CN220913970U - Wire core cladding device - Google Patents

Abstract

The utility model discloses a wire core cladding device which comprises a cladding component and a winding component, wherein the cladding component comprises a rotatable rotating piece, a wire passing channel for a wire core to pass through is arranged in the center of the rotating piece, the wire core stretches out of the wire passing channel and then is pulled to the winding component, a discharging piece which rotates along with the rotating piece and surrounds the wire core is arranged on the rotating piece, a cladding belt is arranged in the discharging piece, and the discharging piece surrounds the wire core along with the movement of the wire core to wind the cladding belt on the wire core. The material discharging part is driven to rotate by the rotating part by taking the wire core as the center, and the wrapping belt can be uniformly wound on the wire core by the cooperation of the motor for driving the rotation part to rotate and the motor for pulling the wire core to move.

Description

Wire core cladding device

Technical Field

The utility model belongs to the technical field of wire production equipment, and particularly relates to a wire core cladding device.

Background

The wire core of the lead needs to be coated on the outer surface, so that the wire core is protected, and meanwhile, the insulation, waterproof, pressure resistance and other performances are provided for the wire core. When the existing wire core is coated, the coating belt is wound on the wire core generally, and in order to ensure the overall performance of the wire, the coating belt needs to be uniformly wound on the wire core.

Disclosure of utility model

The utility model aims at solving the technical problems and provides a coating device capable of uniformly coating a wire core with a coating belt.

The purpose of the utility model is realized in the following way: the utility model provides a sinle silk cladding device, includes cladding subassembly and rolling subassembly, and cladding subassembly includes rotatable rotating member, and the center of rotating member is provided with the line passageway that passes that supplies the sinle silk to pass, and the sinle silk stretches out the back from the line passageway and pulls to the rolling subassembly, is provided with on the rotating member and rotates and encircle the blowing piece of sinle silk along with rotating member, is provided with the cladding area in the blowing piece, and the blowing piece encircles the sinle silk along with the removal of sinle silk and twines the cladding area on the sinle silk.

In the utility model, the rotating piece comprises a first rotating disc and a second rotating disc which are axially arranged at two ends of the wire passing channel, the first rotating disc rotates and drives the rotating piece to integrally rotate, and the discharging piece is arranged on the second rotating disc.

In the utility model, the discharging part comprises a supporting rod connected with the rotating part and a discharging disc connected with the supporting rod, and the supporting rod comprises a first rod body and a second rod body which are rotatably connected.

In the utility model, a sleeve rod is arranged on the discharging disc, the wrapping belt is sleeved on the sleeve rod in a disc-shaped structure, a top block which is in butt joint with the wrapping belt is sleeved on the sleeve rod, a limiting block which can move along the sleeve rod is arranged on the sleeve rod, and a spring is arranged between the top block and the limiting block.

Further, the winding assembly comprises a rotatable winding drum and a guiding assembly capable of moving along the axial direction of the winding drum.

In the utility model, the guide assembly comprises a moving table and a screw rod for driving the moving table to move, wherein the moving table is provided with a supporting plate, and the supporting plate is provided with guide wheels.

In the utility model, the guide assembly further comprises a guide rail, and the movable platform is provided with a guide block matched with the guide rail, and the guide block moves along the guide rail to enable the movable platform to move.

In the utility model, the supporting plate is rotatably connected with the movable table, the supporting plate is provided with a first arc-shaped groove matched with the screw rod, and the movable table is provided with a second arc-shaped groove matched with the screw rod.

In the utility model, an arc wear-resisting piece is arranged in the first arc-shaped groove, and the arc wear-resisting piece and the second arc-shaped groove are matched with the screw rod together to enable the screw rod to drive the supporting plate to move.

In the utility model, a driving shaft is arranged on the winding drum, a first driving wheel is arranged on the driving shaft, the first driving wheel is driven to rotate by a motor and drives the winding drum to rotate, a second driving wheel is also arranged on the driving shaft, and the second driving wheel drives the screw rod to rotate.

The beneficial effects of the utility model are as follows: the material discharging part is driven to rotate by the rotating part by taking the wire core as the center, and the wrapping belt can be uniformly wound on the wire core by the cooperation of the motor for driving the rotation part to rotate and the motor for pulling the wire core to move.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the cladding assembly;

FIG. 3 is a schematic structural view of the winding assembly;

Fig. 4 is an enlarged view at a in fig. 3;

wherein the reference numerals are as follows: a cladding assembly 100; a rotating member 110; a wire passage 111; a first rotating disk 120; a second rotating disk 130; a blanking member 140; a first rod body 141; a second rod body 142; a discharge tray 143; a loop bar 144; a stopper 145; a spring 146; a top block 147; a wrapping band 148; a winding assembly 200; a take-up reel 210; a drive shaft 211; a first drive wheel 212; a second transmission wheel 213; a motor 214; a mobile station 220; a second arc groove 221; a guide block 222; a guide rail 223; a support plate 230; a guide wheel 231; a first arc-shaped groove 232; an arc wear pad 233; a transmission rod 240; a third driving wheel 241; a coupling 242; a screw 250; a support base 260; straightening assembly 300.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which are obtained by a person skilled in the art based on the embodiments of the present application, fall within the scope of protection of the present application.

Referring to fig. 1 to 4, a wire core cladding apparatus includes a straightening assembly 300, a cladding assembly 100, and a winding assembly 200. The wire core is straightened by straightening assembly 300 and then passes through wrapping assembly 100, where wrapping assembly 100 winds wrapping tape 148 around the wire core and pulls it to take-up assembly 200. The winding assembly 200 winds the coated wire and pulls the wire core to move.

The wrapping assembly 100 includes a rotatable rotating member 110, and a wire passing channel 111 through which a wire core passes is provided in the center of the rotating member 110, and the wire core extends from the wire passing channel 111 and is pulled to the winding assembly 200. The rotating member 110 includes a first rotating disc 120 and a second rotating disc 130 disposed at both axial ends of the wire passing passage 111, the first rotating disc 120 facing the straightening assembly 300 and the second rotating disc 130 facing the winding assembly 200. The first rotating plate 120 is a pulley, and the motor 214 drives the first rotating plate 120 to rotate through a belt, thereby rotating the rotating member 110. The second turntable is provided with a discharging part 140, and the discharging part 140 rotates along with the rotation of the rotating part 110.

The discharging member 140 includes a support rod connected to the second rotary plate 130, and a discharging plate 143 is provided on the support rod. The support rod comprises a first rod body 141 and a second rod body 142 which are connected in a hinged mode, the first rod body 141 is connected with the second rotating disc 130, and the second rod body 142 is connected with the discharging disc 143. The feeding tray 143 is provided with a disc-shaped wrapping tape 148, and the feeding tray 143 winds the wrapping tape 148 around the wire core by rotating the winding core. The discharging disc 143 is provided with a loop bar 144, a disc-shaped coating belt 148 is sleeved on the loop bar 144, and a top block 147 is also arranged on the sleeved bar, and the top block 147 is abutted with the coating belt 148, so that the disc-shaped coating is fixed on the discharging disc 143. A stopper 145 is screwed to the end of the loop bar 144 so that the stopper 145 can be attached to the end of the loop bar 144 or detached from the end of the loop bar 144. The spring 146 is sleeved on the loop bar 144, one end of the spring 146 is abutted against the top block 147, the other end of the spring 146 is abutted against the limiting block 145, and when the limiting block 145 is fixed at the end part of the loop bar 144, the spring 146 can press the top sealing block 147, so that the stability of the wrapping belt 148 is ensured. The first rod 141 and the second rod 142 can rotate relatively, so that the angle of the discharging disc 143 relative to the wire core can be adjusted, and the winding tightness of the wrapping band 148 is adjusted.

The winding assembly 200 includes a winding drum 210 and a guide assembly that mates with the winding drum 210. The coated wire is wound on the winding drum 210 after passing through the guide assembly to complete winding. The guide assembly includes a guide rail 223 axially disposed along the winding drum 210, a moving stage 220 is disposed on the guide rail 223, and the moving stage 220 is connected to the guide rail 223 through a guide block 222 so that the moving stage 220 can move on the guide rail 223 in the axial direction of the winding drum 210. The moving table 220 is provided with a support plate 230, the support plate 230 is provided with a guide wheel 231, and the wire is wound on the winding drum 210 after passing through the guide wheel 231. The moving stage 220 drives the support plate 230 to move along the axial direction of the winding drum 210, so that the wire is wound on the surface of the winding drum 210 along the axial direction thereof, and the wire can be spread over the entire surface of the winding drum 210.

The rotatable connection of the support plate 230 to the mobile station 220 allows the support plate 230 to form a knife-like structure with the mobile station 220. A first arc-shaped groove 232 is provided on a side of the support plate 230 facing the moving stage 220, and a second arc-shaped groove 221 is provided on a side of the moving stage 220 facing the support plate 230. The first arc-shaped groove 232 and the second arc-shaped groove 221 are combined to form a round hole, the screw rod 250 penetrates through the round hole, the arc-shaped wear pad 233 is arranged in the first arc-shaped groove 232, the arc-shaped wear pad 233 is in threaded fit with the screw rod 250, and the screw rod 250 rotates to drive the arc-shaped wear pad 233 and the moving table 220 to move. Closing the support plate 230 to match the arc wear pad 233 with the screw 250, rotating the screw 250 drives the moving table 220 to move from one side to the other side of the winding drum 210, opening the support plate 230 to separate the arc wear pad 233 from the screw 250 after moving to the other side, manually pushing the moving table 220 to the initial position, and repeating the above process to enable the wire to be spread over the entire surface of the winding drum 210.

The center of the winding drum 210 is provided with a driving shaft 211, the driving shaft 211 is provided with a first driving wheel 212, the first driving wheel 212 is a chain wheel, the driving shaft 211 is connected with a motor 214 through the first driving wheel 212, an output shaft of the motor 214 is connected with the chain wheel, and the winding drum 210 is driven to rotate through a chain motor 214. The driving shaft 211 is also provided with a second driving wheel 213, one end of the screw rod 250 is provided with a coupler 242 through a supporting seat 260, the screw rod 250 is connected with a driving rod 240 through the coupler 242, the driving rod 240 is provided with a third driving wheel 241, the second driving wheel 213 and the third driving wheel 241 are both chain wheels and are driven by a chain, so that the winding drum 210 can be driven to rotate while the screw rod 250 is driven to rotate.

The embodiments of the present application have been described above with reference to the accompanying drawings, in which the embodiments of the present application and features of the embodiments may be combined with each other without conflict, the present application is not limited to the above-described embodiments, which are merely illustrative, not restrictive, of the present application, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are protected by the present application.

Claims (10)

1. The utility model provides a sinle silk cladding device, its characterized in that, including cladding subassembly (100) and rolling subassembly (200), cladding subassembly (100) are including rotatable rotating member (110), the center of rotating member (110) is provided with wire through channel (111) that supplies the sinle silk to pass, and the sinle silk stretches out back to rolling subassembly (200) in from wire through channel (111), be provided with on rotating member (110) and rotate and encircle blowing piece (140) of sinle silk along with rotating member (110), be provided with cladding area (148) in blowing piece (140), blowing piece encircles sinle silk along with the removal of sinle silk and twines cladding area (148) on the sinle silk.

2. The wire core cladding apparatus according to claim 1, wherein the rotating member (110) comprises a first rotating disc (120) and a second rotating disc (130) at both axial ends of the wire passage (111), the first rotating disc (120) rotates and drives the rotating member (110) to integrally rotate, and the discharging member (140) is disposed on the second rotating disc (130).

3. The wire core cladding device according to claim 1, wherein the discharging member (140) comprises a supporting rod connected to the rotating member (110) and a discharging tray (143) connected to the supporting rod, and the supporting rod comprises a first rod body (141) and a second rod body (142) rotatably connected.

4. A wire core cladding device according to claim 3, wherein a loop bar (144) is arranged on the discharging disc (143), the cladding belt (148) is sleeved on the loop bar (144) in a disc-shaped structure, a top block (147) abutted to the cladding belt (148) is sleeved on the loop bar (144), a limiting block (145) detachably connected with the loop bar (144) is arranged on the loop bar (144), and a spring (146) is arranged between the top block (147) and the limiting block (145).

5. The wire core cladding apparatus of claim 1, wherein the winding assembly comprises a rotatable winding barrel (210) and a guide assembly movable in an axial direction of the winding barrel (210).

6. The wire core cladding apparatus according to claim 5, wherein the guide assembly comprises a moving table (220) and a screw (250) for driving the moving table (220) to move, a support plate (230) is provided on the moving table (220), and a guide wheel (231) is provided on the support plate (230).

7. The wire core cladding apparatus according to claim 6, wherein the guide assembly further comprises a guide rail (223), and the moving stage (220) is provided with a guide block (222) that cooperates with the guide rail (223), and the guide block (222) moves along the guide rail to move the moving stage (220).

8. The wire core cladding apparatus according to claim 6, wherein the support plate (230) is rotatably connected to a moving table (220), a first arc-shaped groove (232) which is matched with the screw (250) is provided on the support plate (230), and a second arc-shaped groove (221) which is matched with the screw (250) is provided on the moving table (220).

9. The wire core cladding device according to claim 8, wherein an arc wear pad (233) is disposed in the first arc-shaped groove (232), the arc wear pad (233) is in threaded engagement with a screw (250), and the screw (250) rotationally drives the support plate (230) to move.

10. The wire core cladding device according to claim 6, wherein a driving shaft (211) is arranged on the winding drum (210), a first driving wheel (212) is arranged on the driving shaft (211), the first driving wheel (212) is driven to rotate by a motor (214) and drives the winding drum (210) to rotate, a second driving wheel (213) is further arranged on the driving shaft (211), and the second driving wheel (213) drives the screw rod (250) to rotate.