CN114918090B - Quantitative smearing device and method for flame retardant material for textile fabric - Google Patents

Abstract

The invention discloses a quantitative smearing device of flame-retardant materials for textile fabrics and a smearing method thereof, wherein the upper end of a supporting seat is provided with the textile fabrics, the upper end of the textile fabrics is in rolling connection with a roller, the two ends of the roller are fixedly connected with a connecting pin; the invention is also provided with the lifting mechanism and the material extruding structure, the rotating motor is started to drive the first gear to rotate so as to drive the lifting box to move downwards and the material extruding mechanism to link to realize the adhesion of the roller and the textile fabric and the coating, the effect of quantitative coating can be realized, the effect of uniform quantitative coating is achieved, the output of the motor is reduced, the waste of the cost is reduced, the practicability is increased, and the degree of automation is high.

Description

Quantitative smearing device and method for flame retardant material for textile fabric

Technical Field

The invention relates to the technical field of textile fabric manufacturing, in particular to a quantitative smearing device and a smearing method for a flame retardant material for textile fabric.

Background

With the development of textile industry, various fabrics are applied to different types of clothing, wherein one of the fabrics contains spandex, the spandex is an elastic fiber which has high elasticity and can be stretched by 6-7 times, but can quickly recover to an initial state along with the disappearance of tension, the elastic fiber of the spandex has high oxidation resistance, oil resistance and mildew resistance, and is good in detergent resistance, but because the burning point of the spandex is low, the spandex is easy to burn, the flame is blue during burning, the spandex is continuously melted and burned away from fire, special pungent odor is emitted, and ash after burning is soft fluffy black ash.

In order to ensure the non-inflammability of the cloth, a flame-retardant coating is coated on the surface of the cloth, but a common coating device cannot spread the coating, so that uneven coating causes uneven coating distribution to cause local natural phenomenon, thereby causing injury to people and reducing the safety coefficient; the effect of quantitative coating can not be realized, the effect of uniform quantitative coating is not achieved, a plurality of driving parts are used by a common coating device, the output of a motor is increased, the waste of cost is increased, the practicability is reduced, and the degree of automation is low.

Therefore, there is a need to design a quantitative coating device and a coating method for flame retardant materials for textile fabrics, which solve the problems.

Disclosure of Invention

The invention aims to provide a quantitative smearing device and a smearing method for a flame retardant material for textile fabric, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a device is paintd to fire-retardant material ration for textile fabric, includes the supporting seat, the upper end of supporting seat is equipped with the textile fabric, the upper end roll connection gyro wheel of textile fabric, the both ends fixed connection connecting pin of gyro wheel, the far away of connecting pin

The lifting box is fixedly connected with the outer side of the connecting pin in a sliding manner, the bearing is in sliding connection with the lifting groove, the lifting grooves are symmetrically distributed on two sides of the lifting box, the upper end of the bearing is fixedly connected with a first spring, the upper end of the first spring is fixedly connected with the lifting box, one end, far away from the roller, of the lifting box is fixedly connected with a transverse plate, a plurality of rectangular holes are formed in the transverse plate, rotating lifting lugs are respectively inserted in the rotating lifting lugs and the discharging holes, the rotating lifting lugs are hinged with the discharging holes through the rotating pins, one end, far away from the transverse plate, of the rotating lifting lugs is fixedly connected with a turning plate, the bottom end of the turning plate is fixedly connected with a second spring, one end, far away from the turning plate, of the second spring is fixedly connected with the transverse plate, two symmetrically distributed gear grooves are formed on two sides of the supporting seat, the gear grooves are meshed with a connecting translation mechanism, one end, far away from the supporting seat, of the translation mechanism is fixedly connected with a first L-shaped support column, rectangular holes are formed in the first L-shaped support column, the rectangular support column is internally provided with a lifting hole, the lifting mechanism is fixedly connected with one end, far away from the lifting box, and the lifting box is fixedly connected with the lifting box, and the lifting mechanism is fixedly connected with one end of the lifting box;

the translation mechanism comprises a rotating motor, wherein a backing plate is fixedly connected to the inside of the rotating motor, one end, far away from the rotating motor, of the backing plate is rotationally connected with a gear, a rotating motor shaft is arranged on the inner side of the rotating motor and is rotationally connected with the rotating motor, the inner side of the gear is meshed with a gear groove, one end, far away from the rotating motor, of the gear is fixedly connected with a connecting column, one end, far away from the gear, of the connecting column is fixedly connected with a rotary drum, a strut is inserted into the rotary drum and is rotationally connected with the rotary drum, one end of the strut is fixedly connected with a rectangular block, the other end of the strut is fixedly connected with a first L-shaped strut, one end, far away from the strut, of the rectangular block is fixedly connected with a sliding block, the outer side of the sliding block is in sliding connection with sliding grooves, and the sliding grooves are symmetrically distributed on two sides of a supporting seat;

the lifting mechanism comprises a rotating motor, a second L-shaped support column is fixedly connected inside the rotating motor, a rotating motor shaft is arranged inside the rotating motor, the rotating motor shaft is rotationally connected with a first L-shaped support column, one end, far away from the rotating motor, of the rotating motor shaft is fixedly connected with a first gear, the first gear is meshed with a rectangular groove, the rectangular grooves are symmetrically distributed on the second L-shaped support column, and one end, far away from the first L-shaped support column, of the second L-shaped support column is fixedly connected with a lifting box;

the extruding mechanism comprises a first rack, the lifting box is connected in a sliding mode, the lower end of the first rack is fixedly connected with a pushing plate, the pushing plate is connected in a sliding mode to the inside of the lifting box, a sealing plug is arranged at one end, close to the lifting box, of the first rack, the sealing plug is arranged at one end, close to the first rack, of the lifting box, a second gear is connected in a meshed mode, one end, far away from the first rack, of the second gear is connected with a third gear in a meshed mode, one end, far away from the second gear, of the third gear is connected with the second rack in a meshed mode, the lower end of the second rack is fixedly connected with the lifting box, two symmetrically-distributed side plates are arranged on two sides of the second gear and the third gear, a first rotating pin and a second rotating pin are inserted into the inside of the side plates and are connected in a rotating mode, and the side plates are hinged to the second gear and the third gear through the first rotating pin and the second gear respectively.

Preferably, a rack is arranged on the upper surface of the gear groove.

Preferably, the second gear has a smaller modulus than the third gear.

Preferably, the second spring has a degree of elasticity that is capable of supporting the weight of the paint.

Preferably, the lifting mechanism is linked with the extruding mechanism.

A quantitative smearing method of flame retardant material for textile fabric comprises the following steps:

the workman places the textile fabric on the supporting seat, and the textile fabric is to be put in the center department of supporting seat and the width of textile fabric is less than the gyro wheel.

The paint is delivered into the lifting box through a conduit.

The rotating motor is started to drive the roller to move downwards, so that the bottom of the roller is completely attached to the textile fabric, and the third gear is driven to rotate, so that the first rack pushes the push plate to move downwards, and the paint is pushed to be extruded from the discharge hole and falls onto the roller.

The rotary motor is started to drive the gear to roll in the gear groove, so that the roller rolls on the textile fabric, and the paint can be uniformly smeared on the textile fabric through the reciprocating motion of the translation mechanism.

The coated textile fabric can be transferred to the next working procedure, and the next textile fabric can be continuously coated, so that batch operation is realized.

Compared with the prior art, the invention has the beneficial effects that: compared with other inventions, the quantitative smearing device and the smearing method for the flame retardant material for the textile fabric have the advantages that the quantitative smearing device and the smearing method for the flame retardant material for the textile fabric are provided with the translation mechanism, and can start the rotating motor to drive the gear to rotate so that the idler wheel can do reciprocating motion on the textile fabric, can spread the coating, prevent the uneven coating distribution caused by uneven coating from causing local natural phenomenon, cause unnecessary injury to people and increase the safety coefficient; the invention is also provided with the lifting mechanism and the material extruding structure, the rotating motor is started to drive the first gear to rotate so as to drive the lifting box to move downwards and the material extruding mechanism to link to realize the adhesion of the roller and the textile fabric and the coating, the effect of quantitative coating can be realized, the effect of uniform quantitative coating is achieved, the output of the motor is reduced, the waste of the cost is reduced, the practicability is increased, and the degree of automation is high.

Drawings

FIG. 1 is a schematic diagram of the main structure of a quantitative flame retardant material smearing device for textile fabrics;

FIG. 2 is a top view of a device for quantitatively applying a flame retardant material for textile fabrics according to the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is an enlarged view of a portion of FIG. 1 at C;

FIG. 6 is a partial enlarged view at D of FIG. 3;

FIG. 7 is an enlarged view of a portion of FIG. 3 at E;

FIG. 8 is an enlarged view of a portion of FIG. 3 at F;

FIG. 9 is an enlarged view of a portion of FIG. 3 at G;

FIG. 10 is an enlarged view of a portion of FIG. 3 at H;

fig. 11 is a partial enlarged view at I of fig. 3.

In the figure: 1. the support base, 2, the textile fabric, 3, the first L-shaped pillar, 4, the rotating motor, 5, the second L-shaped pillar, 6, the lifting box, 7, the roller, 8, the first rack, 9, the side plate, 10, the second rack, 11, the guide pipe, 12, the rotary drum, 13, the connecting post, 14, the gear, 15, the gear groove, 16, the sliding groove, 17, the sliding block, 18, the rectangular block, 19, the pillar, 20, the backing plate, 21, the rotating motor shaft, 22, the rotating motor, 23, the sealing ring, 24, the push plate, 25, the rotating motor shaft, 26, the first gear, 27, the connecting pin, 28, the bearing, 29, the first spring, 30, the lifting groove, 31, the cross plate, 32, the second spring, 33, the rotating pin, 34, the turning plate, 35, the rotating lug, 36, the second gear, 37, the first rotating pin, 38, the third gear, 39, the second rotating pin, 40, the rectangular groove, 41, the discharge hole, 42 and the rectangular hole.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-11, the present invention provides a technical solution:

the utility model provides a device is paintd to fire-retardant material ration for textile fabric, including supporting seat 1, the upper end of supporting seat 1 is equipped with textile fabric 2, the upper end roll connection gyro wheel 7 of textile fabric 2, the both ends fixed connection connecting pin 27 of gyro wheel 7, the one end that keeps away from gyro wheel 7 of connecting pin 27 slides and rotates and connect lifting box 6, the outside fixed connection bearing 28 of connecting pin 27, bearing 28 sliding connection lifting groove 30, lifting groove 30 symmetric distribution is in the both sides of lifting box 6, the upper end fixed connection first spring 29 of bearing 28, the upper end fixed connection lifting box 6 of first spring 29, the one end fixed connection diaphragm 31 of lifting box 1 that keeps away from gyro wheel 7 is equipped with a plurality of all with the discharge port 41 of distribution in the diaphragm 31, the both ends inside of discharge port 41 all are equipped with rotation lug 35, rotation lug 35 and discharge port 41 are interior all interlude rotation pin 33, rotation lug 35 is connected through rotation pin 33 and discharge port 41 hinge, the one end fixed connection flap 34 that keeps away from diaphragm 31 of rotation lug 35, the bottom fixed connection second spring 32 of flap 34, the one end fixed connection of second spring 31 keeps away from flap 34, the one end fixed connection of diaphragm plate 31 of second spring 3 is equipped with the first end fixed connection mechanism of lifting box 6 of lifting mechanism, one end of lifting mechanism of lifting box 1 that is equipped with a rectangular-shaped jack 3, the end of lifting mechanism is equipped with a jack 3L 3, one end of lifting mechanism that is connected with lifting mechanism 3, one end of lifting mechanism 3 is equipped with jack 3 in a side of lifting mechanism of lifting jack 3, and one end of lifting mechanism is connected with jack 3, and 3;

the translation mechanism comprises a rotating motor 22, a backing plate 20 is fixedly connected inside the rotating motor 22, one end, far away from the rotating motor 22, of the backing plate 20 is rotationally connected with a gear 14, a rotating motor shaft 21 is arranged on the inner side of the rotating motor 22 and is rotationally connected, the inner side of the gear 14 is meshed with a gear groove 15, one end, far away from the rotating motor 22, of the gear 14 is fixedly connected with a connecting column 13, one end, far away from the gear 14, of the connecting column 13 is fixedly connected with a rotary drum 12, a strut 19 is inserted inside the rotary drum 12 and is rotationally connected, one end, far away from the strut 19, of the strut 19 is fixedly connected with a rectangular block 18, the other end is fixedly connected with a first L-shaped strut 3, one end, far away from the strut 19, of the rectangular block 18 is fixedly connected with a sliding block 17, the outer side of the sliding block 17 is in sliding connection with a sliding groove 16, the sliding groove 16 is symmetrically distributed on two sides of a supporting seat 1, and can be started to rotate the rotating motor 22 to drive the gear 14 to reciprocate on a textile cloth 2, coating can be flattened, partial natural phenomenon caused by uneven coating can be prevented from being caused by uneven coating distribution, and a local natural phenomenon caused by uneven coating can be caused, and the cause unnecessary injury to be increased;

the lifting mechanism comprises a rotating motor 4, a second L-shaped support column 3 is fixedly connected inside the rotating motor 4, a rotating motor shaft 25 is arranged inside the rotating motor 4, the rotating motor shaft 25 is rotationally connected with a first L-shaped support column 3, one end, far away from the rotating motor 4, of the rotating motor shaft 25 is fixedly connected with a first gear 26, the first gear 26 is meshed with a rectangular groove 40, the rectangular groove 40 is symmetrically distributed on the second L-shaped support column 5, one end, far away from the first L-shaped support column 3, of the second L-shaped support column 5 is fixedly connected with a lifting box 6, the material extruding mechanism comprises a first rack 8, the first rack 8 is in sliding connection with the lifting box 6, the lower end of the first rack 8 is fixedly connected with a push plate 24, the push plate 24 is in sliding connection with the inside of the lifting box 6, one end, close to the lifting box 6, of the first rack 8 is provided with a sealing plug 23, the sealing plug 23 is arranged in one end, close to the lifting box 6, close to the first rack 8, one end of the first rack 8 is meshed with the second gear 36, one end of the second gear 36 far away from the first rack 8 is meshed with the third gear 38, one end of the third gear 38 far away from the second gear 36 is meshed with the second rack 10, the lower end of the second rack 10 is fixedly connected with the lifting box 6, two symmetrically distributed side plates 9 are arranged on two sides of the second gear 36 and the third gear 38, a first rotating pin 37 and a second rotating pin 39 are respectively penetrated and connected in the side plates 9, the second gear 36 and the third gear 38 in a penetrating manner, the side plates 9 are respectively hinged with the second gear 36 and the third gear 38 through the first rotating pin 37 and the second rotating pin 39, the lifting box 6 can be driven to move downwards by starting the rotating motor 4 to be linked with the material extruding mechanism to realize the adhesion and the coating of the roller 7 and the textile material 2, the effect of quantitative coating can be realized, the effect of evenly ration is paintd, still reduces motor output moreover, reduces the waste of cost, increases the practicality, and degree of automation is high.

The upper surface of the gear groove 15 is provided with a rack which can be meshed with the gear 14 to complete the function of the translation mechanism.

The second gear 36 has a smaller modulus than the third gear 38, which can make the push plate 24 lower faster than the lifting box 6, and is beneficial to extrusion.

The second spring 32 has a degree of elasticity to support the weight of the paint and to prevent the paint from being scattered when the paint is stored.

The lifting mechanism is linked with the extruding mechanism, so that the output of a motor is reduced, the waste of cost is reduced, the practicability is improved, and the automation degree is high.

A quantitative smearing method of flame retardant material for textile fabric comprises the following steps:

the worker places the textile 2 on the support base 1, the textile 2 is to be placed in the center of the support base 1 and the width of the textile 2 is to be smaller than the roller 7.

The paint is fed into the lifting box 6 via a conduit 11.

Turning on the rotary motor 4 to drive the roller 7 to move downwards so that the bottom of the roller 7 is completely abutted against the textile fabric 2 and drives the third gear 38 to rotate, so that the first rack 8 pushes the push plate 24 to move downwards to push the paint to be extruded from the discharge hole 41 and fall onto the roller 7, the rotary motor 4 is rotated to drive the rotary motor shaft 25 to rotate, the rotary motor shaft 25 is rotated to drive the first gear 26 to rotate, the first gear 26 is rotated to drive the first L-shaped support 3 to move downwards, the first L-shaped support 3 is moved downwards to drive the lifting box 6 to move downwards, the lifting box 6 is moved downwards so that the roller 7 is abutted against the textile fabric 2 and drives the second rack 10 to move downwards, the second rack 10 is moved downwards to drive the third gear 38 to rotate reversely, the third gear 38 is rotated reversely to drive the second gear 36 to rotate positively, the first rack 8 is moved downwards to drive the push plate 24 to move downwards, and the second gear 36 is moved downwards to extrude the paint, and the paint falls onto the roller 7.

The rotary motor 22 is started to drive the gear 14 to roll in the gear groove 15, so that the roller 7 rolls on the textile fabric 2, the paint can be uniformly smeared on the textile fabric 2 through the reciprocating motion of the translation mechanism, the rotary motor 22 rotates to drive the rotary motor shaft 21 to rotate, the rotary motor shaft 21 rotates to drive the gear 14 to rotate, the gear 14 rotates to drive the connecting column 13 to move, the connecting column 13 moves to drive the rotary drum 12 to move, the rotary drum 12 moves to drive the support 19 to move, the support 19 moves to drive the first L-shaped support 3 to reciprocate, and the first L-shaped support 3 reciprocates to drive the roller 7 to reciprocate, so that the paint is paved.

The coated textile fabric 2 can be transferred to the next process and the next textile fabric 2 can be continuously coated, so that batch operation is realized.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a device is paintd to fire-retardant material ration for textile fabric, includes supporting seat (1), its characterized in that: the upper end of supporting seat (1) is equipped with textile fabric (2), the upper end roll connection gyro wheel (7) of textile fabric (2), the both ends fixed connection connecting pin (27) of gyro wheel (7), the one end that keeps away from gyro wheel (7) of connecting pin (27) slides and rotates and connect lifting box (6), the outside fixed connection bearing (28) of connecting pin (27), bearing (28) sliding connection lifting groove (30), lifting groove (30) symmetric distribution is in the both sides of lifting box (6), the upper end fixed connection first spring (29) of bearing (28), the one end fixed connection lifting box (6) of first spring (29), the one end fixed connection diaphragm (31) of keeping away from gyro wheel (7) of lifting box (6), be equipped with a plurality of all with the discharge opening (41) of distribution in diaphragm (31), the both ends inside of discharge opening (41) all are equipped with rotation (35), rotation (35) and discharge opening (41) are interior rotation round pin (35) and rotation round pin (33) are all equipped with rotation lug (33), rotation lug (33) are kept away from through rotation hinge pin (33) and rotation lug (33) and one end fixed connection diaphragm (31), the lifting device comprises a turning plate (34), a second spring (32) is fixedly connected to the bottom end of the turning plate (34), a transverse plate (31) is fixedly connected to one end, far away from the turning plate (34), of the second spring (32), two symmetrically distributed gear grooves (15) are formed in two sides of a supporting seat (1), the gear grooves (15) are meshed with a translation mechanism, a first L-shaped support column (3) is fixedly connected to one end, far away from the supporting seat (1), of the translation mechanism, a rectangular hole (42) is formed in the first L-shaped support column (3), a lifting mechanism is connected to one end, far away from the first L-shaped support column (3), of the lifting mechanism in a sliding mode, a lifting box (6) is fixedly connected to the other end of the extrusion mechanism, and a guide pipe (11) is arranged at one end of the lifting box (6);

the translation mechanism comprises a rotating motor (22), wherein the inside of the rotating motor (22) is fixedly connected with a backing plate (20), one end, far away from the rotating motor (22), of the backing plate (20) is rotationally connected with a gear (14), a rotating motor shaft (21) is arranged on the inner side of the rotating motor (22) and is rotationally connected with the rotating motor, the inner side of the gear (14) is meshed with a connecting gear groove (15), one end, far away from the rotating motor (22), of the gear (14) is fixedly connected with a connecting column (13), one end, far away from the gear (14), of the connecting column (13) is fixedly connected with a rotary drum (12), a strut (19) is inserted in the inside of the rotary drum (12) and is rotationally connected with the other end of the strut (19) and is fixedly connected with a first L-shaped strut (3), one end, far away from the strut (19), of the rectangular strut (18) is fixedly connected with a sliding block (17), the outer side of the sliding block (17) is slidingly connected with sliding grooves (16), and the sliding grooves (16) are symmetrically distributed on two sides of a supporting seat (1);

the lifting mechanism comprises a rotating motor (4), a first L-shaped support column (3) is fixedly connected inside the rotating motor (4), a rotating motor shaft (25) is arranged inside the rotating motor (4), the rotating motor shaft (25) is rotationally connected with the first L-shaped support column (3), one end, far away from the rotating motor (4), of the rotating motor shaft (25) is fixedly connected with a first gear (26), the first gear (26) is meshed with a rectangular groove (40), the rectangular groove (40) is symmetrically distributed on a second L-shaped support column (5), and one end, far away from the first L-shaped support column (3), of the second L-shaped support column (5) is fixedly connected with a lifting box (6);

the extruding mechanism comprises a first rack (8), the first rack (8) is in sliding connection with a lifting box (6), the lower end of the first rack (8) is fixedly connected with a push plate (24), the push plate (24) is in sliding connection with the inside of the lifting box (6), one end, close to the lifting box (6), of the first rack (8) is provided with a sealing plug (23), the sealing plug (23) is arranged in one end, close to the first rack (8), of the lifting box (6), one end of the first rack (8) is in meshed connection with a second gear (36), one end, far away from the first rack (8), of the second gear (36) is in meshed connection with a third gear (38), one end, far away from the second gear (36), of the third gear (38) is in meshed connection with a second rack (10), the lower end of the second rack (10) is fixedly connected with the lifting box (6), two symmetrically distributed side plates (9) are arranged on two sides of the second gear (36) and the third gear (38), the side plates (9) are in threaded connection with a first pin (37) and a second pin (37) which rotates, the side plate (9) is hinged with the second gear (36) and the third gear (38) through a first rotating pin (37) and a second rotating pin (39) respectively.

2. A device for quantitatively applying a flame retardant material to a textile fabric according to claim 1, wherein: the upper surface of the gear groove (15) is provided with a rack.

3. A device for quantitatively applying a flame retardant material to a textile fabric according to claim 1, wherein: the second gear (36) has a smaller modulus than the third gear (38).

4. A device for quantitatively applying a flame retardant material to a textile fabric according to claim 1, wherein: the second spring (32) has a degree of elasticity that supports the weight of the paint.

5. A device for quantitatively applying a flame retardant material to a textile fabric according to claim 1, wherein: the lifting mechanism is linked with the extruding mechanism.

6. A method of applying a flame retardant material dosing device for textile fabrics according to any one of claims 1-5, characterized in that: the method comprises the following steps:

a worker places a textile fabric (2) on the supporting seat (1), the textile fabric (2) is to be placed at the center of the supporting seat (1), and the width of the textile fabric (2) is smaller than that of the roller (7);

the paint is conveyed into the lifting box (6) through a conduit (11);

the rotating motor (4) is started to drive the roller (7) to move downwards, so that the bottom of the roller (7) is completely abutted against the textile fabric (2) and drives the third gear (38) to rotate, and the first rack (8) pushes the push plate (24) to move downwards so as to push the paint to be extruded from the discharge hole (41) and fall onto the roller (7);

the rotating motor (22) is started to drive the gear (14) to roll in the gear groove (15), so that the roller (7) rolls on the textile fabric (2), and the coating can be uniformly smeared on the textile fabric (2) through the reciprocating motion of the translation mechanism;

the coated textile fabric (2) can be transferred to the next working procedure, and the next textile fabric (2) can be continuously coated, so that batch operation is realized.