CN219238845U - Plastic shaping wire winding square frame winding compensation mechanism - Google Patents

Abstract

The utility model provides a winding compensation mechanism for a plastic shaping wire winding square frame. The plastic shaping wire winding machine comprises a winding part, a guiding compensation part and a guiding compensation part, wherein the winding part comprises a winding frame for winding plastic shaping wires, the guiding compensation part comprises a guiding compensation frame, the guiding compensation frame is positioned at one side of the winding part, a main carriage is transversely connected onto the guiding compensation frame in a sliding manner, a main driving piece is further arranged on the guiding compensation frame and is used for driving the main carriage to transversely slide, and a main guiding wheel is arranged on the main carriage; the auxiliary sliding frame is characterized in that an auxiliary sliding frame and an auxiliary driving piece are arranged on the main sliding frame, the auxiliary sliding frame is vertically connected to the main sliding frame in a sliding mode, the auxiliary driving piece is used for driving the auxiliary sliding frame to slide up and down, and an auxiliary guide wheel is arranged on the auxiliary sliding frame. The compensation mechanism is favorable for reducing the jumping of the plastic wire between the winding frame and the lead wire rotating wheel and improving the winding quality of the plastic shaping wire.

Description

Plastic shaping wire winding square frame winding compensation mechanism

Technical Field

The utility model relates to a plastic shaping wire processing tool, in particular to a plastic shaping wire winding square frame winding compensation mechanism.

Background

An existing plastic shaping wire automatic winding machine structure is disclosed in Chinese patent publication No. CN113232263A, and the plastic shaping wire automatic winding machine mainly comprises a winding frame, a winding frame and a stand column are arranged on the winding frame, the winding frame can rotate, a cross beam is arranged on the stand column, a lead frame is connected to the cross beam in a sliding manner in the transverse direction, the lead frame can transversely move back and forth along the cross beam, and a lead rotating wheel is arranged on the lead frame. In the actual use process of the automatic winding machine, the plastic shaping wire can pass through the lead wire rotating wheel and is wound on the winding frame, the winding frame continuously winds the plastic wire, the lead wire frame can also move back and forth along the cross beam, and the plastic wire can be continuously wound on the winding frame.

According to the automatic winding machine, in the automatic winding process, since the winding frame is of a square structure as a whole, under the premise of the same angle, the linear speed on the outer frame surface of the winding frame is different at different angles, and especially the linear speed at the corner position of the square winding frame is the largest.

Disclosure of Invention

In view of the above, the present utility model is to provide a winding compensation mechanism for a square winding frame of plastic shaping wire, which can effectively reduce the jump generated by the plastic wire between the winding frame and the lead wire rotating wheel, thereby being helpful for improving the winding quality of the plastic shaping wire.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

the winding compensation mechanism comprises a winding part, wherein the winding part comprises a winding frame for winding plastic shaping wires, and further comprises a guide compensation part, the guide compensation part comprises a guide compensation frame, the guide compensation frame is positioned at one side of the winding part, a main carriage is connected to the guide compensation frame in a transverse sliding manner, a main driving piece is further arranged on the guide compensation frame and used for driving the main carriage to transversely slide, and a main guide wheel is arranged on the main carriage;

the auxiliary sliding frame is characterized in that an auxiliary sliding frame and an auxiliary driving piece are arranged on the main sliding frame, the auxiliary sliding frame is vertically connected to the main sliding frame in a sliding mode, the auxiliary driving piece is used for driving the auxiliary sliding frame to slide up and down, and an auxiliary guide wheel is arranged on the auxiliary sliding frame.

According to the technical scheme, the plastic shaping wires penetrate through the main guide wheel and the auxiliary guide wheel and then are wound on the winding frame, the winding frame continuously rotates, and meanwhile, on one hand, the main driving piece drives the main sliding frame to transversely reciprocate to slide, and the plastic shaping wires are guided to be transversely and uniformly distributed on the outer side wall of the winding frame; on the other hand, the auxiliary driving piece drives the auxiliary sliding frame to move up and down, the auxiliary sliding block drives the auxiliary guide wheel to move up and down correspondingly, and the auxiliary guide wheel can move up and down for the plastic shaping wire to adapt to winding requirements of the outer frame side walls of the winding frames with different linear speeds, so that the jumping generated by the plastic wire between the winding frames and the lead rotating wheel is reduced, and the winding quality of the plastic shaping wire is improved.

Preferably, the main carriage is provided with two connecting arms, and the main guide wheels are arranged on the two connecting arms.

Through the technical scheme, the two main guide wheels can conduct more stable guide action on the plastic shaping wire, and the transmission stability of the plastic shaping wire is better.

Preferably, the two main guide wheels are located at the front and rear sides of the auxiliary guide wheels.

Through above-mentioned technical scheme, plastics design silk is first through first main leading wheel, vice leading wheel, second main leading wheel, and in-process that the vice leading wheel carried out the reciprocates, two main leading wheels and vice leading wheel can the furthest keep the transmission stability of plastics design silk.

Preferably, the automatic yarn feeding device further comprises a yarn adjusting part, the yarn adjusting part is located at one side position, away from the winding part, of the guiding compensation part, the yarn adjusting part comprises a yarn adjusting frame, a fixed roller, a movable roller and a yarn adjusting driving piece, the fixed roller is rotationally connected to the vertical side wall of the yarn adjusting frame, a movable plate is vertically connected to the vertical side wall of the yarn adjusting frame in a sliding mode, the movable roller is rotationally connected to the movable plate, and the yarn adjusting driving piece is used for driving the movable plate to lift up and down.

Through the technical scheme, the yarn adjusting driving piece can drive the movable plate and the movable roller on the movable plate to move up and down, and the movable roller can prop against the plastic shaping yarn, so that the tightness of the plastic shaping yarn is controlled; the structure can be matched with the guide compensation part, so that the jump generated by the plastic wire between the winding frame and the lead wire rotating wheel is further reduced, and the winding quality of the plastic shaping wire is improved.

Preferably, the number of the fixed rollers is two, and the two fixed rollers are respectively positioned at the left side and the right side of the movable roller.

Through the technical scheme, the plastic shaping wires positioned on two sides of the movable roller are respectively wound on the fixed roller, and even in the up-and-down movement process of the movable roller, the transmission stability of the plastic shaping wires is effectively ensured.

Preferably, the plastic sizing yarn feeding device further comprises an oil adding part, wherein the oil adding part is positioned at one side of the yarn adjusting part, which is away from the guiding compensation part, and the oil adding part is used for adding oil to the surface of the plastic sizing yarn.

Through the technical scheme, the oil adding part can add oil on the surface of the plastic shaping wire so as to reduce the abrasion loss generated in the process of transmission and winding of the plastic shaping wire.

Preferably, the oil adding part comprises an oil adding groove body and an oil adding roller, the oil adding groove body is provided with lubricating oil, and the plastic sizing wire can pass through the oil adding groove body and the oil adding roller.

Through the technical scheme, the plastic shaping wire can be pressed into the lubricating oil in the oil adding groove by the oil adding roller, so that the plastic shaping wire can be ensured to be fully contacted with the lubricating oil.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is a schematic view of the installation structure of the guide compensating part;

FIG. 3 is a schematic diagram of a guide compensator;

fig. 4 is a schematic structural view of the yarn adjusting portion.

Reference numerals: 1. a winding part; 11. a winding frame; 2. a guide compensation unit; 21. a guide compensation frame; 22. a main carriage; 23. a main driving member; 24. a main guide wheel; 25. a sub-carriage; 26. a sub-driving member; 27. an auxiliary guide wheel; 28. a connecting arm; 3. a yarn adjusting part; 31. a wire adjusting frame; 32. a fixed roller; 33. a movable roller; 4. a wire adjusting driving piece; 5. a movable plate; 6. an oil adding part; 61. an oil adding tank body; 62. and (5) adding an oil roller.

Detailed Description

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

The utility model provides a plastic forming wire rolling square frame winding compensation mechanism, see fig. 1, includes rolling portion 1, direction compensation portion 2, accent silk portion 3. The plastic shaping yarn sequentially passes through the yarn adjusting part 3 and the guiding compensation part 2, and finally is wound into the winding part 1.

Wherein, this rolling portion 1 includes the rolling frame 11 that is used for winding up plastics design silk.

The guide compensation 2 is used mainly to guide the plastic wire to wind around the outer wall of the winding frame 11 more smoothly, and is especially suitable for square winding frames 11.

From the structure of the guide compensation section 2: referring to fig. 1 and 2, the guide compensating part 2 includes a guide compensating frame 21, and the guide compensating frame 21 is located at a side position of the winding part 1.

Referring to fig. 2 and 3, the guide compensating frame 21 is slidably connected to a main carriage 22. The guide compensation frame 21 is also provided with a main driving piece 23, and the main driving piece 23 can adopt a transmission mode of a servo motor and a screw rod. The main driving member 23 is configured to drive the main carriage 22 to perform lateral sliding movement.

The main carriage 22 is provided with two connecting arms 28, both of which connecting arms 28 are provided with the main guide wheel 24.

A sub-carriage 25 and a sub-drive 26 are mounted on the main carriage 22, and the sub-carriage 25 is vertically slidably connected to the main carriage 22. The auxiliary driving member 26 can also adopt a transmission mode of a servo motor and a screw rod, and the auxiliary driving member 26 is used for driving the auxiliary carriage 25 to slide up and down.

The sub carriage 25 is provided with a sub guide wheel 27. Two of the main guide wheels 24 are located at the front and rear side positions of the sub guide wheel 27. The plastic wire may be wound around the first primary guide wheel 24, the secondary guide wheel 27, and the second primary guide wheel 24 in that order.

The thread adjusting part 3 is used for adjusting the tightness of the plastic shaping thread, see fig. 4.

From the structure of the yarn adjusting portion 3: the yarn adjusting part 3 is positioned at one side of the guiding compensation part 2 away from the winding part 1.

The yarn adjusting section 3 includes a yarn adjusting frame 31, a fixed roller 32, a movable roller 33, and a yarn adjusting driver 4. The fixed roller 32 is rotatably connected to the vertical side wall of the yarn adjusting frame 31, the movable plate 5 is vertically slidably connected to the vertical side wall of the yarn adjusting frame 31, the movable roller 33 is rotatably connected to the movable plate 5, and the yarn adjusting driving member 4 can be in a structure form of a servo motor or a conveyor belt. The wire adjusting driving piece 4 is used for driving the movable plate 5 to lift up and down.

The number of the fixed rollers 32 is two, and the two fixed rollers 32 are respectively positioned at the left and right sides of the movable roller 33.

The oiling portion 6 is used for oiling the surface of the plastic shaping yarn, see fig. 4.

From the structure of the oil adding portion 6: the oil adding part 6 is positioned at one side of the yarn adjusting part 3 away from the guiding compensation part 2. The oiling portion 6 includes an oiling groove 61 and an oiling roller 62, the oiling groove 61 is placed with lubricating oil, and the plastic shaping yarn can pass through the oiling groove 61 and the oiling roller 62.

In the actual use process, the plastic shaping yarn is sequentially wound on the first fixed roller 32, the movable roller 33, the second fixed roller 32, the first main guide wheel 24, the auxiliary guide wheel 27 and the second main guide wheel 24, and finally wound on the winding frame 11.

The plastic shaping wire is soaked in oil liquid in the oil adding tank 61, then the auxiliary driving piece 26 drives the auxiliary guide wheel 27 to lift up and down, the main driving piece 23 drives the main carriage 22 to slide transversely, and the plastic shaping wire can be uniformly wound on the winding frame 11.

Of course, the above is only a typical example of the utility model, and other embodiments of the utility model are also possible, and all technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of the utility model claimed.

Claims (7)

1. The utility model provides a plastics design silk rolling square frame is around rolling compensation mechanism, includes rolling portion (1), rolling portion (1) are including being used for rolling up rolling frame (11), characterized by of plastics design silk: the automatic winding machine is characterized by further comprising a guide compensation part (2), wherein the guide compensation part (2) comprises a guide compensation frame (21), the guide compensation frame (21) is positioned at one side of the winding part (1), a main carriage (22) is transversely connected onto the guide compensation frame (21) in a sliding manner, a main driving piece (23) is further mounted on the guide compensation frame (21), the main driving piece (23) is used for driving the main carriage (22) to transversely slide, and a main guide wheel (24) is mounted on the main carriage (22);

the auxiliary sliding frame is characterized in that an auxiliary sliding frame (25) and an auxiliary driving piece (26) are arranged on the main sliding frame (22), the auxiliary sliding frame (25) is vertically connected to the main sliding frame (22) in a sliding mode, the auxiliary driving piece (26) is used for driving the auxiliary sliding frame (25) to slide up and down, and an auxiliary guide wheel (27) is arranged on the auxiliary sliding frame (25).

2. The plastic shaped wire winding square frame winding compensation mechanism according to claim 1, wherein: two connecting arms (28) are arranged on the main carriage (22), and the main guide wheels (24) are arranged on the two connecting arms (28).

3. The plastic shaped wire winding square frame winding compensation mechanism according to claim 2, wherein: two main guide wheels (24) are positioned at the front side and the rear side of the auxiliary guide wheels (27).

4. A plastic shaped wire winding square frame winding compensation mechanism according to any one of claims 1-3, characterized in that: still including transferring silk portion (3), it deviates from the one side position of rolling portion (1) to transfer silk portion (3) to be located direction compensation portion (2), transfer silk portion (3) including transferring silk frame (31), fixed roller (32), movable roller (33), transfer silk driving piece (4), fixed roller (32) rotate connect in on transferring the vertical lateral wall of silk frame (31), it is connected with fly leaf (5) to transfer vertical sliding on the vertical lateral wall of silk frame (31), movable roller (33) rotate connect in on fly leaf (5), transfer silk driving piece (4) are used for the drive fly leaf (5) go up and down.

5. The plastic shaped wire winding square frame winding compensation mechanism according to claim 4, wherein: the number of the fixed rollers (32) is two, and the two fixed rollers (32) are respectively positioned at the left side and the right side of the movable roller (33).

6. The plastic shaped wire winding square frame winding compensation mechanism according to claim 4, wherein: the plastic sizing yarn feeding device is characterized by further comprising an oil adding part (6), wherein the oil adding part (6) is positioned at one side of the yarn adjusting part (3) away from the guiding compensation part (2), and the oil adding part (6) is used for adding oil to the surface of the plastic sizing yarn.

7. The plastic shaped wire winding square frame winding compensation mechanism according to claim 6, wherein: the oil adding part (6) comprises an oil adding groove body (61) and an oil adding roller (62), the oil adding groove body (61) is provided with lubricating oil, and the plastic sizing wire can pass through the oil adding groove body (61) and the oil adding roller (62).

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