CN217690635U

CN217690635U - Stranding machine for power cable

Info

Publication number: CN217690635U
Application number: CN202221964136.0U
Authority: CN
Inventors: 叶显刚
Original assignee: Anhui Changli Cable Technology Co ltd
Current assignee: Anhui Changli Cable Technology Co ltd
Priority date: 2022-07-28
Filing date: 2022-07-28
Publication date: 2022-10-28
Anticipated expiration: 2032-07-28

Abstract

The utility model provides a stranding machine for power cables, which relates to the technical field of stranding machines and comprises a base component and a material receiving mechanism, wherein a discharging external member assembled by bolts is arranged above one end of the base component, a doubling component assembled by bolts is arranged on the other side of the base component, and a material receiving mechanism assembled by bolts is arranged above the other end of the base component; the utility model discloses mainly utilize behind ejection of compact external member output power, make single group raw materials electric wire on the ejection of compact external member, make the raw materials electric wire through the mergence component's merging behind ejection of compact external member output, export the inboard of rotatory hank section of thick bamboo, because the inward flange of rotatory hank section of thick bamboo possesses the structure of helicoid form, consequently, it rotates to drive the driving gear at motor base output power, make driving gear meshing transmission driven gear, let the inboard rotatory hank section of thick bamboo of bearing base be the cable rope with the further stranded conductor of electric wire that the doubling was accomplished, thereby the roughness of electric hawser has been promoted, the processing quality of cable has been promoted.

Description

Stranding machine for power cable

Technical Field

The utility model relates to a stranding machine technical field especially relates to a stranding machine for power cable.

Background

The stranding machine is a stranding machine which can be widely applied to various soft/hard conductor wires, and twists a plurality of single conductors into one strand to meet the technological requirements of wires.

Current stranding machine is when using, utilizes the unit electric wire with the multiunit on bearing the dish, utilizes single group motor to carry out output power and carries out the stranded conductor wire-wound joint with the multiunit electric wire, and nevertheless single group's motor wire-wound joint efficiency is lower, can produce the relatively poor phenomenon of roughness to the cable of wire-wound joint, consequently, the utility model provides a stranding machine for power cable is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a stranding machine for power cable, this stranding machine for power cable mainly utilizes behind ejection of compact external member output power, make single group raw materials electric wire on the ejection of compact external member, make the raw materials electric wire through the mergence of doubling component after ejection of compact external member output, export the inboard of rotatory hank section of thick bamboo, because the inward flange of rotatory hank section of thick bamboo possesses the structure of spiral face form, consequently, it rotates to drive the driving gear at motor base output power, make driving gear meshing transmission driven gear, let the inboard rotatory hank section of thick bamboo of bearing base be the cable rope with the further stranded conductor of the electric wire that the doubling was accomplished, thereby the roughness of electric cable rope has been promoted, the processing quality of cable has been promoted.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a stranding machine for power cables comprises a base assembly and a material receiving mechanism, wherein a discharging sleeve assembly assembled by bolts is arranged above one end of the base assembly, a doubling member assembled by bolts is arranged on the other top side of the base assembly, and the material receiving mechanism assembled by bolts is arranged above the other end of the base assembly;

the receiving mechanism comprises a third bolt substrate, a second side strip frame, a bearing base, a rotary twisting cylinder, a driven gear, a driving gear, a motor base, a receiving guide wheel, a side shaft seat, a receiving motor and a receiving wire frame, wherein the third bolt substrate is connected to the upper portion of the other end of the base assembly through bolts, the second side strip frame is arranged on the top side of the third bolt substrate, the bearing base is arranged on the top side of the second side strip frame, the rotary twisting cylinder for installing the driven gear is arranged on the inner side of the bearing base, the driven gear is connected with the driving gear for connecting the output end of the motor base in a meshed mode, the receiving guide wheel is arranged at one end of the inner side of the second side strip frame, the side shaft seat is arranged on one side of the lower portion of the second side strip frame, and the receiving wire frame for connecting the output end of the receiving motor is arranged on the inner side of one end of the side shaft seat.

The improved structure is characterized in that the central axes of the rotary twisting cylinder and the driven gear are positioned on the same straight line, the inner side of the rotary twisting cylinder is of a spiral surface structure, and the material receiving guide wheels and the material receiving wire frame are distributed in parallel.

The improved structure is characterized in that the base component comprises a supporting pad, a cabinet body and a pedestal plate, and the top side of the supporting pad is provided with the cabinet body for installing the pedestal plate.

The improved structure is characterized in that the discharging external member comprises a first bolt substrate, a shaft sleeve plate, a discharging motor, a belt pulley set, a roller shaft rod, a first wire plate, a first wire barrel set, a second wire hole plate, a second wire barrel set, a wire outlet plate, a guide wheel and a central wheel hub, the first bolt substrate is arranged above one end of the table seat plate, the shaft sleeve plate is arranged above one side of the first bolt substrate, the belt pulley set connected with the output end of the discharging motor is arranged on the outer side of the shaft sleeve plate, the input end of the belt pulley set penetrates through the shaft sleeve plate and is connected with the roller shaft rod, and the first wire plate, the second wire hole plate and the wire outlet plate which are fixedly connected and parallel to each other are arranged on the outer side of the roller shaft rod.

The improved structure is characterized in that the side of the first wire board is provided with a first wire cylinder group distributed in an annular mode, the side of the second wire hole board is provided with a second wire cylinder group distributed in an annular mode, the side of the wire outgoing board is provided with a guide wheel, and the outer side of one end of the roller rod is provided with a central hub seat fixedly connected with the roller rod.

The doubling component comprises a second bolt base plate, a first side strip frame, a top side seat, a bearing sleeve, a flower hole disc and a doubling cylinder, the second bolt base plate is arranged on the top side of the table seat plate, the first side strip frame for mounting the top side seat is arranged on the top side of the second bolt base plate, the bearing sleeve for connecting the flower hole disc with a bearing is arranged on the inner side of one end of the top side seat, and the doubling cylinder is arranged on the inner side of the other end of the top side seat.

The utility model has the advantages that:

the utility model discloses mainly utilize behind ejection of compact external member output power, make single group raw materials electric wire on the ejection of compact external member, make the raw materials electric wire through the mergence of doubling component after ejection of compact external member output, export the inboard of rotatory hank section of thick bamboo, because the inward flange of rotatory hank section of thick bamboo possesses the structure of helicoid form, consequently, it rotates to drive the driving gear at motor base output power, make driving gear meshing transmission driven gear, let the inboard rotatory hank section of thick bamboo of bearing base be the cable rope with the further stranded conductor of the electric wire that the doubling was accomplished, thereby the roughness of electric wire rope has been promoted, the processing quality of cable has been promoted.

Drawings

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

FIG. 2 is a schematic side view of the three-dimensional structure of the present invention;

fig. 3 is a schematic perspective view of the discharging sleeve of the present invention;

fig. 4 is a schematic perspective view of the doubling component of the present invention;

fig. 5 is a schematic view of the three-dimensional structure of the receiving mechanism of the present invention.

Wherein: 1. a base assembly; 101. a support pad; 102. a cabinet body; 103. a table base plate; 2. a discharging sleeve member; 201. a first bolt base plate; 202. a bushing plate; 203. a discharging motor; 204. a pulley set; 205. a roll bar; 206. a first line board; 207. a first bobbin group; 208. a second wire orifice plate; 209. a second bobbin set; 2010. a wire outlet plate; 2011. a guide wheel; 2012. a central hub seat; 3. a doubling member; 301. a second bolt base plate; 302. a first side bar frame; 303. a top-side seat; 304. a bearing housing; 305. a perforated disc; 306. a doubling cylinder; 4. a material receiving mechanism; 401. a third bolt base plate; 402. a second side bar frame; 403. a bearing base; 404. rotating the twisting barrel; 405. a driven gear; 406. a driving gear; 407. a motor base; 408. a material receiving guide wheel; 409. a side shaft seat; 4010. a material receiving motor; 4011. a material receiving wire frame.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1-5, the embodiment provides a stranding machine for power cables, which includes a base assembly 1 and a material receiving mechanism 4, a discharging sleeve 2 assembled by bolts is arranged above one end of the base assembly 1, a doubling member 3 assembled by bolts is arranged on the other top side of the base assembly 1, and the material receiving mechanism 4 assembled by bolts is arranged above the other end of the base assembly 1;

the material receiving mechanism 4 comprises a third bolt substrate 401, a second side strip frame 402, a bearing base 403, a rotary twisting drum 404, a driven gear 405, a driving gear 406, a motor base 407, a material receiving guide wheel 408, a side shaft base 409, a material receiving motor 4010 and a material receiving wire frame 4011, the third bolt substrate 401 is connected above the other end of the base component 1 through bolts, the top side of the third bolt substrate 401 is provided with the second side strip frame 402, the top side of the second side strip frame 402 is provided with the bearing base 403, the inner side of the bearing base 403 is provided with the rotary twisting drum 404 for installing the driven gear 405, the driven gear 405 is connected with the driving gear 406 connected with the output end of the motor base 407 in a meshing manner, one end of the inner side of the second side strip frame 402 is provided with the material receiving guide wheel 408, one side of the lower side of the second side strip frame 402 is provided with a side shaft base 409, and the inner side of one end of the side shaft base 409 is provided with the material receiving wire frame 4011 connected with the output end of the material receiving motor 4010.

The central axes of the rotary twisting barrel 404 and the driven gear 405 are on the same straight line, the inner side of the rotary twisting barrel 404 is in a spiral surface structure, and the material receiving guide wheels 408 and the material receiving wire frame 4011 are distributed in parallel.

In this embodiment, after the electric wires are merged and output through the merging cylinder 306, the output end of the motor base 407 is driven to rotate by the output power of the starting motor base 407, the output end of the motor base 407 drives the driving gear 406 to rotate, the driving gear 406 drives the driven gear 405 to rotate, the driven gear 405 drives the rotary winding cylinder 404 connected with the bearing on the inner side of the bearing base 403 to rotate, the merged electric wires are twisted when passing through the inner side of the rotary winding cylinder 404, the twisted wires are output through the rotary winding cylinder 404 by the twisting operation of the rotary winding cylinder 404, the twisted wires output by the rotary winding cylinder 404 are guided to wind on the material receiving bobbin 4011 under the action of the material receiving guide wheel 408, and the material receiving bobbin 4011 on the inner side of the side shaft seat 409 is driven to rotate slowly under the action of the output power of the material receiving motor 4010, so as to wind and receive the material.

The base assembly 1 comprises a support pad 101, a cabinet 102 and a pedestal plate 103, wherein the top side of the support pad 101 is provided with the cabinet 102 for mounting the pedestal plate 103.

In this embodiment, by placing the cabinet 102 on which the support pad 101 is mounted at the processing site, the discharge sleeve 2 is bolt-assembled with the doubling member 3 and the receiving mechanism 4 through the pedestal plate 103 on the top side of the cabinet 102, so as to facilitate processing.

Discharging kit 2 includes first bolt base plate 201, axle sleeve plate 202, ejection of compact motor 203, pulley group 204, roller axle stick 205, first wire board 206, first bobbin group 207, second wire hole board 208, second bobbin group 209, outlet plate 2010, inducer 2011 and central flower wheel seat 2012, first bolt base plate 201 sets up the one end top at bedplate 103, one side top of first bolt base plate 201 is provided with axle sleeve plate 202, and the outside of axle sleeve plate 202 is provided with the pulley group 204 of connecting ejection of compact motor 203 output, the input of pulley group 204 runs through axle sleeve plate 202 and is connected with roller axle stick 205, the outside of roller axle stick 205 is provided with fixed connection and the first wire board 206 that is parallel to each other, second wire hole board 208, outlet plate 2010.

In this embodiment, the output power of the discharging motor 203 on the starting shaft sleeve plate 202 drives the output end of the discharging motor 203 to rotate, the output end of the discharging motor 203 drives the pulley group 204 to perform transmission output, and the transmission output through the pulley group 204 drives the roller shaft rod 205 at the inner end of the top side of the shaft sleeve plate 202 to rotate.

The side of the first wire plate 206 is provided with a first wire cylinder group 207 which is distributed in an annular manner, the side of the second wire hole plate 208 is provided with a second wire cylinder group 209 which is distributed in an annular manner, the side of the wire outlet plate 2010 is provided with a guide wheel 2011, and the outer side of one end of the roller rod 205 is provided with a central hub 2012 which is fixedly connected.

In this embodiment, when the roller bar 205 rotates, the first bobbin set 207 on the inner side of the first bobbin 206 outputs the electric wire to the inner hole of the second bobbin plate 208 for outputting, after the electric wire of the first bobbin set 207 passes through the hole of the second bobbin plate 208, the electric wire is guided and straightened by the guide wheel 2011 through the outlet plate 2010, then the electric wire is output from the second bobbin set 209 on the inner side of the second bobbin plate 208, and the electric wire on the second bobbin set 209 and the electric wire on the first bobbin set 207 are output in the same direction through the central hub 2012 on the outer side of one end of the roller bar 205 after the guide and straightening of the guide wheel 2011.

The doubling member 3 includes a second bolt base plate 301, a first side frame 302, a top side base 303, a bearing housing 304, a perforated disc 305, and a doubling cylinder 306, the second bolt base plate 301 is disposed on the top side of the base plate 103, the top side of the second bolt base plate 301 is provided with the first side frame 302 on which the top side base 303 is mounted, the bearing housing 304 on which the perforated disc 305 is connected with a bearing is disposed inside one end of the top side base 303, and the doubling cylinder 306 is disposed inside the other end of the top side base 303.

In this embodiment, since the roller shaft 205 is connected to one end of the bearing housing 304 through a bearing, after the central spline seat 2012 guides and outputs the electric wire, the electric wire passes through the hole on the spline disc 305 on the inner side of the bearing housing 304 to be output, and the electric wire output through the hole on the spline disc 305 is combined and output through the combining cylinder 306 on the inner side of the other end of the top seat 303.

The working principle of the stranding machine for the power cable is as follows: firstly, the output power of the discharging motor 203 on the starting shaft sleeve plate 202 drives the output end of the discharging motor 203 to rotate, the output end of the discharging motor 203 drives the belt pulley group 204 to carry out transmission output, the roller shaft rod 205 at the inner end of the top side of the shaft sleeve plate 202 is driven to rotate through the transmission output of the belt pulley group 204, when the roller shaft rod 205 rotates, the first bobbin group 207 at the inner side of the first bobbin 206 outputs the electric wire to the hole at the inner side of the second bobbin 208 to carry out transmission output, after the electric wire of the first bobbin group 207 passes through the hole of the second bobbin 208, the electric wire is guided and tightened through the guide wheel 2011 by the guide wheel 2011, then the output electric wire of the second bobbin group 209 at the inner side of the second bobbin group 208 passes through the hole of the guide plate 2010 and is guided and tightened through the guide wheel 2011 to make the electric wire on the second bobbin group 209 and the electric wire on the first bobbin group 207 pass through the center spline 2012 seat at the outer side of the guide wheel 2011 to carry out output in a concurrent output, because the one end of the roller shaft rod 205 is connected with one end of the bearing sleeve 304, so that the electric wire passes through the bearing 407 connected with the output base of the guide wheel 407, the output base of the electric wire, the output base 404, the electric wire, the output motor, the output base 406, the electric wire passes through the base 406, and drives the base to rotate, so that the output motor 305 and the output base 406, the output motor 406, the electric wire passes through the base 406, the base 406 and the base 406 of the base 406, and the base 406, and the base 404, the stranded wires output by the rotary twisting barrel 404 are guided to be wound on the material receiving wire frame 4011 under the action of the material receiving guide wheel 408, and the material receiving wire frame 4011 on the inner side of the side shaft seat 409 is driven to rotate slowly under the action of the output power of the material receiving motor 4010 so as to achieve the effect of winding and receiving the materials.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a stranding machine for power cable, includes base subassembly (1) and receiving agencies (4), its characterized in that: a discharging sleeve component (2) assembled by bolts is arranged above one end of the base component (1), a doubling component (3) assembled by bolts is arranged on the other top side of the base component (1), and a receiving mechanism (4) assembled by bolts is arranged above the other end of the base component (1);

receiving agencies (4) include third bolt base plate (401), second side strip frame (402), bearing base (403), rotatory hank section of thick bamboo (404), driven gear (405), driving gear (406), motor base (407), receive material guide pulley (408), side axle seat (409), receive material motor (4010) and receive material line frame (4011), third bolt base plate (401) bolted connection be in the other end top of base subassembly (1), the top side of third bolt base plate (401) is provided with second side strip frame (402), just the top side of second side strip frame (402) is provided with bearing base (403), the interior limit side of bearing base (403) is provided with rotatory hank section of thick bamboo (404) of installation driven gear (405), driven gear (405) meshing is connected with driving gear (406) of connecting motor base (407) output, the inboard one end of second side strip frame (402) is provided with receives material guide pulley (408), below one side of second side strip frame (402) is provided with side axle seat (409), just the inboard of receiving material side (405) is provided with the output of receiving material line frame (4010).

2. The stranding machine for power cables according to claim 1, characterized in that: the central axes of the rotary winch barrel (404) and the driven gear (405) are positioned on the same straight line, the inner side of the rotary winch barrel (404) is of a spiral surface structure, and the material receiving guide wheels (408) and the material receiving wire frame (4011) are distributed in parallel.

3. The stranding machine for power cables according to claim 1, characterized in that: the base component (1) comprises a supporting pad (101), a cabinet body (102) and a pedestal plate (103), wherein the top side of the supporting pad (101) is provided with the cabinet body (102) for installing the pedestal plate (103).

4. A stranding machine for power cables according to claim 3, characterized in that: ejection of compact external member (2) include first bolt base plate (201), axle sleeve board (202), ejection of compact motor (203), pulley group (204), roller axle stick (205), first bobbin board (206), first bobbin group (207), second bobbin board (208), second bobbin group (209), outlet plate (2010), inducer (2011) and central flower wheel seat (2012), first bolt base plate (201) set up the one end top of bedplate board (103), one side top of first bolt base plate (201) is provided with axle sleeve board (202), just the outside of axle sleeve board (202) is provided with pulley group (204) of connecting ejection of compact motor (203) output, the input of pulley group (204) runs through axle sleeve board (202) is connected with roller axle stick (205), the outside of roller axle stick (205) is provided with first bobbin board (206), second bobbin board (208), outlet plate (2010) that fixed connection and be parallel to each other.

5. The stranding machine for power cables according to claim 4, characterized in that: the avris of first line board (206) is provided with first bobbin group (207) that the annular distributes, the avris of second line orifice plate (208) is provided with second bobbin group (209) that the annular distributes, the avris of outlet plate (2010) is provided with inducer (2011), the one end outside of roller stick (205) is provided with fixed connection's central colored wheel seat (2012).

6. A stranding machine for power cables according to claim 3, characterized in that: the doubling component (3) comprises a second bolt substrate (301), a first side strip frame (302), a top side seat (303), a bearing sleeve (304), a flower hole disc (305) and a doubling cylinder (306), the second bolt substrate (301) is arranged on the top side of the table seat plate (103), the first side strip frame (302) for mounting the top side seat (303) is arranged on the top side of the second bolt substrate (301), the bearing sleeve (304) for connecting the flower hole disc (305) with a bearing is arranged on the inner side of one end of the top side seat (303), and the doubling cylinder (306) is arranged on the inner side of the other end of the top side seat (303).