CN220048741U - Non-woven fabric coating machine - Google Patents

Abstract

The utility model discloses a non-woven fabric coating machine, and relates to the technical field of coating machines. The utility model comprises the following steps: the bearing frame is provided with two storage cavities for storing glue; the gluing mechanism is arranged on the bearing frame and comprises two gluing rollers rotatably arranged on the bearing frame, the non-woven fabric passes through the two gluing rollers, and a driving part for driving the gluing rollers to rotate is arranged on the bearing frame; the glue conveying mechanism comprises two glue spreading brushes arranged on the bearing frame, the two glue spreading brush bodies are hollow and communicated with glue conveying pipes, the two glue conveying pipes are respectively communicated with the two storage cavities, and the glue conveying mechanism is provided with an extrusion part. Compared with the prior art, the utility model has the advantages that the two surfaces of the non-woven fabric are glued by the two glue applying rollers, and the surfaces of the glue applying rollers are glued by matching with the glue applying brush, so that the continuous gluing of the two surfaces of the non-woven fabric is realized, the coating efficiency is improved, and the practicability is improved.

Description

Non-woven fabric coating machine

Technical Field

The utility model relates to the technical field of coating machines, in particular to a non-woven fabric coating machine.

Background

As a new generation of environment-friendly material, the non-woven fabric has the advantages of good strength, ventilation, water resistance, environmental protection, flexibility, no toxicity, no smell, low price and the like, so that the non-woven fabric is more and more favored by people, and printing coating treatment is required to be carried out on the non-woven fabric in the manufacturing process of a finished product of the non-woven fabric, thereby improving the attractiveness of the non-woven fabric.

When the existing non-woven fabric coating machine is used for coating non-woven fabrics, single-sided coating is generally realized through a compression roller, so that the coating effects on the two sides of the non-woven fabrics are inconsistent, and the other side of the non-woven fabrics is required to be coated again after the non-woven fabrics are coated sometimes, so that the efficiency is low.

Disclosure of Invention

The utility model aims at: in order to solve the problems in the prior art, the utility model provides a non-woven fabric coating machine.

The utility model adopts the following technical scheme for realizing the purposes:

a nonwoven fabric coating machine comprising:

the bearing frame is provided with two storage cavities for storing glue;

the gluing mechanism is arranged on the bearing frame and comprises two gluing rollers rotatably arranged on the bearing frame, the non-woven fabric passes through the two gluing rollers, and a driving part for driving the gluing rollers to rotate is arranged on the bearing frame;

the glue conveying mechanism comprises two glue spreading brushes arranged on the bearing frame, wherein the two glue spreading brush bodies are hollow and communicated with glue conveying pipes, the two glue conveying pipes are respectively communicated with the two storage cavities, and an extrusion part is constructed on the glue conveying mechanism and used for extruding and storing glue in the cavities.

Further, the sliding blocks are rotatably arranged at two ends of the rubberizing roller, the sliding blocks are slidably arranged on the bearing frame, a gear motor is arranged on the sliding blocks at two same sides, an output shaft of the gear motor is connected with the rubberizing roller, a driving assembly for driving the sliding blocks to move is arranged on the bearing frame, the glue spreading brush is rotatably arranged on the bearing frame, and a spring telescopic rod is arranged between the glue spreading brush and the bearing frame.

Further, the driving assembly comprises a forward and reverse screw rod which is horizontally and rotatably installed on the bearing frame, and the other two same sides of the sliding block are symmetrically sleeved on the forward and reverse screw rod through threads.

Further, the extruding part comprises two piston plates which are slidably arranged in the storage cavity, the piston plates are far away from the communication part corresponding to the rubber conveying pipe and the storage cavity, and the adjusting piece for driving the piston plates to move is arranged on the bearing frame.

Further, the adjusting piece comprises a connecting plate connected with the bottoms of the two piston plates, two posts are arranged on the connecting plate in a part outside and symmetrically constructed, a driving frame is vertically and rotatably arranged on the bearing frame, movable grooves are symmetrically formed in the driving frame, the two posts are respectively and slidably tangent to the two movable grooves, and a transmission assembly for driving the driving frame to rotate is arranged on the bearing frame.

Further, the transmission assembly comprises an adjusting screw rod which is horizontally and rotatably arranged on the bearing frame, a threaded cylinder is sleeved on the adjusting screw rod in a threaded mode, and a linkage rod is hinged between the threaded cylinder and the driving frame.

Further, a glue inlet funnel communicated with the storage cavity is arranged on the bearing frame, the glue inlet funnel is triangular, the top of the glue inlet funnel is provided with an opening, and a plugging plate for blocking the opening of the glue inlet funnel is arranged at the top of the glue inlet funnel through a bolt.

Further, a through groove for the textile cloth to pass through is formed in the driving frame, a guide roller is arranged on the bearing frame and located below the driving frame, two driving rollers are rotatably arranged on the bearing frame, and the textile cloth passes through the two driving rollers after passing through the guide roller and is horizontally conveyed.

The beneficial effects of the utility model are as follows:

compared with the prior art, the utility model has the advantages that the two surfaces of the non-woven fabric are glued by the two glue applying rollers, and the surfaces of the glue applying rollers are glued by matching with the glue applying brush, so that the continuous gluing of the two surfaces of the non-woven fabric is realized, the coating efficiency is improved, and the practicability is improved.

Drawings

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

FIG. 2 is a partial perspective cross-sectional view of FIG. 1 in accordance with the present utility model;

FIG. 3 is a further partial perspective cross-sectional view of FIG. 1 in accordance with the present utility model;

FIG. 4 is an enlarged view of the structure of FIG. 2A in accordance with the present utility model;

reference numerals: 1. a carrier; 2. a storage cavity; 3. a sizing mechanism; 301. a glue applying roller; 302. a sliding block; 303. a drive assembly; 3031. a positive and negative screw; 4. a glue conveying mechanism; 401. a glue spreading brush; 402. a rubber conveying pipe; 403. a piston plate; 4031. an adjusting member; 40311. a connecting plate; 40312. a post; 40313. a drive rack; 40314. a movable groove; 5. a transmission assembly; 501. adjusting a screw; 502. a thread cylinder; 503. a linkage rod; 6. a glue feeding funnel; 7. a plugging plate; 8. penetrating a groove; 9. a guide roller; 10. and a driving roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of 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.

As shown in fig. 1 to 4, a non-woven fabric coating machine according to an embodiment of the present utility model includes:

the device comprises a bearing frame 1, wherein two storage cavities 2 for storing glue are formed in the bearing frame 1;

the gluing mechanism 3 is arranged on the bearing frame 1, the gluing mechanism 3 comprises two gluing rollers 301 rotatably arranged on the bearing frame 1, the non-woven fabric passes through the two gluing rollers 301, and a driving part for driving the gluing rollers 301 to rotate is arranged on the bearing frame 1;

the glue conveying mechanism 4 comprises two glue coating brushes 401 arranged on the bearing frame 1, brush bodies of the two glue coating brushes 401 are hollow and are communicated with glue conveying pipes 402, the two glue conveying pipes 402 are respectively communicated with the two storage cavities 2, the glue coating brushes 401 comprise brush bodies and brush hair inserted on one surface of the brush bodies, a plurality of glue outlet holes are uniformly formed in one surface of each glue coating brush 401 with the corresponding brush hair, an extrusion part is formed on the glue conveying mechanism 4 and used for extruding glue in the storage cavities 2, and glue in the storage cavities 2 can be extruded into the brush bodies through the glue conveying pipes 402 through the extrusion part so as to form glue outlet Kong Yijiao, so that the brush hair is smeared with glue, and when the glue feeding roller 301 rotates, the glue coating brushes 401 are used for gluing the glue feeding roller 301;

when the non-woven fabric is used, firstly, the non-woven fabric passes through the two rubberizing rollers 301 and is in conflict with the two rubberizing rollers, then the two rubberizing rollers 301 are enabled to rotate simultaneously and in opposite directions through the driving part, in the process, the extruding part continuously extrudes the rubberizing in the storage cavity 2 again, so that the rubberizing brush 401 is ensured to continuously glue, the rubberizing rollers 301 are enabled to continuously glue the rubberizing rollers 301 after being contacted with the non-woven fabric, and accordingly, the two sides of the non-woven fabric are continuously glued.

As shown in fig. 1 and fig. 4, in some embodiments, two ends of the glue applying roller 301 are rotatably provided with a sliding block 302, the sliding block 302 is slidably installed on the carrier 1, wherein two identical sides of the sliding block 302 are provided with a gear motor, that is, a driving part is a gear motor, an output shaft of the gear motor is connected with the glue applying roller, a driving component 303 for driving the sliding block 302 to move is installed on the carrier 1, the glue applying brush 401 is rotatably installed on the carrier 1, a spring telescopic rod is installed between the glue applying brush 401 and the carrier 1, the spring telescopic rod is of an existing structure and is composed of a sleeve, a sleeve rod and a spring, the sleeve rod is inserted in the sleeve, the spring is installed in the sleeve and is connected with the sleeve rod, one end of the sleeve rod, which is located outside, is hinged with the glue applying brush 401, so that when the sliding block 302 moves to adjust the distance between the two glue applying rollers 301, the glue applying brush 401 can be rotated by a certain angle through the spring telescopic rod, the glue applying brush 401 can be guaranteed to be attached to the glue applying roller 301 after the adjusting position, the two glue applying rollers 301 can be applied to the same thickness, and the thickness of the non-woven fabric 301 can be adjusted, and the application range of the non-woven fabric can be improved.

As shown in fig. 1-3, in some embodiments, the driving assembly 303 includes a forward and reverse screw rod 3031 horizontally and rotatably mounted on the carrier 1, the other two same side of the sliding blocks 302 are symmetrically and threadedly sleeved on the forward and reverse screw rod 3031, specifically, half of the forward and reverse screw rod 3031 is provided with left-handed threads, the other half of the forward and reverse screw rod 3031 is provided with right-handed threads, the sliding blocks 302 in the same direction of the two glue rollers 301 are respectively in threaded engagement with the left-handed threads and the right-handed threads, so that when the forward and reverse screw rod 3031 is rotated, the corresponding two sliding blocks 302 are mutually close to or far away from each other to realize adjustment of the distance between the two glue rollers 301, and the threaded engagement has self-locking property, so that the adjusted glue rollers 301 are not easy to move by themselves during operation.

As shown in fig. 2-4, in some embodiments, the pressing portion includes two piston plates 403 slidably mounted in the storage cavity 2, that is, the pressing portion is the piston plates 403, the piston plates 403 are far away from the connection position between the corresponding rubber conveying pipe 402 and the storage cavity 2, the adjusting member 4031 for driving the piston plates 403 to move is mounted on the carrier 1, and the piston plates 403 are moved upwards by the adjusting member 4031, so that the glue in the storage cavity 2 is pressed upwards, and the glue in the storage cavity 2 is ensured to be utilized, so that excessive glue accumulation is not easy to occur in the glue in the storage cavity 2.

As shown in fig. 1-4, in some embodiments, the adjusting member 4031 includes a connection plate 40311 connected to the bottoms of two piston plates 403, where the connection plate 40311 is partially located outside and symmetrically configured with two posts 40312, the carrier 1 is vertically rotatably mounted with a driving frame 40313, the driving frame 40313 is symmetrically provided with a movable slot 40314, the two posts 40312 are respectively slidably tangent to the two movable slots 40314, the carrier 1 is mounted with a transmission assembly 5 for driving the driving frame 40313 to rotate, that is, the driving frame 40313 is rotated by the transmission assembly 5, because the movable slot 40314 on the driving frame 40313 is slidably tangent to the posts 40312, when the driving frame 40313 rotates, relative to the driving frame 40313, the posts 40312 move in the movable slot 40314 and rotate along the self axis, thereby forcing the connection plate 40311 to move vertically, specifically, the connection plate 40311 is concave, the two vertically free ends are respectively connected to the two piston plates 403, and the design of the connection plate 40311 can synchronously move the two piston plates 403, thereby ensuring uniformity of glue dispensing rates of two glue dispensing brushes 401.

As shown in fig. 1-4, in some embodiments, the transmission assembly 5 includes an adjusting screw 501 horizontally and rotatably mounted on the carrier 1, a threaded cylinder 502 is sleeved on the adjusting screw 501 in a threaded manner, a linkage rod 503 is hinged between the threaded cylinder 502 and the driving frame 40313, the adjusting screw 501 can be driven by a motor, the motor is mounted on the carrier 1, an output shaft of the motor is connected with the adjusting screw 501, when the adjusting screw 501 rotates, the threaded cylinder 502 moves horizontally due to the fact that the threaded cylinder 502 and the linkage rod 503 are hinged to limit the rotation freedom degree, the threaded cylinder 502 moves horizontally, the driving frame 40313 rotates due to the fact that one end of the linkage rod 503 is hinged to the driving frame 40313, the movement of the connecting plate 40311 is achieved, and the threaded cooperation between the adjusting screw 501 and the threaded cylinder 502 has self-locking property, so that the connecting plate 40311 does not easily slide down due to the action of gravity when moving.

As shown in fig. 4, in some embodiments, a glue inlet funnel 6 communicated with the storage cavity 2 is installed on the carrier 1, the glue inlet funnel 6 is triangular and has an opening at the top, a blocking plate 7 for blocking the opening of the glue inlet funnel 6 is installed on the top of the glue inlet funnel 6 through a bolt, glue is conveniently added into the storage cavity 2 by the design of the glue inlet funnel 6, and the blocking plate 7 can prevent glue from overflowing from the opening when glue in the storage cavity 2 is extruded.

As shown in fig. 2, in some embodiments, a driving frame 40313 is provided with a through groove 8 for passing through textile fabric, a guide roller 9 is installed on the bearing frame 1 and below the driving frame 40313, two driving rollers 10 are rotatably installed on the bearing frame 1, the textile fabric is horizontally conveyed by passing through the two driving rollers 10 after passing through the guide roller 9, and the non-woven fabric is horizontally conveyed by passing through the through groove 8 after passing through the two glue coating rollers and then passing through between the driving rollers 10, so that the glued non-woven fabric is conveniently and subsequently processed by the coated non-woven fabric.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. Non-woven fabrics coating machine, its characterized in that includes:

the device comprises a bearing frame (1), wherein two storage cavities (2) for storing gluing are formed in the bearing frame (1);

the gluing mechanism (3) is arranged on the bearing frame (1), the gluing mechanism (3) comprises two gluing rollers (301) rotatably arranged on the bearing frame (1), the non-woven fabric passes through the two gluing rollers (301), and a driving part for driving the gluing rollers (301) to rotate is arranged on the bearing frame (1);

glue delivery mechanism (4), including installing two rubber coating brushes (401) on loading end (1), two the brush body of rubber coating brush (401) is cavity and intercommunication have glue delivery pipe (402), two glue delivery pipe (402) respectively with two deposit chamber (2) intercommunication, construct on glue delivery mechanism (4) and have extrusion portion, it is used for the inside rubber coating of chamber (2) is deposited in the extrusion.

2. The non-woven fabric coating machine according to claim 1, wherein sliding blocks (302) are rotatably installed at two ends of the rubberizing roller (301), the sliding blocks (302) are slidably installed on the bearing frame (1), gear motors are installed on the sliding blocks (302) on two same sides, output shafts of the gear motors are connected with the rubberizing roller (301), a driving assembly (303) for driving the sliding blocks (302) to move is installed on the bearing frame (1), the rubberizing brush (401) is rotatably installed on the bearing frame (1), and a spring telescopic rod is installed between the rubberizing brush (401) and the bearing frame (1).

3. The non-woven fabric coating machine according to claim 2, wherein the driving assembly (303) comprises a forward and reverse screw rod (3031) horizontally and rotatably mounted on the carrier (1), and the other two same side sliding blocks (302) are symmetrically sleeved on the forward and reverse screw rod (3031) in a threaded manner.

4. The non-woven fabric coating machine according to claim 1, wherein the extrusion part comprises two piston plates (403) slidably mounted in the storage cavity (2), the piston plates (403) are far away from the communication position of the rubber conveying pipe (402) and the storage cavity (2), and the adjusting piece (4031) for driving the piston plates (403) to move is mounted on the bearing frame (1).

5. The non-woven fabric coating machine according to claim 4, wherein the adjusting piece (4031) comprises a connecting plate (40311) connected with the bottoms of the two piston plates (403), the connecting plate (40311) is partially positioned outside and symmetrically provided with two posts (40312), the driving frame (40313) is vertically and rotatably arranged on the bearing frame (1), the driving frame (40313) is symmetrically provided with a movable groove (40314), the two posts (40312) are respectively and slidably tangent to the two movable grooves (40314), and the driving frame (40313) is rotatably arranged on the bearing frame (1).

6. The non-woven fabric coating machine according to claim 5, wherein the transmission assembly (5) comprises an adjusting screw (501) horizontally and rotatably installed on the bearing frame (1), a threaded cylinder (502) is sleeved on the adjusting screw (501) in a threaded manner, and a linkage rod (503) is hinged between the threaded cylinder (502) and the driving frame (40313).

7. The non-woven fabric coating machine according to claim 1, wherein the carrier (1) is provided with a glue feeding funnel (6) communicated with the storage cavity (2), the glue feeding funnel (6) is triangular and is provided with an opening at the top, and the top of the glue feeding funnel (6) is provided with a plugging plate (7) for blocking the opening of the glue feeding funnel through a bolt.

8. The non-woven fabric coating machine according to claim 5, wherein the driving frame (40313) is provided with a penetrating groove (8) for a textile fabric to pass through, the bearing frame (1) is provided with a guide roller (9) below the driving frame (40313), the bearing frame (1) is rotatably provided with two driving rollers (10), and the textile fabric passes through the two driving rollers (10) after being wound on the guide roller (9) and is horizontally conveyed.