CN222613747U - Nonwoven fabric flattening device - Google Patents

Abstract

The utility model belongs to the technical field of non-woven fabric production, and particularly relates to a non-woven fabric flattening device which comprises a support frame, wherein a driving flattening roller and a driven flattening roller are arranged in the middle of the support frame, the driven flattening roller is in rotary connection with the support frame, a motor is arranged on the side wall of the support frame, the output end of the motor is fixedly connected with the driving flattening roller, first support seats are arranged on the side wall of the support frame, the first support seats are symmetrically arranged on two sides of the support frame, a rotating shaft is connected between the first support seats, the driven flattening roller is in rotary connection with the middle of the rotating shaft, non-woven fabric raw materials can be flattened through the support frame, the driving flattening roller, the driven flattening roller and the motor, and the distance between the driving flattening roller and the driven flattening roller can be adjusted through the first support seat, the second support seat and a bidirectional threaded rod, so that the device can adapt to production requirements of non-woven fabrics with different thicknesses, and the application range of the device is further improved.

Description

Non-woven fabrics flattening device

Technical Field

The utility model belongs to the technical field of non-woven fabric production, and particularly relates to a non-woven fabric flattening device.

Background

The non-woven fabric, also called as non-woven fabric, is a fabric which does not need to undergo the process of spinning and weaving, usually, short fibers or filaments are formed into a net structure through random or directional arrangement, and then are manufactured into the fabric through the processes of reinforcement and the like, and the production process flow and the production period of the non-woven fabric are relatively short, so that the cost of the non-woven fabric is relatively low, the non-woven fabric is very wide in application, including surgical gowns, protective clothing, masks, diapers and the like in the medical field, home decorations such as bedspreads, tablecloths and the like, clothing accessories such as adhesive liners, sizing cottons and the like, cement packaging bags in the industrial aspect, other industrial materials and the like.

In the prior art, during non-woven fabrics production and processing, carry out humidification heating with the non-woven fabrics earlier for the non-woven fabrics has certain plasticity, and reuse flattening device evenly flattens the non-woven fabrics, in long-time use observation, discovers that flattening device of present non-woven fabrics is inconvenient for adjusting the interval of flattening roller, can't adapt to the production demand of different thickness non-woven fabrics.

To this end, the utility model provides a nonwoven fabric flattening device.

Disclosure of utility model

In order to overcome the defects in the prior art and solve at least one problem in the background art, the non-woven fabric flattening device is provided.

The non-woven fabric flattening device comprises a support frame, a driving flattening roller and a driven flattening roller are arranged in the middle of the support frame, the driven flattening roller is in threaded connection with the support frame, a motor is mounted on the side wall of the support frame, the output end of the motor is fixedly connected with the driving flattening roller, first support seats are arranged on the side wall of the support frame, the first support seats are symmetrically arranged on two sides of the support frame, a rotating shaft is connected between the first support seats, the driven flattening roller is in rotary connection with the middle of the rotating shaft, two second support seats are symmetrically hinged to the bottom of the first support seat, the bottom of the second support seat is hinged to the driving flattening roller, a bidirectional threaded rod is in threaded connection with the middle of the second support seat, non-woven fabric raw materials can be flattened through the support frame, the driving flattening roller, the driven flattening roller and the motor, the distance between the driving flattening roller and the driven flattening roller can be adjusted through the first support seat, the second support seat and the bidirectional threaded rod, and the non-woven fabric raw materials can be further lifted, and the non-woven fabric flattening device can meet different requirements.

The method comprises the steps of arranging a third support seat and a support shaft on the side wall of a support frame, limiting and supporting the process when a bidirectional threaded rod drives the first support seat to move up and down along the support frame, enabling the first support seat to move up and down more stably, and further improving the stability of a worker in adjusting the distance between a driving flattening roller and a driven flattening roller.

The step can heat the driving flattening roller and the driven flattening roller when the driving flattening roller and the driven flattening roller flatten the non-woven fabric raw materials, so that the plasticity of the non-woven fabric raw materials is maintained, and the flattening effect of the driving flattening roller and the driven flattening roller on the non-woven fabric raw materials is improved.

The method comprises the steps of providing a driving flattening roller, a driven flattening roller, a heating wire, a plurality of air holes, and a pressing plate, wherein the air holes are formed in the middle of the driving flattening roller and the middle of the driven flattening roller, the air holes are uniformly distributed in the middle of the driving flattening roller and the middle of the driven flattening roller, and the step can increase the contact area between hot air in the driving flattening roller and the driven flattening roller and non-woven fabric raw materials through the air holes, so that the heating effect of the heating wire on the non-woven fabric raw materials is improved, the plasticity of the non-woven fabric raw materials is further maintained, and the pressing effect of the driving flattening roller and the driven flattening roller on the non-woven fabric raw materials is further improved.

The air inlet grooves and the fan blades are arranged at the two ends of the driving flattening roller and the driven flattening roller, the fan blades are fixedly connected inside the driving flattening roller and the driven flattening roller, the fan blades are distributed at the two ends of the inner side walls of the driving flattening roller and the driven flattening roller in an annular and uniform mode, and when the driving flattening roller and the driven flattening roller rotate, external air can be pumped in through the air inlet grooves and the fan blades, and then heated by the heating wires, the air is sprayed out from the air holes to the non-woven fabric raw materials, the heating effect of the heating wires on the non-woven fabric raw materials is further improved, the plasticity of the non-woven fabric raw materials is further maintained, and the flattening effect of the driving flattening roller and the driven flattening roller on the non-woven fabric raw materials is further improved.

The rolling device comprises a rotary shaft, a driven flattening roller, a plurality of rolling balls, a rolling groove, a plurality of rolling balls, a plurality of rolling grooves, a plurality of rolling balls, a plurality of driving rolling balls, a plurality of rolling grooves and a plurality of rolling balls, wherein the rolling grooves are formed between the rotary shaft and the driven flattening roller, the rolling balls are uniformly distributed in the middle of the rotary groove, and the rolling balls are arranged in the rolling grooves.

The beneficial effects of the utility model are as follows:

1. According to the non-woven fabric flattening device, the supporting frame, the driving flattening roller, the driven flattening roller and the motor are arranged, so that non-woven fabric raw materials can be flattened, the first supporting seat, the second supporting seat and the bidirectional threaded rod are arranged, the distance between the driving flattening roller and the driven flattening roller can be adjusted, the device can be further adapted to the production requirements of non-woven fabrics with different thicknesses, and the application range of the device is further improved.

2. According to the non-woven fabric flattening device, the third supporting seat and the supporting shaft are arranged, so that the process can be limited and supported when the bidirectional threaded rod drives the first supporting seat to move up and down along the supporting frame, the first supporting seat can move up and down more stably, and the stability of a worker in adjusting the distance between the driving flattening roller and the driven flattening roller is further improved.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the structure of a driven flattening roll of the present utility model;

FIG. 4 is a schematic view of the structure of the driving flattening roller of the present utility model;

FIG. 5 is a schematic view of the mating structure of the support base and the bi-directional threaded rod of the present utility model;

Legend description:

1. The device comprises a supporting frame, a driving flattening roller, a driven flattening roller, a motor, a 14, a rotating shaft, a 15, a first supporting seat, a 16, a second supporting seat, a 17, a bidirectional threaded rod, a 2, a third supporting seat, a 21, a supporting shaft, a 3, a heating wire, a 4, an air hole, a 5, an air inlet groove, a 51, a fan blade, a 6, a rotating groove, a 61 and a ball.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Specific examples are given below.

As shown in fig. 1 to 5, a nonwoven fabric flattening device according to an embodiment of the present utility model includes a support frame 1; the middle part of the support frame 1 is provided with a driving flattening roller 11 and a driven flattening roller 12; the driven flattening roller 12 is rotationally connected with the support frame 1; the device comprises a support frame 1, a motor 13, a first support seat 15, a pair of first support seats 15, a rotating shaft 14, a driven flat roller 12, two second support seats 16, a two-way threaded rod 17, a driving flat roller 11, a driven flat roller 12, a driving flat roller 11, a two-way threaded rod 17, a driving flat roller 11, a driven flat roller 12, a non-woven fabric raw material to be flattened, a driving flat roller 11, a non-woven fabric raw material, a driven flat roller 11, a driving flat roller 11, a driven flat roller 12, a driving flat roller 11, a non-woven fabric raw material, a driving flat roller 11, a driven flat roller 12, a driving flat roller 11, a driving flat roller 17, a two-way threaded rod 17, a step of adjusting the distance between the driving flat roller 11 and the driven flat roller 11, and a step of adjusting the distance between the two-way threaded rod 17 is carried out by a worker, and the two-way threaded rod 17 is carried out by adjusting the distance between the driving flat roller 11 and the two-way threaded rod 11 when the two-way threaded rod is needed to adjust the distance between the driving flat roller and the non-woven fabric raw material and the two-woven fabric raw material is adjusted by the two-way Driven flattening roller 12 and motor 13 can flatten the non-woven fabrics raw materials, through being equipped with first supporting seat 15, second supporting seat 16 and two-way threaded rod 17, can adjust the interval of drive flattening roller 11 and driven flattening roller 12, and then can make this device adapt to the production demand of different thickness non-woven fabrics, and then promotes this device's application scope.

Further, as shown in fig. 1 to 2, a third supporting seat 2 is fixedly connected to the side wall of the supporting frame 1, the third supporting seats 2 are symmetrically arranged on two sides of the supporting frame 1, the third supporting seat 2 is arranged at a position close to the top of the supporting frame 1, a supporting shaft 21 is arranged between the third supporting seat 2 and the supporting frame 1, one end of the supporting shaft 21 is fixedly connected with the bottom of the third supporting seat 2, the other end of the supporting shaft is fixedly connected with the bottom of the supporting frame 1, the first supporting seat 15 slides along the third supporting seat 2, and the third supporting seat 2 and the supporting shaft 21 are arranged, so that the process can be limited and supported when the bidirectional threaded rod 17 drives the first supporting seat 15 to move up and down along the supporting frame 1, the first supporting seat 15 can move up and down more stably, and the stability of a worker in the process of adjusting the distance between the driving flattening roller 11 and the driven flattening roller 12 is improved.

Further, as shown in fig. 2, the driving flattening roller 11 and the driven flattening roller 12 are both provided with the heating wires 3, and in this step, when the driving flattening roller 11 and the driven flattening roller 12 flatten the non-woven fabric raw material, the driving flattening roller 11 and the driven flattening roller 12 can be heated, so that the plasticity of the non-woven fabric raw material is maintained, and further, the flattening effect of the driving flattening roller 11 and the driven flattening roller 12 on the non-woven fabric raw material is improved.

Further, as shown in fig. 1 to 4, the middle parts of the driving flattening roller 11 and the driven flattening roller 12 are provided with a plurality of ventilation holes 4, the ventilation holes 4 are uniformly distributed in the middle parts of the driving flattening roller 11 and the driven flattening roller 12, and the contact area between hot air inside the driving flattening roller 11 and the driven flattening roller 12 and the non-woven fabric raw material can be increased by arranging the ventilation holes 4, so that the heating effect of the heating wire 3 on the non-woven fabric raw material is improved, the plasticity of the non-woven fabric raw material is further maintained, and the flattening effect of the driving flattening roller 11 and the driven flattening roller 12 on the non-woven fabric raw material is further improved.

Further, as shown in fig. 2 to 4, air inlet grooves 5 are formed at two ends of the driving flattening roller 11 and the driven flattening roller 12, fan blades 51 are fixedly connected inside the driving flattening roller 11 and the driven flattening roller 12, the fan blades 51 are in a plurality of annular shapes and are uniformly distributed at two ends of the inner side walls of the driving flattening roller 11 and the driven flattening roller 12, and through the arrangement of the air inlet grooves 5 and the fan blades 51, external air can be pumped in when the driving flattening roller 11 and the driven flattening roller 12 rotate, and then heated by the heating wires 3, and then the heated air is sprayed out from the air holes 4 to the non-woven fabric raw material, so that the heating effect of the heating wires 3 on the non-woven fabric raw material is further improved, the plasticity of the non-woven fabric raw material is further maintained, and the flattening effect of the driving flattening roller 11 and the driven flattening roller 12 on the non-woven fabric raw material is further improved.

Further, as shown in fig. 3, a rotating groove 6 is formed between the rotating shaft 14 and the driven flattening roller 12, balls 61 are arranged in the middle of the rotating groove 6, a plurality of balls 61 are uniformly distributed in the middle of the rotating groove 6, and the step can change the sliding contact between the rotating shaft 14 and the driven flattening roller 12 into the rolling contact with the balls 61 by arranging the rotating groove 6 and the balls 61, so that the friction force when the rotating shaft 14 is contacted with the driven flattening roller 12 is reduced, the abrasion when the rotating shaft 14 is contacted with the driven flattening roller 12 is reduced, the service life of the device is prolonged, the driven flattening roller 12 rotates along the rotating shaft 14 more stably, and the flattening effect of the driving flattening roller 11 and the driven flattening roller 12 on non-woven fabric raw materials is improved.

The working principle is that a worker guides non-woven fabric raw materials to be flattened between the driving flattening roller 11 and the driven flattening roller 12 from one end of the driving flattening roller 11 and one end of the driven flattening roller 12, at the moment, the worker starts the motor 13 to drive the driving flattening roller 11, at the moment, the driving flattening roller 11 pushes the non-woven fabric raw materials to move between the driving flattening roller 11 and the driven flattening roller 12, at the moment, the driving flattening roller 11 and the driven flattening roller 12 flatten the non-woven fabric raw materials, when the non-woven fabric raw materials need to adjust the distance between the driving flattening roller 11 and the driven flattening roller 12, the bidirectional threaded rod 17 is rotated, the distance between the second supporting seat 16 is adjusted, the first supporting seat 15 moves up and down along the supporting frame 1, and the distance between the driving flattening roller 11 and the driven flattening roller 12 is adjusted.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A non-woven fabric flattening device comprises a support frame (1), and is characterized in that a driving flattening roller (11) and a driven flattening roller (12) are arranged in the middle of the support frame (1), the driven flattening roller (12) is rotationally connected with the support frame (1), a motor (13) is mounted on the side wall of the support frame (1), the output end of the motor (13) is fixedly connected with the driving flattening roller (11), first support seats (15) are arranged on the side wall of the support frame (1), the first support seats (15) are symmetrically arranged on two sides of the support frame (1), a rotating shaft (14) is connected between the first support seats (15), the driven flattening roller (12) is rotationally connected in the middle of the rotating shaft (14), two second support seats (16) are symmetrically hinged to the bottom of the first support seats (15), the bottoms of the second support seats (16) are hinged to the driving flattening roller (11), and threaded rods (17) are in threaded connection with the middle of the second support seats (16).

2. The non-woven fabric flattening device is characterized in that a third supporting seat (2) is fixedly connected to the side wall of the supporting frame (1), the third supporting seats (2) are symmetrically arranged on two sides of the supporting frame (1), the third supporting seat (2) is arranged at a position close to the top of the supporting frame (1), a supporting shaft (21) is arranged between the third supporting seat (2) and the supporting frame (1), one end of the supporting shaft (21) is fixedly connected with the bottom of the third supporting seat (2), the other end of the supporting shaft is fixedly connected with the bottom of the supporting frame (1), and the first supporting seat (15) slides along the third supporting seat (2).

3. The non-woven fabric flattening device according to claim 2, wherein heating wires (3) are arranged inside the driving flattening roller (11) and the driven flattening roller (12).

4. The non-woven fabric flattening device according to claim 3, wherein the middle parts of the driving flattening roller (11) and the driven flattening roller (12) are provided with a plurality of ventilation holes (4), and the ventilation holes (4) are uniformly distributed in the middle parts of the driving flattening roller (11) and the driven flattening roller (12).

5. The non-woven fabric flattening device according to claim 4 is characterized in that air inlet grooves (5) are formed in two ends of the driving flattening roller (11) and the driven flattening roller (12), fan blades (51) are fixedly connected inside the driving flattening roller (11) and the driven flattening roller (12), and the fan blades (51) are distributed at two ends of inner side walls of the driving flattening roller (11) and the driven flattening roller (12) in an annular and uniform mode.

6. The non-woven fabric flattening device according to claim 5 is characterized in that a rotating groove (6) is formed between the rotating shaft (14) and the driven flattening roller (12), balls (61) are arranged in the middle of the rotating groove (6), and the balls (61) are distributed in the middle of the rotating groove (6) uniformly.