CN219971461U - Traction device for antistatic cloth production - Google Patents

Abstract

The utility model discloses a traction device for producing antistatic cloth, which comprises a lead wheel, a wire feeding wheel, a guide rail plate and a guide clamping plate, wherein two ends of the wire feeding wheel are respectively connected with a first baffle plate and a second baffle plate through rotating shafts, three lead wheels are arranged between the first baffle plate and the second baffle plate through connecting shafts, one side of the second baffle plate is provided with the guide clamping plate through a connecting rod, and the guide clamping plate is connected with the guide rail plate. The utility model is provided with the wire feeding wheel, the wire feeding wheel is provided with a plurality of limiting stop bars, the wire feeding wheel is divided into a plurality of wire grooves by the limiting stop bars, a plurality of wire guiding wheels are arranged between the first baffle plate and the second baffle plate through the connecting shaft, and the wire guiding wheels are matched with the wire grooves, so that the wire feeding wheel can carry out one-wheel multi-wire traction control in the traction process, the use is convenient, and the traction efficiency is high; the middle part of the inner side of the guide rail plate is provided with a guide groove, the middle part of the guide groove is provided with a screw rod, and the guide rail plate is provided with a guide clamping plate.

Description

A traction device for anti-static cloth production

Technical field

The utility model relates to the field of anti-static cloth traction devices, specifically a traction device for anti-static cloth production.

Background technique

The traction device for anti-static cloth production is used to pull and feed the threads in the production process of anti-static cloth. Anti-static cloth: made of polyester as the main body, special polyester filaments and high-performance permanent conductive fibers are woven through a special process. Inlaid weaving or inlaid conductive fiber in warp and weft directions. Used to make dust-proof clothing, anti-static clothing, etc., used in industries that are sensitive to static electricity and require high cleanliness, such as medical, pharmaceutical, food, precision instruments, aerospace, etc.;

The current traction device for anti-static fabric production uses a single wheel for single-filament line transportation, which makes it impossible to traction and control multiple threads at the same time. During the traction process, the position of the traction wheel is installed with bolts, making it impossible for the thread to self-stretch during the traction process. Control, flexibility is not enough, and the thread cannot be stretched and protected safely.

Utility model content

The purpose of this utility model is to provide a traction device for the production of anti-static cloth to solve the problem that the traction device for the production of anti-static cloth proposed in the above background technology uses a single-wheel monofilament line for transportation, making it impossible to control multiple wires at the same time, and the traction In the process, the position of the traction wheel is fixed with bolts, which makes it impossible to control the self-stretching of the wire during the traction process. The flexibility is not enough, and the wire cannot be stretched and protected safely.

In order to achieve the above purpose, the present utility model provides the following technical solution: a traction device for anti-static cloth production, including a lead wheel, a wire feeding wheel, a guide rail plate and a guide clamping plate. The two ends of the wire feeding wheel are respectively rotated through a rotating shaft. It is connected to the first baffle and the second baffle. There are three lead wheels between the first baffle and the second baffle through the connecting shaft. One side of the second baffle is provided with a guide card through the connecting rod. The guide card plate is connected with the guide rail plate.

In a further embodiment, the wire feeding wheel is provided with a plurality of limiting bars, and the plurality of limiting bars divide the wire feeding wheel into a plurality of wire feeding slots.

In a further embodiment, a first motor is provided on one side of the first baffle, and the output shaft of the first motor is connected to the wire feeding wheel.

In a further embodiment, limiting lugs are provided on one side of both ends of the guide rail plate, a transmission box is provided on the back side of the end of the guide rail plate, and a second motor is provided on one side of the transmission box.

In a further embodiment, the interior of the transmission box is provided with a driving gear and a driven gear that are geared to each other. The output shaft of the second motor is connected to the driving gear, and the driven gear is provided at the end of the screw.

In a further embodiment, a guide groove is provided in the middle of the inner side of the guide rail plate, the screw is provided in the inside of the guide groove, a clamping groove is provided in the middle of the bottom end of the guide clamping plate, and a clamping slot is arranged in the middle of the clamping slot. There are guide lugs, and the guide lugs are drivingly connected to the screw rod. Grooves are provided at both ends of the guide clamp plate, and the guide clamp plate is connected to the inner side of the guide rail plate through sliding inlays through the grooves.

Compared with the existing technology, the beneficial effects of this utility model are:

1. The utility model is provided with a wire feeding wheel, and the wire feeding wheel is provided with a plurality of limiting bars, and the plurality of limiting bars separate the wire feeding wheel into a plurality of wire troughs, and the first baffle and the third There are multiple pulleys between the two baffles through the connecting shaft. The multiple pulleys cooperate with multiple wire troughs, so that one round of multi-line traction control can be performed during the traction process, which is more convenient to use and has higher traction efficiency.

2. The utility model is provided with a guide rail plate, a guide groove is provided in the middle of the inner side of the guide rail plate, a screw is provided in the middle of the guide groove, and a guide clamping plate is provided on the guide rail plate, and the guide clamping plate can be driven by the screw rod and screw rod. Control, so that it can automatically drive the guide card plate to move laterally on the guide rail plate, and the guide card plate drives the wire feed wheel to move through the connecting rod, so that it can pull and stretch the wire during the traction process, increasing the versatility of traction .

Description of the drawings

Figure 1 is a schematic structural diagram of a traction device for anti-static cloth production according to the present invention;

Figure 2 is a side view of the guide rail plate of the present utility model;

Figure 3 is a front view of the guide card plate of the present utility model;

Figure 4 is a top view of the wire feeding wheel of the present utility model.

In the picture: 1. The first motor; 2. The first baffle; 3. The connecting shaft; 4. The lead wheel; 5. The wire feeding wheel; 6. The limit stopper; 7. The second baffle; 8. The limit Ear; 9. Guide rail plate; 10. Guide clamping plate; 11. Connecting rod; 12. Transmission box; 13. Second motor; 14. Card slot; 15. Guide ear; 16. Groove; 17. Guide groove; 18 , screw.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only part of the embodiments of the present utility model, not all implementations. example.

Please refer to Figures 1-4. An embodiment of the present invention is provided: a traction device for anti-static cloth production, including a wire pulley 4, a wire feeder wheel 5, a guide rail plate 9 and a guide clamping plate 10. The wire feeder wheel 5 Both ends are connected to the first baffle 2 and the second baffle 7 respectively through the rotating shaft. There are three lead pulleys 4 between the first baffle 2 and the second baffle 7 through the connecting shaft 3. The second baffle 7 One side is provided with a guide clamping plate 10 through a connecting rod 11, and the guide clamping plate 10 is connected to the guide rail plate 9.

The first baffle 2 and the second baffle 7 are used to install the wire feeding wheel 5 and the wire pulling wheel 4, and the guide clamping plate 10 moves on the guide rail plate 9 so that it can drive the wire feeding wheel 5 to move. 5. The silk thread can be rolled up and fed, and the thread pulling can be facilitated through the lead wheel 4.

Furthermore, the wire feeding wheel 5 is provided with a plurality of limiting bars 6, and the multiple limiting bars 6 divide the wire feeding wheel 5 into multiple wire feeding slots. The multiple limiting bars 6 can be divided into multiple wire feeding slots. A wire feeding slot facilitates the transportation of multiple wires.

Further, a first motor 1 is provided on one side of the first baffle 2. The output shaft of the first motor 1 is connected to the wire feeding wheel 5, and the first motor 1 drives the wire feeding wheel 5 to rotate.

Further, the guide rail plate 9 is provided with limiting ears 8 on one side of both ends, a transmission box 12 is provided on the back side of the end of the guide rail plate 9, and a second motor 13 is provided on one side of the transmission box 12. The second motor 13 passes through the transmission The box 12 drives the screw 18 to rotate.

Furthermore, a driving gear and a driven gear that are geared to each other are provided inside the transmission box 12 . The output shaft of the second motor 13 is connected to the driving gear, and the driven gear is provided at the end of the screw 18 .

Further, a guide groove 17 is provided in the middle of the inner side of the guide rail plate 9, the screw 18 is provided inside the guide groove 17, a clamping slot 14 is provided in the middle of the bottom end of the guide clamping plate 10, and a guide lug 15 is provided in the middle of the clamping slot 14, and The guide ear 15 is connected with the screw 18 in a screw drive. The two ends of the guide card 10 are provided with grooves 16, and the guide card 10 is connected to the inside of the guide rail plate 9 through the groove 16. This design facilitates the control of the guide card. The plate 10 moves on the guide plate 9 .

Working principle: When in use, the wire feeding wheel 5 is set between the first baffle 2 and the second baffle 7. The first motor 1 drives the wire feeding wheel 5 to rotate, and the wire feeding wheel 5 is driven by a plurality of limiting bars 6. The wheel 5 is divided into multiple wire troughs, and the wires are transported separately through the multiple wire troughs. At the same time, multiple wires are pulled in multiple lines through the lead wheel 4, and the wire feeding wheel 5 is connected to the guide clamping plate 10 through the connecting rod 11. The second motor 13 drives the screw 18 to rotate through the transmission gear in the transmission box 12. The screw 18 is driven by the guide lug 15 on the inside of the guide clamp 10, so that it controls the guide clamp 10 to move laterally on the guide groove 17, and the guide clamp The plate 10 drives the wire feeding wheel 5 to move through the connecting rod 11, so that it can control the stretching of the wire, and the limiting ear 8 can limit the movement of the guide clamping plate 10.

It is obvious to those skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and the present invention can be implemented in other specific forms without departing from the spirit or basic characteristics of the present invention. Therefore, from any point of view, the embodiments should be regarded as exemplary and non-restrictive. The scope of the present invention is defined by the appended claims rather than the above description, and it is therefore intended that all claims falling within the rights All changes within the meaning and scope of the required equivalent elements are included in the present invention. Any reference signs in the claims shall not be construed as limiting the claim in question.

Claims (6)

1. A traction device for anti-static cloth production, including a wire pulley (4), a wire feeder wheel (5), a guide rail plate (9) and a guide clamping plate (10), characterized in that: the wire feeder wheel (5) ) are connected to the first baffle (2) and the second baffle (7) respectively through rotating shafts, and the first baffle (2) and the second baffle (7) are connected by a connecting shaft (3) ) is provided with three lead pulleys (4), and one side of the second baffle (7) is provided with a guide clamping plate (10) through a connecting rod (11). The guide clamping plate (10) and the guide rail plate (9) )connect. 2. A traction device for anti-static cloth production according to claim 1, characterized in that: the wire feeding wheel (5) is provided with a plurality of limiting bars (6), and a plurality of limiting bars are provided. The strip (6) divides the wire feeding wheel (5) into multiple wire feeding slots. 3. A traction device for anti-static cloth production according to claim 1, characterized in that: a first motor (1) is provided on one side of the first baffle (2), and the first motor (1) The output shaft of 1) is connected to the wire feeding wheel (5). 4. A traction device for anti-static cloth production according to claim 1, characterized in that: limiting lugs (8) are provided on one side of both ends of the guide rail plate (9), and the guide rail plate (9) ) is provided with a transmission box (12) on the back side of its end, and a second motor (13) is provided on one side of the transmission box (12). 5. A traction device for anti-static cloth production according to claim 4, characterized in that: the transmission box (12) is provided with a driving gear and a driven gear with mutual gear transmission, and the second motor The output shaft of (13) is connected with the driving gear, and the driven gear is located at the end of the screw (18). 6. A traction device for anti-static cloth production according to claim 5, characterized in that: a guide groove (17) is provided in the inner middle of the guide rail plate (9), and the screw (18) is provided on the guide rail. Inside the slot (17), a slot (14) is provided in the middle of the bottom end of the guide clamping plate (10), and a guide ear (15) is provided in the middle of the slot (14), and the guide ear (15) It is connected with the screw (18) by screw drive. The two ends of the guide clamping plate (10) are provided with grooves (16), and the guide clamping plate (10) communicates with the inside of the guide rail plate (9) through the groove (16). Sliding inlay connection.