CN220664470U - Gold and silver line winding device - Google Patents

Abstract

The application discloses gold and silver line winding device belongs to the textile field. The problem of the continuous winding to the bobbin in-process tension of spinning line constant among the prior art is solved. The application comprises the following steps: bobbin, first actuating mechanism, guiding mechanism, sensor, controller. The first driving mechanism drives the winding drum to rotate, so that the wire is wound on the winding drum along with the rotation of the winding drum; the guide mechanism is arranged to guide the movement path of the wire rod, so that the wire rod can be uniformly wound on the winding reel; the tension of the wire rod is detected in real time through the sensor, a signal is fed back to the controller, and the controller controls the rotating speed of the first driving mechanism in real time, so that the wire rod tension is constant in the process of continuously winding the wire rod to the winding reel.

Description

Gold and silver line winding device

Technical Field

The application relates to the textile field, in particular to a gold and silver wire winding device.

Background

In the textile process, wire tension is one of the most important parameters in wire performance. Abnormal wire tension may cause deformation of the wire, affecting the physical properties of the wire, and thus affecting the appearance and quality of the fabric. The wire is broken in the production process due to excessive tension of the wire, so that the production efficiency is reduced; too little wire tension can result in loosening of the fabric, which can lead to unsightly problems. The traditional method for detecting the tension of the wire rod is that a section of wire rod is manually extracted, the tension of the section of wire rod is detected through a tension tester, and then the tension of the section of wire rod is manually adjusted.

In the patent with publication number CN212247460U, an upper thread tension detecting and adjusting device is disclosed, the device needs to fix two ends of a thread on a thread clamp and a winding wheel respectively, then a detecting head is used for touching the thread to detect the tension value of the thread, and a screwdriver is used for manually rotating the thread clamp to adjust the tension of the thread according to the tension value. The device needs to fix the two ends of the spinning thread and then detect the tension, so that the device consumes more time and has slower speed.

Therefore, the technical problem to be solved by the application is as follows: how to ensure constant tension of the wire during the continuous winding of the wire onto the bobbin.

Disclosure of Invention

The purpose of this application is to the above-mentioned problem that exists among the prior art, has proposed a gold silver wire winding device, has solved the problem that spinning tension can't detect and adjust in the in-process of winding to the bobbin in succession among the prior art, and the technical effect of this application scheme is: the yarn tension is constant during the continuous winding of the yarn onto the bobbin.

The application can be realized through the following technical scheme: a gold and silver wire winding apparatus comprising: a bobbin for winding a wire; the first driving mechanism is provided with an output end, and the output end is connected with the winding reel and can drive the winding reel to rotate; the guide mechanism is arranged beside the winding reel and can guide the movement path of the wire rod; the guide mechanism comprises: the screw rod is arranged on one side of the winding reel; the second driving mechanism is connected with the screw rod and can drive the screw rod to rotate; the moving block is arranged on the screw rod, so that the screw rod can be driven to move by rotating, and the wire rod can be connected with the moving block; the first guide rail is arranged below the lead screw, and the moving block is in sliding connection with the first guide rail; wherein the wire can move along with the moving block so that the wire is wound to different positions of the winding reel; the sensor is arranged on the guide mechanism, can be contacted with the wire rod and is used for detecting the tension value of the wire rod; the sensor is a pressure sensor, and the pressure sensor is arranged on the moving block, can move along with the moving block and is abutted with the wire rod, and is used for detecting the pressure value of the wire rod on the moving block; the controller is arranged on the first driving mechanism and can control the rotating speed of the output end of the first driving mechanism according to the pressure value, so that the rotating speed of the winding reel changes along with the pressure value; wherein the sensor is electrically connected with the controller; the bobbin has a telescopic end which can be telescopic to adjust the height of the bobbin.

In the technical scheme, the first driving mechanism drives the winding reel to rotate, and the guiding mechanism is arranged to guide the movement path of the wire rod, so that the wire rod can be uniformly wound on the winding reel; the tension value of the wire rod is detected in real time through the sensor, the rotating speed of the first driving mechanism can be adjusted along with the tension value of the wire rod through the controller, and the wire rod tension is constant in the process of continuously winding the wire rod on the winding reel. The moving block is arranged on the screw rod, and the screw rod is driven to rotate through the second driving mechanism, so that the moving block can move along the screw rod, and the wire rod can move along with the moving block through connecting the wire rod with the moving block, so that the wire rod is uniformly wound on the winding reel; when movable block and wire rod butt time, movable block and lead screw probably receive the pressure of wire rod, and the lead screw long-term use can bending deformation, and first guide rail can bear the pressure of wire rod to the lead screw, has prolonged the life of lead screw. Through setting up pressure sensor on the movable block and can with the wire rod butt for pressure sensor can move along with the wire rod, but the in-process pressure sensor real-time detection wire rod to pressure sensor's pressure value when the wire rod continuous flow through pressure sensor, and feed back the signal to the controller, but make the rotational speed of first actuating mechanism follow pressure value real-time regulation through the controller, realize the wire rod continuous winding to the in-process tension invariable of bobbin. The height of the winding reel can be adjusted, so that the winding reel meets the winding demands of wires with different lengths.

Further, as another aspect, a gold-silver wire winding device includes: a bobbin for winding a wire; the first driving mechanism is provided with an output end, and the output end is connected with the winding reel and can drive the winding reel to rotate; the guide mechanism is arranged beside the winding reel and can guide the movement path of the wire rod; the guide mechanism comprises: the screw rod is arranged on one side of the winding reel; the second driving mechanism is connected with the screw rod and can drive the screw rod to rotate; the moving block is arranged on the screw rod, so that the screw rod can be driven to move by rotating, and the wire rod can be connected with the moving block; the first guide rail is arranged below the lead screw, and the moving block is in sliding connection with the first guide rail; wherein the wire can move along with the moving block so that the wire is wound to different positions of the winding reel; the sensor is arranged on the guide mechanism, can be contacted with the wire rod and is used for detecting the tension value of the wire rod; the sensor is a tension sensor, the tension sensor is arranged on the moving block and can move along with the moving block, a pull ring is arranged on the tension sensor and can stretch wires, and the tension sensor can detect the tension value of the stretching piece on the wires; the controller is arranged on the first driving mechanism and can control the rotating speed of the first driving mechanism according to the tension value, so that the rotating speed of the winding reel changes along with the tension value; wherein the sensor is electrically connected with the controller; the bobbin has a telescopic end which can be telescopic to adjust the height of the bobbin.

In the technical scheme, the first driving mechanism drives the winding reel to rotate, and the guiding mechanism is arranged to guide the movement path of the wire rod, so that the wire rod can be uniformly wound on the winding reel; the tension value of the wire rod is detected in real time through the sensor, the rotating speed of the first driving mechanism can be adjusted along with the tension value of the wire rod through the controller, and the wire rod tension is constant in the process of continuously winding the wire rod on the winding reel. The moving block is arranged on the screw rod, and the screw rod is driven to rotate through the second driving mechanism, so that the moving block can move along the screw rod, and the wire rod can move along with the moving block through connecting the wire rod with the moving block, so that the wire rod is uniformly wound on the winding reel; when movable block and wire rod butt time, movable block and lead screw probably receive the pressure of wire rod, and the lead screw long-term use can bending deformation, and first guide rail can bear the pressure of wire rod to the lead screw, has prolonged the life of lead screw. The tension sensor is arranged on the moving block, so that the tension sensor can move along with the moving block; the pull ring on the pull force sensor can stretch the wire rod, so that the pull force sensor can detect the pull force value of the wire rod passing through the pull ring in real time and feed back a signal to the controller; the rotating speed of the first driving mechanism can be adjusted in real time along with the tension value through the controller, so that the tension is constant in the process of continuously winding the wire into the winding reel. The height of the winding reel can be adjusted, so that the winding reel meets the winding demands of wires with different lengths.

Further, as another aspect, a gold-silver wire winding device includes: a bobbin for winding a wire; the first driving mechanism is provided with an output end, and the output end is connected with the winding reel and can drive the winding reel to rotate; the guide mechanism is arranged beside the winding reel and can guide the movement path of the wire rod; the guide mechanism includes: the second guide rail is arranged on one side of the winding reel; the sliding block is in sliding connection with the second guide rail and can be connected with the wire rod; the third driving mechanism is arranged on one side of the second guide rail and is provided with a telescopic part, and the telescopic part is connected with the sliding block and can stretch to drive the sliding block to reciprocate along the second guide rail; the wire can move along with the sliding block so that the wire is wound to different positions of the winding reel; the sensor is arranged on the guide mechanism, can be contacted with the wire rod and is used for detecting the tension value of the wire rod; the sensor is arranged on the guide mechanism, can be contacted with the wire rod and is used for detecting the tension value of the wire rod; the sensor is a pressure sensor, and the pressure sensor is arranged on the sliding block, can move along with the sliding block and is abutted with the wire rod, and is used for detecting the pressure value of the wire rod to the sliding block; the controller is arranged on the first driving mechanism and can control the rotating speed of the output end of the first driving mechanism according to the pressure value, so that the rotating speed of the winding reel changes along with the pressure value; wherein the sensor is electrically connected with the controller; the bobbin has a telescopic end which can be telescopic to adjust the height of the bobbin.

In the technical scheme, the first driving mechanism drives the winding reel to rotate, and the guiding mechanism is arranged to guide the movement path of the wire rod, so that the wire rod can be uniformly wound on the winding reel; the tension value of the wire rod is detected in real time through the sensor, the rotating speed of the first driving mechanism can be adjusted along with the tension value of the wire rod through the controller, and the wire rod tension is constant in the process of continuously winding the wire rod on the winding reel. Through setting up third actuating mechanism drive slider along the guide rail motion, through being connected slider and wire rod for the slider removes and drives the wire rod motion, makes the wire rod evenly twine on the bobbin. Through setting up pressure sensor on the slider and can with the wire rod butt for pressure sensor can move along with the wire rod, but the in-process pressure sensor real-time detection wire rod to pressure sensor's pressure value when the wire rod continuous flow through pressure sensor, and feed back the signal to the controller, but make the rotational speed of first actuating mechanism adjust along with the pressure value in real time through the controller, realize the wire rod continuous winding to the in-process tension invariable of bobbin. The height of the winding reel can be adjusted, so that the winding reel meets the winding demands of wires with different lengths.

Further, as another aspect, a gold-silver wire winding device includes: a bobbin for winding a wire; the first driving mechanism is provided with an output end, and the output end is connected with the winding reel and can drive the winding reel to rotate; the guide mechanism is arranged beside the winding reel and can guide the movement path of the wire rod; the guide mechanism includes: the second guide rail is arranged on one side of the winding reel; the sliding block is in sliding connection with the second guide rail and can be connected with the wire rod; the third driving mechanism is arranged on one side of the second guide rail and is provided with a telescopic part, and the telescopic part is connected with the sliding block and can stretch to drive the sliding block to reciprocate along the second guide rail; the wire can move along with the sliding block so that the wire is wound to different positions of the winding reel; the sensor is arranged on the guide mechanism, can be contacted with the wire rod and is used for detecting the tension value of the wire rod; the sensor is a tension sensor, the tension sensor is arranged on the sliding block and can move along with the sliding block, a pull ring is arranged on the tension sensor and can stretch a wire rod, the tension sensor can detect the tension value of the stretching piece on the wire rod, and the controller is arranged on the first driving mechanism and can control the rotating speed of the first driving mechanism according to the tension value, so that the rotating speed of the winding reel changes along with the tension value; wherein the sensor is electrically connected with the controller; the bobbin has a telescopic end which can be telescopic to adjust the height of the bobbin.

In the technical scheme, the first driving mechanism drives the winding reel to rotate, and the guiding mechanism is arranged to guide the movement path of the wire rod, so that the wire rod can be uniformly wound on the winding reel; the tension value of the wire rod is detected in real time through the sensor, the rotating speed of the first driving mechanism can be adjusted along with the tension value of the wire rod through the controller, and the wire rod tension is constant in the process of continuously winding the wire rod on the winding reel. Through setting up third actuating mechanism drive slider along the guide rail motion, through being connected slider and wire rod for the slider removes and drives the wire rod motion, makes the wire rod evenly twine on the bobbin. The tension sensor is arranged on the sliding block, so that the tension sensor can move along with the sliding block; the pull ring on the pull force sensor can stretch the wire rod, so that the pull force sensor can detect the pull force value of the wire rod passing through the pull ring in real time and feed back a signal to the controller; the rotating speed of the first driving mechanism can be adjusted in real time along with the tension value through the controller, so that the tension is constant in the process of continuously winding the wire into the winding reel. The height of the winding reel can be adjusted, so that the winding reel meets the winding demands of wires with different lengths.

Further, the guide mechanism is provided with a brush, so that the wire can be cleaned.

In the technical scheme, the hairbrush is arranged on the guide mechanism, so that the wire wound on the winding reel is free of foreign matters, and the winding quality is ensured.

Further, the side guard plates are arranged at two ends of the winding reel, the side guard plates are provided with rollers, the winding reel is provided with grooves, and the rollers can move along the grooves, so that the side guard plates can rotate relative to the winding reel.

In the technical scheme, through configuration groove and gyro wheel, can reduce the frictional force between wire rod and the side guard plate, prevent the coating loss on wire rod surface, guaranteed wire rod quality.

In summary, the present application has the following technical effects: through setting up first actuating mechanism drive bobbin and rotate, make the wire rod evenly twine to the bobbin on through setting up guiding mechanism, through setting up sensor real-time detection wire rod tension on guiding mechanism, set up the controller on first actuating mechanism for the motor rotational speed can be according to wire rod tension real-time adjustment, has realized that the wire rod is constantly wound to the in-process tension of bobbin in succession.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present application;

FIG. 2 is a schematic view of the bobbin structure of the present application;

FIG. 3 is a schematic view of the installation of the second rail and slider of the present application;

FIG. 4 is a schematic view of the installation of the tab of the present application;

1. a bobbin; 11. a groove; 12. a telescoping end; 13. a side guard plate; 131. a roller; 2. a first driving mechanism; 3. a guide mechanism; 31. a screw rod; 32. a moving block; 33. a second driving mechanism; 34. a first guide rail; 35. a third driving mechanism; 36. a slide block; 37. a second guide rail; 38. a brush; 4. a pressure sensor; 5. a tension sensor; 51. a pull ring; 6. and a controller.

Detailed Description

An embodiment of the present application provides a gold-silver wire winding device, please refer to fig. 1 of the accompanying drawings, including: bobbin 1, first driving mechanism 2, guiding mechanism 3, sensor and controller 6. The bobbin 1 is used for winding wires, and the first driving mechanism 2 is provided with an output end which can be connected with the bobbin 1, and the bobbin 1 is rotatably driven to rotate, so that the wires are wound on the bobbin 1. The guide mechanism 3 is arranged at the side of the winding reel 1 and can guide the movement path of the wire so that the wire is uniformly wound on the winding reel 1; the guide mechanism 3 is provided with a sensor which can be contacted with the wire rod and is used for detecting the tension value of the wire rod; the first driving mechanism 2 is provided with a controller 6, which can be used for controlling the rotation speed of the first driving mechanism 2, so that the rotation speed of the first driving mechanism 2 is matched with the tension value of the wire, and it can be understood that when the wire passes through the sensor, the sensor can detect the tension value of the wire in real time and feed back a signal to the controller 6, and the controller 6 adjusts the rotation speed of the first driving mechanism 2 according to the tension value. When the tension value is large, the controller 6 can adjust the rotation speed of the first driving mechanism 2 to be reduced so as to loosen the wire; when the tension value is small, the controller 6 can adjust the rotation speed of the first driving mechanism 2 to be increased so as to tension the wire. Wherein the sensor is electrically connected to the controller 6 such that the sensor can feed back a signal to the controller 6.

The first driving mechanism 2 may be a motor, or other device that can drive the bobbin 1 to rotate, for example.

The guide mechanism 3 includes a lead screw 31, a second drive mechanism 33, a first guide rail 34, and a moving block 32. The screw rod 31 is arranged at one side of the winding drum 1, the second driving mechanism 33 can be connected with the screw rod 31 and is used for driving the screw rod 31 to rotate, the moving block 32 is arranged on the screw rod 31, the screw rod 31 can drive the moving block 32 to move through rotation, the first guide rail 34 is arranged below the screw rod 31, and the moving block 32 is in sliding connection with the first guide rail 34; wherein the wire can move with the moving block 32 so that the wire can be uniformly wound on the bobbin 1.

The second driving mechanism 33 may be a motor, or may be another driving mechanism capable of driving the screw 31 to rotate.

The sensor is a pressure sensor 4, and the pressure sensor 4 is arranged on the moving block 32, can move along with the moving block 32 and is abutted with the wire rod, and is used for detecting the pressure value of the wire rod to the moving block 32; the first driving mechanism 2 is provided with a controller 6 which can control the rotating speed of the output end of the first driving mechanism 2 according to the pressure value, so that the rotating speed of the winding reel 1 changes along with the pressure value.

It should be particularly understood that, in this embodiment, the moving block 32 is disposed below the wire, the wire may abut against the moving block 32, the pressure of the wire with different tension on the moving block 32 is different, and the pressure sensor 4 is disposed on the contact surface of the wire and the moving block 32, for detecting the pressure of the wire on the moving block 32, when the tension of the wire is greater, the pressure on the moving block 32 is greater; when the wire tension is small, the pressure on the moving block 32 is small.

It will be appreciated that when the screw 31 rotates, the moving block 32 provided on the screw 31 is driven to move along the screw 31 and the first guide rail 34. It should be noted that, when the wire rod is abutted against the pressure sensor 4 disposed on the moving block 32, the wire rod will form a certain pressure on the moving block 32, and meanwhile, the screw rod 31 will also receive the pressure of the moving block 32, and the screw rod 31 will be deformed by bending after long-term use, so that the first guide rail 34 has a bearing function, and can bear the pressure of the wire rod on the screw rod 31, and the screw rod 31 will not be deformed and bent after long-term use, so as to prolong the service life of the screw rod 31. If the wire needs to be wound, the wire is fixedly connected to the bobbin 1 and then connected with the moving block 32, in this embodiment, the wire is abutted against the moving block 32, and baffles are arranged on two sides of the moving block 32, so that the wire can move along with the moving block 32, and the wire can be uniformly wound on the bobbin 1.

In the production process of the wire rod, the produced wire rod may be stained with foreign matters such as velvet, and in order to secure the quality of the wire rod, it is necessary to clean the foreign matters on the wire rod before the wire rod is wound on the bobbin 1. In this embodiment, the brush 38 is disposed on the moving block 32, so that the wire can be cleaned when the wire abuts against the moving block 32, so as to ensure the quality of the wire.

It will be appreciated that a fixed amount of wire may not match the length of wire produced by the bobbin 1, and in this embodiment, the bobbin 1 is provided with a telescopic end 12 so that the bobbin 1 may be telescopic to allow the bobbin 1 to accommodate the winding requirements of different lengths of wire.

Side shields 13 are arranged at two ends of the winding drum 1, rollers 131 are arranged on the side shields 13, grooves 11 are formed in the winding drum 1, and the rollers 131 can move along the grooves 11 so that the side shields 13 can rotate relative to the winding drum 1.

It will be appreciated that referring to fig. 2 of the drawings, when the wire is wound at two ends of the bobbin 1, the wire may contact the side guard 13, so that a portion of the coating on the wire is scraped off, and the quality of the wire is reduced, by providing the roller 131 and the groove 11, the roller 131 can move along the groove 11, and when the wire is wound at two ends of the bobbin 1 and contacts the side guard 13, the friction between the wire and the side guard 13 can be reduced, so that the abrasion of the wire in the winding process is reduced, and the winding quality is ensured.

The working principle of the embodiment is as follows: firstly, one end of a wire is fixedly connected to a winding drum 1, then the wire is abutted to a moving block 32, a pressure sensor 4 is arranged on the contact surface of the wire and the moving block 32, the winding drum 1 is driven by a first driving mechanism 2 to rotate, the moving block 32 is driven by a second driving mechanism 33 to move along a guide rail, the wire can be uniformly wound on the winding drum 1, the pressure value of the wire to the moving block 32 can be detected by the pressure sensor 4 in real time, a signal is fed back to a controller 6, and the rotating speed of the winding drum 1 is regulated by the controller 6 in real time according to the pressure value. The brush 38 provided on the moving block 32 can remove foreign materials from the wire before winding the wire on the bobbin 1. When the wire to be wound is long, the telescopic end 12 can be adjusted to extend the length of the bobbin 1. When the wire is wound to the two ends of the winding reel 1 and is in contact with the side guard plates 13, the rollers 131 on the side guard plates 13 can slide along the grooves 11, so that friction between the wire and the side guard plates 13 is reduced, abrasion of the wire in the winding process is reduced, and winding quality is guaranteed.

The present application further provides an embodiment, please refer to fig. 3 of the drawings, which is basically the same as the structure and principle of the above embodiment, except that the guiding mechanism 3 includes: a second guide rail 37, a slider 36 and a third drive mechanism 35. The second guide rail 37 is arranged at one side of the bobbin 1, the sliding block 36 is in sliding connection with the second guide rail 37, the sliding block 36 can be connected with a wire rod, the third driving mechanism 35 is arranged at one end of the second guide rail 37 and is provided with a telescopic part, and the telescopic part is connected with the sliding block 36 and can stretch to drive the sliding block 36 to slide along the second guide rail 37; in the present embodiment, the wire is abutted against the slider 36, and the two sides of the slider 36 are provided with the shutters, so that the wire can move along with the slider 36, and the wire is uniformly wound on the bobbin 1.

The third driving mechanism 35 may be a cylinder, an electric push rod, or other devices capable of driving the slider 36 to reciprocate.

The working principle of the embodiment is as follows: the third driving mechanism 35 drives the sliding block 36 to move along the second guide rail 37, the wire rod is abutted against the sliding block 36, and the sliding block 36 moves to drive the wire rod to be uniformly wound on the winding reel 1.

The present application also provides an embodiment, which has basically the same structure and principle as the above embodiment, except that the sensor is a tension sensor 5, the tension sensor 5 is disposed on the sliding block 36 or the moving block 32 and can move along with the sliding block 36 or the moving block 32, and the tension sensor 5 is provided with a pull ring 51, which can stretch the wire, and the tension sensor 5 can detect the tension value of the stretching piece to the wire; the first driving mechanism 2 is provided with a controller 6, and the rotating speed of the first driving mechanism 2 can be controlled in real time according to the tension value, so that the tension of the wire is constant in the process of continuously winding the wire on the winding drum 1.

It will be appreciated that referring to fig. 4 of the drawings, the pull ring 51 may move with the slider 36 or the moving block 32, and it should be noted that, in this embodiment, the wire can move with the pull ring 51 to uniformly wind the wire on the bobbin 1. The pull ring 51 has a larger tension and a smaller tension in the process of stretching the wire.

The working principle of the embodiment is as follows: the pull ring 51 arranged on the tension sensor 5 can stretch the wire, and the tension sensor 5 can detect the magnitude of the tension value in real time and feed back a signal to the controller 6, so that the controller 6 can adjust the rotating speed of the winding reel 1 in real time according to the magnitude of the tension value, and the tension of the wire is constant in the process of continuously winding the wire on the winding reel 1.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (6)

1. A gold and silver wire winding device, characterized by comprising:

a bobbin (1), the bobbin (1) for winding a wire;

the first driving mechanism (2) is provided with an output end, and the output end is connected with the winding reel (1) and can drive the winding reel (1) to rotate;

the guide mechanism (3) is arranged beside the winding reel (1) and can guide the movement path of the wire rod so that the wire rod is wound at different positions of the winding reel (1); the guide mechanism (3) comprises:

a lead screw (31), the lead screw (31) being provided on one side of the bobbin (1);

the second driving mechanism (33), the said second driving mechanism (33) is connected with lead screw (31), can drive the said lead screw (31) to rotate;

the moving block (32), the moving block (32) is arranged on the lead screw (31), so that the lead screw (31) can drive the moving block (32) to move by rotating, and the wire can be connected with the moving block (32);

the first guide rail (34), the first guide rail (34) is arranged below the lead screw (31), and the moving block (32) is in sliding connection with the first guide rail (34);

wherein the wire is movable with the moving block (32) so that the wire is wound to different positions of the bobbin (1);

the sensor is arranged on the guide mechanism (3) and can be contacted with the wire rod, and is used for detecting the tension value of the wire rod; the sensor is a pressure sensor (4), and the pressure sensor (4) is arranged on the moving block (32), can move along with the moving block (32) and is abutted with the wire rod, and is used for detecting the pressure value of the wire rod to the moving block (32);

the controller (6) is arranged on the first driving mechanism (2), and the controller (6) can control the rotating speed of the output end of the first driving mechanism (2) according to the pressure value, so that the rotating speed of the winding reel (1) changes along with the pressure value;

wherein the sensor is electrically connected with the controller (6);

the bobbin (1) has a telescopic end (12) which can be extended and retracted to adjust the height of the bobbin (1).

2. A gold and silver wire winding device, characterized by comprising:

a bobbin (1), the bobbin (1) for winding a wire;

the first driving mechanism (2) is provided with an output end, and the output end is connected with the winding reel (1) and can drive the winding reel (1) to rotate;

the guide mechanism (3) is arranged beside the winding reel (1) and can guide the movement path of the wire rod so that the wire rod is wound at different positions of the winding reel (1); the guide mechanism (3) comprises:

a lead screw (31), the lead screw (31) being provided on one side of the bobbin (1);

the second driving mechanism (33), the said second driving mechanism (33) is connected with lead screw (31), can drive the said lead screw (31) to rotate;

the moving block (32), the moving block (32) is arranged on the lead screw (31), so that the lead screw (31) can drive the moving block (32) to move by rotating, and the wire can be connected with the moving block (32);

the first guide rail (34), the first guide rail (34) is arranged below the lead screw (31), and the moving block (32) is in sliding connection with the first guide rail (34);

wherein the wire is movable with the moving block (32) so that the wire is wound to different positions of the bobbin (1);

the sensor is arranged on the guide mechanism (3) and can be contacted with the wire rod, and is used for detecting the tension value of the wire rod; the sensor is a tension sensor (5), the tension sensor (5) is arranged on the moving block (32) and can move along with the moving block (32), a pull ring (51) is arranged on the tension sensor (5) and can stretch a wire rod, and the tension sensor (5) can detect the tension value of the stretching piece on the wire rod;

the controller (6) is arranged on the first driving mechanism (2), and the controller (6) can control the rotating speed of the first driving mechanism (2) according to the tension value, so that the rotating speed of the winding reel (1) changes along with the tension value;

wherein the sensor is electrically connected with the controller (6);

the bobbin (1) has a telescopic end (12) which can be extended and retracted to adjust the height of the bobbin (1).

3. A gold and silver wire winding device, characterized by comprising:

a bobbin (1), the bobbin (1) for winding a wire;

the first driving mechanism (2) is provided with an output end, and the output end is connected with the winding reel (1) and can drive the winding reel (1) to rotate;

the guide mechanism (3) is arranged beside the winding reel (1) and can guide the movement path of the wire rod so that the wire rod is wound at different positions of the winding reel (1); the guide mechanism (3) comprises:

a second guide rail (37), the second guide rail (37) being provided on one side of the bobbin (1);

a slider (36), the slider (36) being slidably connected to the second guide rail (37), and the slider (36) being connectable to the wire;

the third driving mechanism (35) is arranged on one side of the guide rail and is provided with a telescopic part, and the telescopic part is connected with the sliding block (36) and can stretch to drive the sliding block (36) to slide along the guide rail;

wherein the wire is movable with the slider (36) to enable the wire to be wound to different positions of the bobbin (1);

the sensor is arranged on the guide mechanism (3) and can be contacted with the wire rod, and is used for detecting the tension value of the wire rod; the sensor is a pressure sensor (4), and the pressure sensor (4) is arranged on the sliding block (36), can move along with the sliding block (36) and is abutted with the wire rod, and is used for detecting the pressure value of the wire rod to the sliding block (36);

the controller (6) is arranged on the first driving mechanism (2), and the controller (6) can control the rotating speed of the output end of the first driving mechanism (2) according to the pressure value, so that the rotating speed of the winding reel (1) changes along with the pressure value;

wherein the sensor is electrically connected with the controller (6);

the bobbin (1) has a telescopic end (12) which can be extended and retracted to adjust the height of the bobbin (1).

4. A gold and silver wire winding device, characterized by comprising:

a bobbin (1), the bobbin (1) for winding a wire;

the first driving mechanism (2) is provided with an output end, and the output end is connected with the winding reel (1) and can drive the winding reel (1) to rotate;

the guide mechanism (3) is arranged beside the winding reel (1) and can guide the movement path of the wire rod so that the wire rod is wound at different positions of the winding reel (1); the guide mechanism (3) comprises:

a second guide rail (37), the second guide rail (37) being provided on one side of the bobbin (1);

a slider (36), the slider (36) being slidably connected to the second guide rail (37), and the slider (36) being connectable to the wire;

the third driving mechanism (35) is arranged on one side of the guide rail and is provided with a telescopic part, and the telescopic part is connected with the sliding block (36) and can stretch to drive the sliding block (36) to slide along the guide rail;

wherein the wire is movable with the slider (36) to enable the wire to be wound to different positions of the bobbin (1);

the sensor is arranged on the guide mechanism (3) and can be contacted with the wire rod, and is used for detecting the tension value of the wire rod; the sensor is a tension sensor (5), the tension sensor (5) is arranged on the sliding block (36) and can move along with the sliding block (36), a pull ring (51) is arranged on the tension sensor (5) and can stretch a wire rod, and the tension sensor (5) can detect the tension value of the stretching piece on the wire rod;

the controller (6) is arranged on the first driving mechanism (2), and the controller (6) can control the rotating speed of the first driving mechanism (2) according to the tension value, so that the rotating speed of the winding reel (1) changes along with the tension value;

wherein the sensor is electrically connected with the controller (6);

the bobbin (1) has a telescopic end (12) which can be extended and retracted to adjust the height of the bobbin (1).

5. A gold and silver wire winding device according to claim 1 or 2 or 3 or 4, characterized in that the guiding means (3) is provided with brushes (38) for cleaning the wire.

6. The gold and silver wire winding device according to claim 1 or 2 or 3 or 4, wherein the side guard plates (13) are arranged at two ends of the winding drum (1), rollers (131) are arranged on the side guard plates (13), grooves (11) are arranged on the winding drum (1), and the rollers (131) can move along the grooves (11) so that the side guard plates (13) can rotate relative to the winding drum (1).