CN202030359U - Winding machine - Google Patents

Abstract

A winding machine comprises a driving motor, a driving sprocket, a chain, a driven sprocket, a supporting seat, a rotating shaft and a material-winding frame, wherein the rotating shaft is rotatably arranged on the supporting seat, and the material-winding frame is installed on the rotating shaft. The winding machine is characterized in that the winding machine also comprises a rotating sleeve, a first pressing disc, a friction plate, a second pressing disc, a compression spring and an adjusting nut, wherein the rotating sleeve is sleeve on the rotating shaft and is connected with the rotating shaft by a bearing, the driven sprocket and the first pressing disc are fixedly installed on the rotating sleeve, the friction plate is arranged between the first pressing disc and the second pressing disc, the rotating shaft is provided with a threaded section, the adjusting nut is arranged on the threaded section, the second pressing disc is connected with the rotating shaft by keys and can move axially along the rotating shaft, and the compression spring is arranged between the adjusting nut and the second pressing disc. When the winding machine winds the materials, the rotating speed of the material-winding frame can be adjusted automatically, so that the linear winding speed of the material-winding frame can be matched with the material-output speed of the front equipment.

Description

Winder

Technical field

The utility model relates to a kind of winder of the material that is used to reel.

Background technology

At present, a lot of production facilitiess (as the production facilities of materials such as tubing, sheet material, film, cable, tape) need be provided with winder mostly, with material (as tubing, sheet material, film, cable, tape etc.) the harvest volume of making.

Existing winder generally comprises drive motor, drive sprocket, chain, driven sprocket, bearing, turning cylinder and coil cradle, the power take-off shaft and the drive sprocket of drive motor are in transmission connection, drive sprocket is connected with driven sprocket by chain, turning cylinder is rotatable to be installed on the bearing (turning cylinder by bearing installation on bearing) usually, and driven sprocket and coil cradle all are fixedly mounted on the turning cylinder.When carrying out the material rolling, drive motor running, the power take-off shaft of drive motor drives the turning cylinder rotation by drive sprocket, chain and driven sprocket, rotate thereby drive coil cradle, with the material rolling on coil cradle.But, this winder uses not ideal enough in reality, for example, drive motor is at the uniform velocity running usually, coil cradle rotates with uniform cireular frequency thus, like this, increase along with the material of reeling on the coil cradle, the linear velocity of rolling can increase gradually, cause the speed of the linear velocity of rolling greater than preceding method, apparatus outputting material, the situation that material between winder and the preceding method, apparatus is pullled can take place in this moment, gently then causes material to be subjected to tensile deformation and produces substandard products, and is heavy then cause winder or preceding method, apparatus impaired; And for example, in some cases, the preceding method, apparatus of winder is not continuously, outputting material evenly, and existing winder often can not adapt to this situation.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of winder that can automatically regulating coil cradle rotating speed in the process of rolling material.The technical scheme that adopts is as follows:

A kind of winder, comprise drive motor, drive sprocket, chain, driven sprocket, bearing, turning cylinder and coil cradle, the power take-off shaft and the drive sprocket of drive motor are in transmission connection, drive sprocket is connected with driven sprocket by chain, turning cylinder is rotatable to be installed on the bearing, coil cradle is installed on the turning cylinder, it is characterized in that: described winder also comprises turning set, first platen, friction lining, second platen, compression spring and setting nut; Turning set is socketed on the turning cylinder and by bearing and is connected with turning cylinder, and the driven sprocket and first platen all are fixedly mounted on the turning set; Friction lining is located between first platen and second platen; Turning cylinder has a thread segment, and setting nut is installed on this thread segment; Second platen connects with turning cylinder by key and can move axially along turning cylinder; Compression spring is located between the setting nut and second platen, and an end of compression spring contacts with setting nut, the other end contacts with second platen.

The two sides of above-mentioned friction lining contacts with first platen, second platen respectively, under the effect of compression spring, and the second platen pressing friction sheet, friction lining compresses first platen again, like this, there is friction force between second platen and the friction lining, also has friction force between the friction lining and first platen.By rotating setting nut, can change the length of compression spring, thereby regulate the tension force of compression spring, and and then regulate between second platen and the friction lining, the size of the friction force between friction lining and first platen.Owing between second platen and the friction lining, all have friction force between friction lining and first platen, when therefore first platen rotates, can drive the rotation of second platen by friction lining.

Above-mentioned turning cylinder usually by bearing installation on bearing.

On the above-mentioned turning cylinder one or more coil cradles can be installed, each coil cradle rotates under the drive of turning cylinder synchronously.In a concrete scheme, two coil cradles are installed on the above-mentioned turning cylinder, two coil cradles are installed in the two ends of turning cylinder respectively.

Second platen connects with turning cylinder by key, makes second platen can drive turning cylinder when rotating and rotates.The key of above-mentioned connection second platen and turning cylinder can adopt dive key or spline.

In the utility model, owing between second platen and the friction lining, all have friction force between friction lining and first platen, when therefore first platen rotates, can drive the rotation of second platen by friction lining, second platen can drive turning cylinder when rotating and coil cradle rotates together, the rolling material; When the speed of the preceding method, apparatus outputting material of winder is lower than the normal rolling speed of winder, material between winder and the preceding method, apparatus is tensioned, this moment coil cradle, the rotation of the turning cylinder and second platen is obstructed, and first platen still is rotated further under the driving of drive motor, like this, when above-mentioned friction force can not overcome material to coil cradle, during the resistance of the turning cylinder and second platen, occur skidding between second platen and the friction lining or between the friction lining and first platen, first platen can not drive second platen, turning cylinder and coil cradle rotate, and coil cradle suspends the rolling material.As seen, in the process of rolling material, according to the situation of mass transport, the rotating speed of coil cradle can automatically regulating in the utility model, and the linear velocity of coil cradle rolling and the speed of preceding method, apparatus outputting material are complementary.By rotating setting nut, can change the length of compression spring, thereby regulate the tension force of compression spring, make between second platen and the friction lining, keep sizeable friction force between friction lining and first platen, both can make first platen can normally drive second platen, turning cylinder and coil cradle rotates, the rolling material, again can be when coil cradle, turning cylinder and second platen be subjected to certain resistance, make between second platen and the friction lining or the friction lining and first platen between in time occur skidding, avoid material to be subjected to tensile deformation, and avoid winder or preceding method, apparatus impaired.

Description of drawings

Accompanying drawing is the structural representation of the utility model preferred embodiment.

The specific embodiment

As shown in drawings, this winder comprises drive motor, drive sprocket, chain, driven sprocket 1, bearing 2, turning cylinder 3, coil cradle 4, turning set 5, first platen 6, friction lining 7, second platen 8, compression spring 9 and setting nut 10.

The power take-off shaft and the drive sprocket of drive motor are in transmission connection, drive sprocket connects (annexation between drive motor, drive sprocket, chain and the driven sprocket 1 is identical with existing winder, so do not draw in the accompanying drawing drive motor, drive sprocket and chain) by chain with driven sprocket 1.

Turning cylinder 3 is rotatable to be installed on the bearing 2 (turning cylinder 3 usually by bearing installation on bearing 2), and coil cradle 4 is installed on the turning cylinder 3.Present embodiment is provided with the two ends that 4, two coil cradles 4 of two coil cradles are installed in turning cylinder 3 respectively.

Turning set 5 is socketed on the turning cylinder 3 and by bearing 11 and is connected with turning cylinder 3, and the driven sprocket 1 and first platen 6 all are fixedly mounted on the turning set 5.

Friction lining 7 is located between first platen 6 and second platen 8; Turning cylinder 3 has thread segment 12, and setting nut 10 is installed on this thread segment 12; Second platen 8 connects with turning cylinder 3 by dive key 13, make that second platen 8 and turning cylinder 3 are circumferentially fixing, and second platen 8 can move axially along turning cylinder 3; Compression spring 9 is located between the setting nut 10 and second platen 8, and an end of compression spring 9 contacts with setting nut 10, the other end contacts with second platen 8.The two sides of friction lining 7 contacts with first platen 6, second platen 8 respectively, under the effect of compression spring 9, second platen, 8 pressing friction sheets 7, friction lining 7 compresses first platen 6 again, like this, there is friction force between second platen 8 and the friction lining 7, also has friction force between the friction lining 7 and first platen 6.

Brief description is the principle of work of this winder once:

During work, the drive motor running, the power take-off shaft of drive motor drives driven sprocket 1 rotation by drive sprocket, chain; The drive turning set 5 and first platen 6 rotate together during driven sprocket 1 rotation; Since between second platen 8 and the friction lining 7, all have friction force between friction lining 7 and first platen 6, when therefore first platen 6 rotates, can be by 8 rotations of friction lining 7 drives second platen; When second platen 8 rotates, rotate the rolling material together by dive key 13 drive turning cylinders 3 and coil cradle 4;

When the speed of the preceding method, apparatus outputting material of winder is lower than the normal rolling speed of winder, material between winder and the preceding method, apparatus is tensioned, this moment coil cradle 4, the rotation of the turning cylinder 3 and second platen 8 is obstructed, and first platen 6 still is rotated further under the driving of drive motor, like this, between second platen 8 and friction lining 7, friction force between the friction lining 7 and first platen 6 can not overcome material to coil cradle 4, during the resistance of the turning cylinder 3 and second platen 6, between second platen 8 and the friction lining 7, perhaps occur skidding between the friction lining 7 and first platen 6, first platen 6 can not drive second platen 8 and rotate, turning cylinder 3 and coil cradle 4 can not rotate, and coil cradle 4 suspends the rolling material.

By rotating setting nut 10, change the position of setting nut 10 on thread segment 12, can change the length of compression spring 9, thereby regulate the tension force of compression spring 9, make between second platen 8 and the friction lining 7, keep sizeable friction force between the friction lining 7 and first platen 6, both can make first platen 6 can normally drive second platen 8, turning cylinder 3 and coil cradle 4 rotate, the rolling material, again can be at coil cradle 4, when the turning cylinder 3 and second platen 8 are subjected to certain resistance, make between second platen 8 and the friction lining 7, perhaps in time occur skidding between the friction lining 7 and first platen 6.

In other embodiments, second platen also can connect with turning cylinder by spline, also can be connected with turning cylinder (for example the central authorities of second platen for being provided with polygonal hole, the shape of cross section of the turning cylinder and the second platen counterpart and size and this polygonal hole are not complementary) by the structure of similar spline.

Claims (2)

1. winder, comprise drive motor, drive sprocket, chain, driven sprocket, bearing, turning cylinder and coil cradle, the power take-off shaft and the drive sprocket of drive motor are in transmission connection, drive sprocket is connected with driven sprocket by chain, turning cylinder is rotatable to be installed on the bearing, coil cradle is installed on the turning cylinder, it is characterized in that: described winder also comprises turning set, first platen, friction lining, second platen, compression spring and setting nut; Turning set is socketed on the turning cylinder and by bearing and is connected with turning cylinder, and the driven sprocket and first platen all are fixedly mounted on the turning set; Friction lining is located between first platen and second platen; Turning cylinder has a thread segment, and setting nut is installed on this thread segment; Second platen connects with turning cylinder by key and can move axially along turning cylinder; Compression spring is located between the setting nut and second platen, and an end of compression spring contacts with setting nut, the other end contacts with second platen.

2. winder according to claim 1 is characterized in that: the key of described connection second platen and turning cylinder is dive key or spline.

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