CN219838302U - Hot melt adhesive compounding machine - Google Patents

Abstract

The utility model discloses a hot melt adhesive compounding machine which comprises a frame, a first unreeling component, a gluing device, a drying component, a second unreeling component, a guiding tensioning component, a compounding device and a material receiving component, wherein the first unreeling component is connected with the gluing device; the machine frame is vertically arranged and comprises a front mounting vertical plate and a rear mounting vertical plate which are vertically arranged at intervals; the first unreeling component, the gluing device, the drying component, the guiding tensioning component, the compound device, the second unreeling component and the material receiving component are sequentially arranged between the front mounting vertical plate and the rear mounting vertical plate from left to right. The hot melt adhesive compounding machine is convenient for adjusting the width of the adhesive groove and is suitable for compounding non-woven fabrics with different sizes; the residual glue, waste glue and sundries in the glue storage tank are conveniently cleaned; meanwhile, the floating coating rubber roller assembly and the lifting drying assembly can be suitable for incoming material compounding processes with different thicknesses, and the universality is strong.

Description

Hot melt adhesive compounding machine

Technical Field

The utility model relates to the technical field of composite non-woven fabric processing equipment, in particular to a hot melt adhesive compounding machine.

Background

Common composite non-woven fabrics include laminated composite non-woven fabrics, laser non-woven fabrics, high-gloss non-woven fabrics, matte non-woven fabrics and laminated non-woven fabrics, wherein most of the common composite non-woven fabrics are fabrics with two layers, and the process of compounding three layers of fabrics is one more than that of two layers of fabrics.

The film-covered non-woven fabric is mainly used as an environment-friendly bag material or a sun-proof film of an automobile. Also a golden tree-wrapped non-woven fabric for a commercial storefront. The composite non-woven fabric has corresponding excellent properties by utilizing the combination of the advantages of the composite material.

In general, the equipment for producing and processing the composite non-woven fabric needs a roller glue brushing part, and two or more layers of composite materials with different materials are aligned and adhered after glue is brushed on one surface of the composite materials, and the composite non-woven fabric is formed after compaction. But the glue brushing assembly of the compounding machine in the prior art has the problems of poor adjustability, poor universality and difficult cleaning of residual glue and impurities.

Disclosure of Invention

The utility model aims to provide a hot melt adhesive compounding machine which is convenient for adjusting the width of an adhesive groove and is suitable for compounding non-woven fabrics with different sizes; the residual glue, waste glue and sundries in the glue storage tank are conveniently cleaned; meanwhile, the floating coating rubber roller assembly and the lifting drying assembly can be suitable for incoming material compounding processes with different thicknesses, and the universality is strong.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a hot melt adhesive compounding machine comprises a frame, a first unreeling component, a gluing device, a drying component, a second unreeling component, a guiding tensioning component, a compounding device and a material receiving component;

the machine frame is vertically arranged and comprises a front mounting vertical plate and a rear mounting vertical plate which are vertically arranged at intervals; the first unreeling component, the gluing device, the drying component, the guiding tensioning component, the compound device, the second unreeling component and the material receiving component are sequentially arranged between the front mounting vertical plate and the rear mounting vertical plate from left to right.

The gluing device comprises a gluing steel roller, a scraper component, a scraper connecting plate, a driving motor, an adjusting cylinder and a floating coating rubber roller component;

the machine frame is provided with a horizontally arranged glue-coated steel roller; one side of the glue spreading steel roller is provided with a scraper component which is horizontally arranged;

the scraper connecting plates are two, are oppositely arranged, are respectively arranged on the inner side of the frame and are hinged with the frame;

the scraper component comprises a scraper rest, a glue baffle plate seat, a guide rail, a sliding seat, a scraper blade, a scraper pressing plate and a glue groove adjusting screw rod; the scraper frame is horizontally arranged, the left end and the right end of the scraper frame are respectively fixedly arranged on the scraper connecting plate, and the inner side of the scraper frame is provided with an L-shaped groove; the scraper blade is fixedly arranged at the bottom of the scraper rest through a scraper pressing plate; the upper end of the scraping blade is arranged in the L-shaped groove;

the two glue blocking plates are respectively arranged on two sides of the scraper rest, in particular to an L-shaped groove of the scraper rest; the outer side of the glue blocking plate is a cambered surface, and the cambered surface is attached to the circular arc outer wall of the glue spreading steel roller. A glue storage groove with an opening at the upper end is formed among the gluing steel roller, the scraping knife rest and the glue blocking plate, and glue is introduced into the glue storage groove; when the glue coating steel roller rotates, glue is adhered to the outer wall, and then the glue is transferred onto a base material (non-woven fabric or film material) passing through the glue coating steel roller, so that preparation is made for adhesion and compounding of subsequent multi-layer materials.

The width of the glue storage groove is required to correspond to the width of the base material to be glued, if the width of the glue storage groove is smaller than the width of the base material, the glue cannot be glued in a part of the base material area; if the width of the glue storage groove is larger than the width of the base material, glue at the end part of the glue coating steel roller is transferred onto the guide rotating roller, so that the cleaning of equipment and the smooth conveying of the base material are affected. In order to adapt to base materials with different widths, the width of the glue storage groove is convenient to adjust, and the width of the glue storage groove is adjusted by adjusting the distance between the two glue blocking plates.

Meanwhile, in order to facilitate cleaning of residual glue, waste glue and sundries in the glue storage tank, the scraper frame is arranged into a swinging structure, so that the scraper frame can swing rotationally, a notch is opened at the bottom of the glue storage tank, and the residual glue, waste glue and sundries are conveniently discharged and cleaned.

A linear guide rail is arranged at the top of the scraper frame, and a sliding seat is sleeved on the linear guide rail; the rubber baffle plate seat is fixedly arranged on the sliding seat, and the rubber baffle plate is fixedly arranged on the rubber baffle plate seat; the rubber groove adjusting screw rod is horizontally arranged on the scraper connecting plate in a penetrating way, and the other end of the rubber groove adjusting screw rod is connected with the threaded hole of the rubber baffle seat in a meshed way; the rubber baffle plate seat can be driven to slide along the linear guide rail by rotating the rubber groove adjusting screw rod, so that the distance between the two rubber baffle plates is adjusted.

And a substrate to be compounded is placed on the first unreeling component, and the substrate is cylindrical coiled material sleeved on the air expansion shaft to rotate for discharging, so that the substrate is conveyed to a corresponding procedure backwards.

The first unreeling assembly comprises an air expansion shaft, a guide roller, a tensioning roller and a unreeling motor.

The drying assembly comprises a drying box, a cooling roller and an oven lifting assembly, wherein the drying box is arranged above the cooling roller, and the bottom of the drying box is a concave cambered surface which is attached to the outer wall of the cooling roller; a plurality of electric heating rods are arranged in the drying box; the middle part of the cooling roller is provided with a cavity, and cooling liquid is arranged in the cavity. The oven lifting assembly can enable the drying oven to vertically lift and lower.

The guide tensioning assemblies are arranged among the assemblies, so that the materials are conveyed to the processing assemblies in a tightening and straight mode.

The compound device comprises a floating compound rubber roller assembly and a rear traction steel roller;

the second unreeling assembly comprises an air expansion shaft and a unreeling motor;

the material collecting assembly comprises a winding rubber roller, a material collecting motor and a winding flat pushing rubber roller assembly.

The utility model has the beneficial effects that:

the width of the glue groove is convenient to adjust, and the method is suitable for compounding non-woven fabrics with different sizes; the residual glue, waste glue and sundries in the glue storage tank are conveniently cleaned; meanwhile, the floating coating rubber roller assembly and the lifting drying assembly can be suitable for incoming material compounding processes with different thicknesses, and the universality is strong.

Drawings

FIG. 1 is a schematic structural view of a hot melt adhesive compounding machine according to the present utility model;

FIG. 2 is a schematic view of a hot melt adhesive compounding machine according to the present utility model (after omitting the frame);

FIG. 3 is a schematic view of the first unwind assembly and the gumming device;

FIG. 4 is a top view of FIG. 3;

fig. 5 is a schematic view of the doctor assembly of the utility model.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1 to 5, a hot melt adhesive compounding machine comprises a frame 1, a first unreeling component 2, a gluing device 3, a drying component 4, a second unreeling component 5, a guiding tensioning component 6, a compounding device 7 and a material receiving component 8;

the frame 1 is vertically arranged and comprises a front mounting vertical plate and a rear mounting vertical plate which are vertically arranged at intervals; the first unreeling component 2, the gluing device 3, the drying component 4, the guiding tensioning component 6, the compound device 7, the second unreeling component 5 and the material receiving component 8 are sequentially arranged between the front mounting vertical plate and the rear mounting vertical plate from left to right.

The gluing device 3 comprises a gluing steel roller 31, a scraper component 32, a scraper connecting plate 33, a driving motor 34, an adjusting cylinder 35 and a floating coating rubber roller component 36;

the frame 1 is provided with a horizontally arranged glue spreading steel roller 31; one side of the glue spreading steel roller 31 is provided with a scraper component 32 which is horizontally arranged;

the scraper connecting plates 33 are two, are oppositely arranged, are respectively arranged on the inner side of the frame 1 and are hinged with the frame 1;

the scraper assembly 32 comprises a scraper rest 321, a glue baffle 322, a glue baffle seat 323, a guide rail 324, a sliding seat 325, a scraper blade 326, a scraper pressing plate 327 and a glue groove adjusting screw 328; the scraper frame 321 is horizontally arranged, the left and right ends of the scraper frame are respectively and fixedly arranged on the scraper connecting plate 33, and the inner side of the scraper frame is provided with an L-shaped groove 329; the scraping blade 326 is fixedly arranged at the bottom of the scraping knife rest 321 through a scraping knife pressing plate 327; the upper end of the doctor blade 326 is disposed within an L-shaped groove 329;

the two glue blocking plates 322 are respectively arranged at two sides of the scraper rest 321, in particular to an L-shaped groove 329 arranged in the scraper rest 321; the outer side of the glue blocking plate 322 is a cambered surface, and the cambered surface is attached to the circular arc outer wall of the glue spreading steel roller 31. Glue storage grooves 330 with openings at the upper ends are formed among the glue spreading steel roller 31, the scraper frame 321 and the glue blocking plate 322, and glue is introduced into the glue storage grooves 330; when the glue coating steel roller 31 rotates, glue is adhered to the outer wall, and then the glue is transferred onto a base material (non-woven fabric or film material) passing through the glue coating steel roller 31, so that preparation is made for adhesion and compounding of subsequent multi-layer materials.

The width of the glue storage groove 330 is required to correspond to the width of the substrate to be glued, if the width is smaller than the width of the substrate, the partial area of the substrate is not glued; if the width of the glue storage groove 330 is larger than the width of the substrate, the glue at the end of the glue spreading steel roller 31 is transferred onto the guiding roller, which affects the cleaning of the equipment and the smooth transportation of the substrate. In order to adapt to the substrates with different widths, the width of the glue storage groove 330 is required to be conveniently adjusted, and the width of the glue storage groove 330 is adjusted by adjusting the distance between the two glue baffle plates 322.

Meanwhile, in order to facilitate cleaning of residual glue, waste glue and sundries in the glue storage groove 330, the scraper frame 321 is arranged into a swinging structure, so that the scraper frame 321 can swing in a rotating manner, a notch is opened at the bottom of the glue storage groove 330, and the residual glue, waste glue and sundries are conveniently discharged and cleaned.

A linear guide rail 324 is arranged at the top of the scraper frame 321, and a sliding seat 325 is sleeved on the linear guide rail 324; the glue baffle plate seat 323 is fixedly arranged on the sliding seat 325, and the glue baffle plate 322 is fixedly arranged on the glue baffle plate seat 323; the rubber groove adjusting screw rod 328 is horizontally arranged above the scraper connecting plate 33 in a penetrating way, and the other end of the rubber groove adjusting screw rod is in meshed connection with a threaded hole of the rubber baffle seat 323; the glue baffle base 323 can be driven to slide along the linear guide rail 324 by rotating the glue groove adjusting screw 328, so that the distance between the two glue baffles 322 is adjusted.

Meanwhile, in order to facilitate cleaning of residual glue, waste glue and sundries in the glue storage groove 330, the scraper frame 321 is arranged into a swinging structure, so that the scraper frame 321 can swing in a rotating manner, a notch is opened at the bottom of the glue storage groove 330, and further, the residual glue, waste glue and sundries are conveniently discharged and cleaned. The adjusting cylinder 35 is fixedly arranged on the frame 1, an output shaft of the adjusting cylinder is hinged with a push rod 39, and the push rod 39 is horizontally and fixedly arranged on the scraper connecting plate; the scraper connecting plate is also fixedly provided with a rotating shaft 37, and the rotating shaft 37 is sleeved with a bearing and then fixedly arranged on the frame 1. Through the operation of the adjusting cylinder, the scraper connecting plate can be pushed to rotate around the rotating shaft, so that the scraper rest and other parts fixedly arranged on the scraper connecting plate are pushed to rotate, and the bottom of the glue storage groove 330 is opened with a notch.

The floating coating rubber roller assembly 36 comprises a coating press roller 361, a press roller swing arm 362 and a swing arm cylinder 363; the coating press roller 361 is horizontally arranged and attached to one side of the coating steel roller 31, two ends of the coating press roller are respectively and fixedly arranged on the press roller swing arm 362, the other end of the press roller swing arm 362 is hinged with an output shaft of a swing arm cylinder 363, and a cylinder body of the swing arm cylinder 363 is fixedly arranged on the frame 1; a second rotating shaft 364 is horizontally and fixedly arranged in the middle of the press roller swing arm 362, and the second rotating shaft 364 is sleeved with a bearing and then hinged with the frame 1. The press roller swing arm 362 can be pushed to rotate through the operation of the swing arm cylinder 363, so that the gap between the coating press roller 361 and the gluing steel roller 31 can be adjusted to adapt to incoming materials with different thicknesses.

The base material to be compounded is placed on the first unreeling component 2, and the base material is cylindrical, is sleeved on the air expansion shaft 21 and is discharged in a rotating mode, so that the base material is conveyed to a corresponding procedure backwards.

The first unreeling assembly 2 comprises an air expansion shaft 21, a guide roller, a tensioning roller and a unreeling motor 22.

The drying assembly 4 comprises a drying box 41, a cooling roller 42 and an oven lifting assembly 43, wherein the drying box 41 is arranged above the cooling roller 42, and the bottom of the drying box is a concave cambered surface which is attached to the outer wall of the cooling roller 42; a plurality of electric heating rods are arranged in the drying box 41; the middle part of the cooling roller 42 is provided with a cavity, and cooling liquid is arranged in the cavity. The oven lift assembly 43 may vertically lift the drying oven 41.

The guide tensioning assemblies 6 are arranged among the assemblies, so that the incoming materials are conveyed to the processing assemblies in a tightening and straight mode.

The compounding device 7 comprises a floating compound rubber roller assembly 71 and a rear traction steel roller 72;

the second unreeling assembly 5 comprises an air expansion shaft 21 and a unreeling motor 22;

the material receiving assembly 8 comprises a winding rubber roller 81, a material receiving motor 82 and a winding flat pushing rubber roller assembly 83. The glue receiving plate is denoted by 100.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (10)

1. A hot melt adhesive compounding machine is characterized in that: the device comprises a frame, a first unreeling component, a gluing device, a drying component, a second unreeling component, a guiding tensioning component, a compounding device and a material receiving component;

the machine frame is vertically arranged and comprises a front mounting vertical plate and a rear mounting vertical plate which are vertically arranged at intervals; the first unreeling component, the gluing device, the drying component, the guiding tensioning component, the compound device, the second unreeling component and the material receiving component are sequentially arranged between the front mounting vertical plate and the rear mounting vertical plate from left to right;

the gluing device comprises a gluing steel roller, a scraper component, a scraper connecting plate, a driving motor, an adjusting cylinder and a floating coating rubber roller component;

the machine frame is provided with a horizontally arranged glue-coated steel roller; one side of the glue spreading steel roller is provided with a scraper component which is horizontally arranged;

the scraper connecting plates are two, are oppositely arranged, are respectively arranged on the inner side of the frame and are hinged with the frame;

the scraper component comprises a scraper rest, a glue baffle plate seat, a guide rail, a sliding seat, a scraper blade, a scraper pressing plate and a glue groove adjusting screw rod; the scraper frame is horizontally arranged, the left end and the right end of the scraper frame are respectively fixedly arranged on the scraper connecting plate, and the inner side of the scraper frame is provided with an L-shaped groove; the scraper blade is fixedly arranged at the bottom of the scraper rest through a scraper pressing plate; the upper end of the scraping blade is arranged in the L-shaped groove;

the two glue blocking plates are respectively arranged in the L-shaped grooves of the scraper rest; the outer side of the glue blocking plate is a cambered surface, and the cambered surface is attached to the circular arc outer wall of the glue spreading steel roller;

a glue storage groove with an opening at the upper end is formed among the glue spreading steel roller, the scraping knife rest and the glue blocking plate;

a linear guide rail is arranged at the top of the scraper frame, and a sliding seat is sleeved on the linear guide rail; the rubber baffle plate seat is fixedly arranged on the sliding seat, and the rubber baffle plate is fixedly arranged on the rubber baffle plate seat; the rubber groove adjusting screw rod horizontally penetrates through the scraper connecting plate, and the other end of the rubber groove adjusting screw rod is in meshed connection with the threaded hole of the rubber baffle seat.

2. The hot melt adhesive compounding machine of claim 1, wherein: the adjusting cylinder is fixedly arranged on the frame, an output shaft of the adjusting cylinder is hinged with the push rod, and the push rod is horizontally and fixedly arranged on the scraper connecting plate; the scraper connecting plate is fixedly provided with a rotating shaft, and the rotating shaft is sleeved with a bearing and then fixedly arranged on the frame.

3. The hot melt adhesive compounding machine of claim 2, wherein: the floating coating rubber roller assembly comprises a coating press roller, a press roller swing arm and a swing arm cylinder; the coating press roller is horizontally arranged and attached to one side of the coating steel roller, two ends of the coating press roller are respectively and fixedly arranged on the press roller swing arm, the other end of the press roller swing arm is hinged with a swing arm cylinder output shaft, and a swing arm cylinder body is fixedly arranged on the frame; the middle part level of compression roller swing arm has set firmly the pivot two, and the pivot two cover is established behind the bearing and is articulated with the frame.

4. A hot melt adhesive compounding machine as defined in claim 3, wherein: the first unreeling assembly comprises an air expansion shaft, a guide roller, a tensioning roller and a unreeling motor.

5. The hot melt adhesive compounding machine of claim 4, wherein: the drying assembly comprises a drying box, a cooling roller and an oven lifting assembly, wherein the drying box is arranged above the cooling roller, and the bottom of the drying box is a concave cambered surface which is attached to the outer wall of the cooling roller; a plurality of electric heating rods are arranged in the drying box; a cavity is formed in the middle of the cooling roller, and cooling liquid is arranged in the cavity; the oven lifting assembly adjusts the vertical lifting height of the drying oven.

6. The hot melt adhesive compounding machine of any one of claims 1-5, wherein: the compounding device comprises a floating compound rubber roller assembly and a rear traction steel roller.

7. The hot melt adhesive compounding machine of claim 6, wherein: the second unreeling assembly comprises an air expansion shaft and a unreeling motor.

8. The hot melt adhesive compounding machine of claim 7, wherein: the compounding device comprises a floating compound rubber roller assembly and a rear traction steel roller.

9. The hot melt adhesive compounding machine of claim 8, wherein: the material collecting assembly comprises a winding rubber roller, a material collecting motor and a winding flat pushing rubber roller assembly.

10. The hot melt adhesive compounding machine of claim 9, wherein: the material collecting assembly comprises a rolling rubber roller, a material collecting motor and a rolling flat pushing rubber roller assembly;

the guide tensioning assemblies are arranged in a plurality and are arranged among the assemblies.