disc (11) connected with the through sleeve (12) through a bearing, a sleeve (10) fixed on the rotary disc (11) and in clearance fit with the through sleeve (12), and a fixed cylinder (13) fixed on the outer edge of the rotary disc (11); the second transmission piece (14) is connected to the sleeve (10) far away from one side of the motor (3), the second gear (9) is fixed to the sleeve (10) close to one side of the motor (3), and the cable (16) penetrates through the penetrating sleeve (12) and is connected into the fixed cylinder (13).

7. The linear connection device of a single-stranded copper core wire for electrical power rush-repair according to claim 6, characterized in that a fixing screw (17) for fastening the end of the cable (16) is screwed on the side wall of the fixing cylinder (13).