CN212221993U - Winding machine for fiber composite material - Google Patents

Abstract

The utility model discloses a fibre combined material's coiler belongs to fibre combined material production technical field. Including synchronous follow-up device and winding rotating device, synchronous follow-up device and the balanced placing of wind device are on the fixed plate, synchronous follow-up device includes the base, be equipped with the backup pad on the base, be equipped with the support frame in the backup pad, support frame and the perpendicular and fixed connection of backup pad, be equipped with the swing arm on the support frame curb plate, support frame another curb plate bottom is equipped with first motor, first roll wheel and second roll wheel, first motor is connected with the first roll wheel teeth of a cogwheel, first roll wheel runs through the support frame curb plate, first roll wheel passes through the track with the second roll wheel and is connected, the swing arm is fixed on the track between first roll wheel and the second roll wheel, set up the outlet in swing arm lower extreme bottom, the outlet runs through the swing arm lower extreme, swing arm lower extreme bottom is equipped with first displacement sensor, first displacement sensor is connected. The utility model discloses simple structure, the operation of being convenient for.

Description

Winding machine for fiber composite material

Technical Field

The utility model relates to a fibre production facility technical field specifically is a fibre combined material's coiler.

Background

Current fibre coiler is in the use, because winding roller length, thickness are different, need adjust the coiler according to the roller, simultaneously because winding roller surface is smooth, the fibre is difficult to fix on the winding roller, the winding roller is difficult to rotate with the fibre is synchronous.

SUMMERY OF THE UTILITY MODEL

The utility model aims to wind the fibre on the running roller of different length, thickness to ensure that the fibre thickness at each position on the running roller is unanimous, the operation of being convenient for, convenient to use, with the problem of proposing among the solution above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a winding machine for fiber composite materials comprises a synchronous follow-up device 2 and a winding rotating device 1, and is characterized in that the synchronous follow-up device 2 and the winding device are placed on a fixed plate in a balanced manner;

synchronous follow-up device 2 includes base 201, be equipped with backup pad 205 on the base 201, be equipped with support frame 221 on the backup pad 205, support frame 221 with backup pad 205 is perpendicular and fixed connection, be equipped with the swing arm on a support frame 221 curb plate, support frame 221 with swing arm sliding connection, support frame 221 opposite side board bottom is equipped with first motor 216, first wheel 214 and the second wheel 215 that rolls, first motor 216 and first wheel 214 tooth that rolls are connected, first wheel 214 that rolls runs through the support frame 221 curb plate, first wheel 214 that rolls with the second wheel 215 that rolls passes through the track and connects, the swing arm is fixed first wheel 214 that rolls with on the track between the second wheel 215 rolls.

Preferably, the swing arm includes a swing arm main body and an outlet 210, the outlet 210 is disposed at the bottom of the lower end of the swing arm, the outlet 210 penetrates through the lower end of the swing arm, a first displacement sensor 219 is disposed at the bottom of the lower end of the swing arm, and the first displacement sensor 219 is electrically connected to the first motor 216.

Preferably, a second motor 202 and a third motor 217 are respectively arranged at two ends of the base 201, a first slide 203, a second slide 209, a third slide 218 and a fourth slide 223 are arranged between the base 201 and the supporting plate 205, the first slide 203 and the second slide are respectively fixed on the base 201, the third slide 218 and the fourth slide 223 are fixed at the bottom of the supporting plate 205, the first slide 203 and the second slide 209 are perpendicular to each other, the third slide 218 and the fourth slide 223 are perpendicular to each other, a third rolling wheel 211 and a fourth rolling wheel 213 are arranged on the right opposite side of the first slide 203, the third rolling wheel 211 is in toothed connection with the second motor 202, the third rolling wheel 211 and the fourth rolling wheel 213 are connected through a crawler belt, a fifth rolling wheel 207 is arranged between the fourth rolling wheel 213 and the second slide 209, and a sixth rolling wheel 206 is arranged on the third motor 217, fifth rolling wheel 207 with sixth rolling wheel 206 passes through the track and is connected, be equipped with first slider 212 on the first slide 203, the other end setting of first slider 212 is on the track between third rolling axle and the fourth rolling axle, first slider 212 top surface is equipped with second slider 204, second slider 204 with third slide 218 is connected, be equipped with third slider 224 on the second slide 209, the third slider 224 other end with on the track between third rolling wheel 211 and the fourth rolling wheel 213, be equipped with fourth slider 222 on the third slider 224 top surface, fourth slider 222 with fourth slide 223 is connected.

Preferably, a second displacement sensor 208 is disposed on the supporting plate 205, and the second displacement sensor 208 is electrically connected to the second motor 202 and the third motor 217.

Preferably, the winding and rotating device 1 includes a concave back plate 101, a main shaft 106, a driven shaft 105 and a fourth motor 104, the main shaft 106 is connected to the fourth motor 104, the main shaft 106 penetrates through the lower end of the back plate, the main shaft 106 is provided with a seventh rolling wheel 103, the driven shaft 105 is arranged at the top end of the concave back plate 101, the driven shaft 105 penetrates through the concave back plate 101, the driven shaft 105 is provided with an eighth rolling wheel 102, and the seventh rolling wheel 103 is connected to the eighth rolling wheel 102 in a crawler manner.

Preferably, be equipped with lug 303 in the spill backplate 101, lug 303 with spill backplate 101 fixed connection, lug 303 side is equipped with fifth slide 304, fifth slide 304 with lug 303 sliding connection, the slide top is equipped with stripper plate 307, be equipped with third displacement sensor 308 on the stripper plate 307, spill backplate 101 side is equipped with electric putter 301, electric putter 301 with fifth slide 304 passes through the hub connection, third displacement sensor 308 with electric putter 301 electricity is connected.

Has the advantages that: the removal of synchronous follow-up device can carry out the fibre winding to the running roller of different length, and the stripper plate extrudees the running roller on the driven shaft, is that fibre combined material closely laminates on the running roller.

Drawings

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

fig. 2 is a left side view of the synchronous follow-up device of the present invention;

FIG. 3 is a schematic view of the overall structure of the present invention;

fig. 4 is a partial enlarged view of the present invention.

In the figure: 1. a winding and rotating device; 2. a synchronous follow-up device; 101. a concave backplate; 102. an eighth rolling wheel; 103. a seventh rolling wheel; 104. a fourth motor; 105. a driven shaft; 106. a main shaft; 201. a base; 202. a second motor; 203. A first slideway; 204. a second slider; 205. a support plate 2; 206. a sixth rolling wheel; 207. a fifth rolling wheel; 208. A second displacement sensor; 209. a second slideway; 210. an outlet; 211. A third rolling wheel; 212. a first slider; 213 fourth scroll wheel; 214. a first rolling wheel; 215. A second rolling wheel; 216. a first motor; 217. a third motor; 218. a third slideway; 219. a first displacement sensor; 221. A support frame; 222. a fourth slider; 223. a fourth slideway; 224. a third slider; 301. an electric push rod; 303. A bump; 304. a fifth slideway; 306. a fixed shaft; 307. a pressing plate; 308. And a third displacement sensor.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a winding machine for fiber composite materials comprises a synchronous follow-up device 2 and a winding rotating device 1, and is characterized in that the synchronous follow-up device 2 and the winding rotating device 1 are placed on a fixed plate in a balanced manner, the synchronous follow-up device 2 comprises a base 201, a supporting plate 205 is arranged on the base 201, a supporting frame 221 is arranged on the supporting plate 205, the supporting frame 221 is perpendicular to and fixedly connected with the supporting plate 205, a swing arm is arranged on one side plate of the supporting frame 221, the supporting frame 221 is connected with the swing arm in a sliding manner, a first motor 216, a first rolling wheel 214 and a second rolling wheel 215 are arranged at the bottom of the other side plate of the supporting frame 221, the first motor 216 is in tooth connection with the first rolling wheel 214, the first rolling wheel 214 penetrates through the side plate of the supporting frame 221, the first rolling wheel 214 is connected with the second rolling wheel 215 through a crawler, the swing arm is fixed on the crawler between the first rolling wheel, the outlet 210 penetrates through the lower end of the swing arm, a first displacement sensor 219 is arranged at the bottom of the lower end of the swing arm, the first displacement sensor 219 is electrically connected with a first motor 216, and the swing arm is controlled by the first displacement sensor 219 to move up and down.

A second motor 202 and a third motor 217 are respectively arranged at two ends of the base 201, a first slide way 203, a second slide way 209, a third slide way 218 and a fourth slide way 223 are arranged between the base 201 and the supporting plate 205, the first slide way 203 and the second slide way are respectively fixed on the base 201, the third slide way 218 and the fourth slide way 223 are fixed at the bottom of the supporting plate 205, the first slide way 203 and the second slide way 209 are mutually vertical, the third slide way 218 and the fourth slide way 223 are mutually vertical, a third rolling wheel 211 and a fourth rolling wheel 213 are arranged right opposite to the first slide way 203, the third rolling wheel 211 is in tooth connection with the second motor 202, the third rolling wheel 211 is in connection with the fourth rolling wheel 213 through a crawler belt, a fifth rolling wheel 207 is arranged between the fourth rolling wheel 213 and the second slide way 209, a sixth rolling wheel 206 is arranged on the third motor 217, the fifth rolling wheel 207 is in connection with the sixth rolling wheel 206 through a crawler belt, a first slide block 212 is arranged on the first slide way 203, the other end of the first slider 212 is arranged on a track between the third rolling shaft and the fourth rolling shaft, the top surface of the first slider 212 is provided with a second slider 204, the second slider 204 is connected with a third slide way 218, the second slide way 209 is provided with a third slider 224, the other end of the third slider 224 is arranged on the track between the third rolling wheel 211 and the fourth rolling wheel 213, the top surface of the third slider 224 is provided with a fourth slider 222, the fourth slider 222 is connected with a fourth slide way 223, the support plate 205 is provided with a second displacement sensor 208, the second displacement sensor 208 is electrically connected with the second motor 202 and the third motor 217 to control the front-back and left-right displacement of the support plate 205, and the position relation between the swing arm and the winding and rotating device 1 is controlled by adjusting the position of the support plate 205.

The winding and rotating device 1 comprises a concave back plate 101, a main shaft 106, a driven shaft 105 and a fourth motor 104, wherein the main shaft 106 is connected with the fourth motor 104, the main shaft 106 penetrates through the lower end of the back plate, the main shaft 106 is provided with a seventh rolling wheel 103103, the top end of the concave back plate 101 is provided with the driven shaft 105, the driven shaft 105 penetrates through the concave back plate 101, the driven shaft 105 is used for mounting rollers for winding fiber composite materials, the driven shaft 105 is provided with an eighth rolling wheel 102, the seventh rolling wheel 103103 is connected with a crawler belt of the eighth rolling wheel 102, the concave back plate 101 is internally provided with a convex block 303, the convex block 303 is fixedly connected with the concave back plate 101, the side surface of the convex block 303 is provided with a fifth slideway 304, the fifth slideway 304 is connected with the convex block 303 in a sliding manner, the top end of the slideway is provided with a squeezing plate 307, the squeezing plate 307 is provided with a third displacement sensor, the third displacement sensor 308 controls the extrusion plate 307 to extrude the roller mounted on the driven shaft 105, so that the fiber composite material is tightly attached to the roller.

Description of the working principle: the driven shaft 105 is provided with a roller for winding the fiber composite material, after the fiber composite material passes through the wire outlet 210 on the swing arm, the second motor 202 and the third motor 217 are started, the wire outlet 210 on the swing arm is adjusted to be above the roller, the fourth motor 104 is started to rotate the roller on the driven shaft 105, the distance between the wire outlet 210 and the fiber composite material on the roller is detected by the first displacement sensor 219, and the first motor 216 drives the swing arm to move up and down.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A winding machine for fiber composite materials comprises a synchronous follow-up device (2) and a winding rotating device (1), and is characterized in that the synchronous follow-up device (2) and the winding rotating device (1) are placed on a fixed plate in a balanced manner;

the synchronous follow-up device (2) comprises a base (201), a supporting plate (205) is arranged on the base (201), a support frame (221) is arranged on the support plate (205), the support frame (221) is vertical to and fixedly connected with the support plate (205), a swing arm is arranged on one side plate of the supporting frame (221), the supporting frame (221) is connected with the swing arm in a sliding way, a first motor (216), a first rolling wheel (214) and a second rolling wheel (215) are arranged at the bottom of the other side plate of the supporting frame (221), the first motor (216) is in tooth connection with the first rolling wheel (214), the first rolling wheel (214) penetrates through the side plate of the supporting frame (221), the first rolling wheel (214) and the second rolling wheel (215) are connected by a crawler belt, the swing arm is fixed on a track between the first rolling wheel (214) and the second rolling wheel (215).

2. The fiber composite material winding machine according to claim 1, wherein the swing arm comprises a swing arm main body and an outlet (210), the outlet (210) is arranged at the bottom of the lower end of the swing arm, the outlet (210) penetrates through the lower end of the swing arm, a first displacement sensor (219) is arranged at the bottom of the lower end of the swing arm, and the first displacement sensor (219) is electrically connected with the first motor (216).

3. The winding machine for fiber composite materials according to claim 1, wherein a second motor (202) and a third motor (217) are respectively arranged at two ends of the base (201), a first slideway (203), a second slideway (209), a third slideway (218) and a fourth slideway (223) are arranged between the base (201) and the supporting plate (205), the first slideway (203) and the second slideway are respectively fixed on the base (201) in a sliding manner, the third slideway (218) and the fourth slideway (223) are fixed at the bottom of the supporting plate (205), the first slideway (203) and the second slideway (209) are mutually perpendicular, the third slideway (218) and the fourth slideway (223) are mutually perpendicular, a third rolling wheel (211) and a fourth rolling wheel (213) are arranged right opposite to the first slideway (203), and the third rolling wheel (211) is in toothed connection with the second motor (202), the third rolling wheel (211) and the fourth rolling wheel (213) are connected through a crawler belt, a fifth rolling wheel (207) is arranged between the fourth rolling wheel (213) and the second slide way (209), a sixth rolling wheel (206) is arranged on the third motor (217), the fifth rolling wheel (207) is connected with the sixth rolling wheel (206) through the crawler belt, a first sliding block (212) is arranged on the first slide way (203), the other end of the first sliding block (212) is arranged on the crawler belt between the third rolling wheel (211) and the fourth rolling wheel (213), a second sliding block (204) is arranged on the top surface of the first sliding block (212), the second sliding block (204) is connected with the third slide way (218), a third sliding block (224) is arranged on the second slide way (209), the other end of the third sliding block (224) is connected with the crawler belt between the third rolling wheel (211) and the fourth rolling wheel (213), a fourth sliding block (222) is arranged on the top surface of the third sliding block (224), and the fourth sliding block (222) is connected with the fourth slide way (223).

4. The fiber composite material winding machine according to claim 3, wherein a second displacement sensor (208) is arranged on the supporting plate (205), and the second displacement sensor (208) is electrically connected with the second motor (202) and the third motor (217).

5. The winding machine for the fiber composite material according to claim 1, wherein the winding rotating device (1) comprises a concave back plate (101), a main shaft (106), a driven shaft (105) and a fourth motor (104), the main shaft (106) is connected with the fourth motor (104), the main shaft (106) penetrates through the lower end of the back plate, the main shaft (106) is provided with a seventh rolling wheel (103), the top end of the concave back plate (101) is provided with the driven shaft (105), the driven shaft (105) penetrates through the concave back plate (101), the driven shaft (105) is provided with an eighth rolling wheel (102), and the seventh rolling wheel (103) is in crawler connection with the eighth rolling wheel (102).

6. The winding machine for the fiber composite material according to claim 5, wherein a convex block (303) is arranged in the concave back plate (101), the convex block (303) is fixedly connected with the concave back plate (101), a fifth slide way (304) is arranged on the side surface of the convex block (303), the fifth slide way (304) is slidably connected with the convex block (303), a squeezing plate (307) is arranged at the top end of the slide way, a third displacement sensor (308) is arranged on the squeezing plate (307), an electric push rod (301) is arranged on the side surface of the concave back plate (101), the electric push rod (301) is connected with the fifth slide way (304) through a fixed shaft (306), and the third displacement sensor (308) is electrically connected with the electric push rod (301).

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