CN210061746U - Acrylic sound insulation board production equipment - Google Patents

Abstract

The utility model discloses an acrylic acoustic baffle production device, which comprises a frame, wherein two groups of plastic pressing devices are arranged on the frame in parallel, and each plastic pressing device is provided with an injection molding nozzle; the plastic pressing device is provided with a steel wire mesh guiding device; the steel wire mesh guiding device is provided with a resistance system, the rack is provided with a feeding mechanism, and the feeding mechanism is arranged at the front end of the steel wire mesh guiding device; the output end of the plastic pressing device is provided with an acrylic sound insulation plate guiding device; the guide device with the acrylic sound insulation plate generates tension on the acrylic sound insulation plate; the interaction between the acrylic acoustic baffle guiding device and the steel wire mesh guiding device generates prestress on the steel wire mesh.

Description

Acrylic sound insulation board production equipment

Technical Field

The utility model relates to a field that gives sound insulation especially relates to an inferior gram force acoustic celotex board production facility.

Background

Acrylic, also called organic glass, has the chemical name polymethyl methacrylate. The high-molecular-weight polyester resin is an important plastic high-molecular material which is developed earlier, has better transparency, chemical stability and weather resistance, is easy to dye and process, has beautiful appearance and is widely applied to the building industry. Organic glass products can be generally classified into cast sheets, extruded sheets and molding compounds. The crystal-like transparency is achieved, the light transmittance is over 92%, the light is soft, the vision is clear, and the acrylic dyed by the dye has a good color spreading effect. The acrylic plate has excellent weather resistance, higher surface hardness and surface gloss and better high-temperature performance. The acrylic plate has good processing performance, and can be subjected to hot forming or mechanical processing. The transparent acrylic sheet has a light transmittance comparable to that of glass, but has a density of only half that of glass. Furthermore, it is not as brittle as glass and, if broken, does not form sharp fragments as glass does. The wear resistance of the acrylic plate is close to that of an aluminum material, the stability is good, and the acrylic plate is resistant to corrosion of various chemicals. The acrylic sound insulation effect is good, and the acrylic sound insulation board can be used as a sound insulation board for roads. However, the acrylic plate is easy to break under the irradiation of sunlight or the impact of external force for a long time, and the broken acrylic plate is easy to scratch passing automobiles, so that potential safety hazards are brought.

SUMMERY OF THE UTILITY MODEL

The invention of the utility model aims to: aiming at the problems, the production equipment for the acrylic sound insulation board is provided, and the steel wire mesh is arranged in the acrylic sound insulation board, so that the structural strength of the acrylic sound insulation board can be improved, and the service life of the acrylic sound insulation board can be prolonged; the fragments generated by the broken sound insulation board can be prevented from splashing, and the broken sound insulation board can be connected with the steel wire to form a whole; through setting up assembly line production facility, can the integration continuous production ya keli board, the process velocity is fast, and is efficient.

The utility model adopts the technical scheme as follows:

the production equipment for the acrylic sound insulation board comprises a rack, wherein two groups of plastic pressing devices are arranged on the rack in parallel, and each plastic pressing device is provided with an injection molding nozzle; the plastic pressing device is provided with a steel wire mesh guiding device; the steel wire mesh guiding device is provided with a resistance system, the rack is provided with a feeding mechanism, and the feeding mechanism is arranged at the front end of the steel wire mesh guiding device; the output end of the plastic pressing device is provided with an acrylic sound insulation plate guiding device; the acrylic sound insulation plate guiding device generates tension on the acrylic sound insulation plate; the interaction between the acrylic acoustic baffle guiding device and the steel wire mesh guiding device generates prestress on the steel wire mesh.

Furthermore, the utility model also discloses a preferred structure of ya keli acoustic celotex board production facility, the wire net guiding device includes first wire net guide gyro wheel, second wire net guide gyro wheel, and first wire net guide gyro wheel, second wire net guide gyro wheel are fixed in the frame through resistance wheel; the resistance wheel can generate certain resistance; the rotating shafts of the first steel wire mesh guide roller and the second steel wire mesh guide roller are on the same vertical plane.

Further, the two groups of plastic pressing devices comprise an upper plastic pressing device and a lower plastic pressing device; the upper plastic pressing device comprises a first transmission roller and a second transmission roller which are arranged on the rack, the first transmission roller and the second transmission roller are arranged on the same horizontal plane, and a first pressing circulating belt is sleeved outside the first transmission roller and the second transmission roller; the first steel wire mesh guide roller and the second steel wire mesh guide roller are parallel to the rotating shaft of the first transmission roller; the frame is provided with a first motor, and the first motor is in power connection with the first transmission roller and/or the second transmission roller through a transmission belt.

Furthermore, the acrylic acoustic baffle guiding device comprises an upper acrylic plate guiding wheel set and a lower acrylic plate guiding wheel set, the upper acrylic plate guiding wheel set and the lower acrylic plate guiding wheel set are arranged up and down, and rotating shafts of the upper acrylic plate guiding wheel set and the lower acrylic plate guiding wheel set are parallel to a rotating shaft of the second transmission roller; the upper acrylic plate guide wheel set and the lower acrylic plate guide wheel set comprise a plurality of friction wheels, and each group of friction wheels are arranged on the same horizontal line; the frame is provided with a second motor, and the second motor is in power connection with the upper acrylic plate guide wheel set and/or the lower acrylic plate guide wheel set through a transmission belt.

Furthermore, the lower plastic pressing device comprises a third transmission roller and a fourth transmission roller which are arranged on the rack, the third transmission roller and the fourth transmission roller are arranged on the same horizontal plane, and a second pressing circulating belt is sleeved outside the third transmission roller and the fourth transmission roller; the lower side of the first pressing circulating belt is adjacent to the upper side of the second pressing circulating belt; the injection molding nozzle is arranged between the first transmission roller and the fourth transmission roller; and a third motor is arranged on the rack and is in power connection with a third transmission roller and/or a fourth transmission roller through a transmission belt.

Furthermore, a first cooling sprayer is arranged between the first transmission roller and the second transmission roller, and a plurality of spray heads are arranged on the first cooling sprayer; the spray head is vertical to the first pressing circulating belt, and the first cooling sprayer is connected with a cold air source; the first cooling sprayer may spray cold air to the inner surface of the first press circulating belt.

Furthermore, a second cooling sprayer is arranged between the third transmission roller and the fourth transmission roller, and a plurality of spray heads are arranged on the second cooling sprayer; the spray head is vertical to the second pressing circulating belt, and the second cooling sprayer is connected with a cold air source; the second cooling sprayer may spray cold air to the inner surface of the second press circulating belt.

Further, a first release agent sprayer is arranged on the machine frame, the first release agent sprayer is arranged adjacent to the first pressing circulating belt, and the first release agent sprayer can spray a release agent to the outer surface of the first pressing circulating belt; and a second release agent sprayer is arranged on the rack, is adjacent to the second pressing circulating belt and can spray a release agent to the outer surface of the second pressing circulating belt.

Furthermore, the feeding mechanism comprises a goods supply wheel, and a steel wire mesh is wound on the goods supply wheel; the 5 is connected with a plastic pretreatment mechanism.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the steel wire mesh is arranged in the acrylic sound insulation board, so that the structural strength of the acrylic sound insulation board can be improved, and the service life of the acrylic sound insulation board can be prolonged; the fragments generated by the broken sound insulation board can be prevented from splashing, and the broken sound insulation board can be connected with the steel wire to form a whole;

2. by arranging the assembly line production equipment, the acrylic plate can be integrally and continuously produced, the processing speed is high, and the efficiency is high;

3. through setting up the resistance system, can straighten the wire net completely, improve the utilization ratio of wire net, simultaneously, through this resistance system, can improve acrylic acoustic celotex board's structural strength and shock resistance to wire net loading prestressing force.

Drawings

FIG. 1 is a schematic structural view of the present invention;

the labels in the figure are: the device comprises a frame 1, a supply wheel 2, a first steel wire mesh guide roller 3, a second steel wire mesh guide roller 4, an injection molding sprayer 5, a first transmission roller 6, a first demolding agent sprayer 7, a first pressing circulating belt 8, a second transmission roller 9, a first cooling sprayer 10, a sprayer 11, an upper acrylic plate guide wheel set 12, a lower acrylic plate guide wheel set 13, a third transmission roller 14, a second pressing circulating belt 15, a second cooling sprayer 16, a second demolding agent sprayer 17, a fourth transmission roller 18, a resistance wheel 19, a plastic pretreatment mechanism 20, a first motor 21, a transmission belt 22, a second motor 23 and a third motor 24.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the utility model discloses an acrylic acoustic baffle production device, which comprises a frame 1, wherein two groups of plastic pressing devices are arranged on the frame 1 in parallel, and each plastic pressing device is provided with an injection molding nozzle 5; the plastic pressing device is provided with a steel wire mesh guiding device; the steel wire mesh guiding device is provided with a resistance system, the rack 1 is provided with a feeding mechanism, and the feeding mechanism is arranged at the front end of the steel wire mesh guiding device; the output end of the plastic pressing device is provided with an acrylic sound insulation plate guiding device; the acrylic sound insulation plate guiding device generates tension on the acrylic sound insulation plate; the interaction between the acrylic acoustic baffle guiding device and the steel wire mesh guiding device generates prestress on the steel wire mesh.

The plastic pressing device can press viscous plastic sprayed by the injection molding nozzle 5 into a required shape, and meanwhile, the steel wire mesh is sealed in the plastic, so that the processing efficiency is greatly improved through continuous production. Through setting up the resistance system, can straighten the wire net completely, improve the utilization ratio of wire net, simultaneously, through this resistance system, can improve acrylic acoustic celotex board's structural strength and shock resistance to wire net loading prestressing force.

Further, the utility model also discloses a preferred embodiment of ya keli acoustic celotex board production facility, the wire net guiding device includes first wire net guide gyro wheel 3, second wire net guide gyro wheel 4, and first wire net guide gyro wheel 3, second wire net guide gyro wheel 4 are fixed on frame 1 through resistance wheel 19; the resistance wheel 19 can generate certain resistance; the rotating shafts of the first steel wire mesh guide roller 3 and the second steel wire mesh guide roller 4 are on the same vertical plane.

The two groups of plastic pressing devices comprise an upper plastic pressing device and a lower plastic pressing device; the upper plastic pressing device comprises a first transmission roller 6 and a second transmission roller 9 which are arranged on the rack, the first transmission roller 6 and the second transmission roller 9 are arranged on the same horizontal plane, and a first pressing circulating belt 8 is sleeved outside the first transmission roller 6 and the second transmission roller 9; the first steel wire mesh guide roller 3 and the second steel wire mesh guide roller 4 are parallel to the rotating shaft of the first transmission roller 6; the frame 1 is provided with a first motor 21, and the first motor 21 is in power connection with the first transmission roller 6 and/or the second transmission roller 9 through a transmission belt 22.

The acrylic acoustic baffle guiding device comprises an upper acrylic plate guiding wheel set 12 and a lower acrylic plate guiding wheel set 13, wherein the upper acrylic plate guiding wheel set 12 and the lower acrylic plate guiding wheel set 13 are arranged up and down, and rotating shafts of the upper acrylic plate guiding wheel set 12 and the lower acrylic plate guiding wheel set 13 are parallel to a rotating shaft of the second transmission roller 9; the upper acrylic plate guide wheel group 12 and the lower acrylic plate guide wheel group 13 comprise a plurality of friction wheels, and each group of friction wheels are arranged on the same horizontal line; the frame 1 is provided with a second motor 23, and the second motor 23 is in power connection with the upper acrylic plate guide wheel set 12 and/or the lower acrylic plate guide wheel set 13 through a transmission belt 22.

The lower plastic pressing device comprises a third transmission roller 14 and a fourth transmission roller 18 which are arranged on the rack, the third transmission roller 14 and the fourth transmission roller 18 are arranged on the same horizontal plane, and a second pressing circulating belt 15 is sleeved outside the third transmission roller 14 and the fourth transmission roller 18; the lower side of the first pressing endless belt 8 is disposed adjacent to the upper side of the second pressing endless belt 15; the injection molding nozzle 5 is arranged between the first transmission roller 6 and the fourth transmission roller 18; the frame 1 is provided with a third motor 24, and the third motor 24 is in power connection with the third transmission roller 14 and/or the fourth transmission roller 18 through a transmission belt 22.

A first cooling sprayer 10 is arranged between the first transmission roller 6 and the second transmission roller 9, and a plurality of spray heads 11 are arranged on the first cooling sprayer 10; the spray head 11 is vertical to the first pressing circulating belt 8, and the first cooling sprayer 10 is connected with a cold air source; the first cooling sprayer 10 can spray cold air to the inner surface of the first press circulating belt 8.

A second cooling sprayer 16 is arranged between the third transmission roller 14 and the fourth transmission roller 18, and a plurality of spray heads 11 are arranged on the second cooling sprayer 16; the spray head 11 is vertical to the second pressing circulating belt 15, and the second cooling sprayer 16 is connected with a cold air source; the second cooling sprayer 16 can spray cold air to the inner surface of the second press circulating belt 15.

A first release agent sprayer 7 is arranged on the rack 1, the first release agent sprayer 7 is arranged adjacent to the first pressing circulating belt 8, and the first release agent sprayer 7 can spray a release agent to the outer surface of the first pressing circulating belt 8; and a second release agent sprayer 17 is arranged on the machine frame 1, the second release agent sprayer 17 is arranged adjacent to the second pressing circulating belt 15, and the second release agent sprayer 17 can spray release agent to the outer surface of the second pressing circulating belt 15.

The feeding mechanism comprises a goods supply wheel 2, and a steel wire mesh is wound on the goods supply wheel 2; the 5 is connected with a plastic pretreatment mechanism 20.

In the specific operation process, the equipment is started, the first motor 21 rotates, the first motor 21 drives the first transmission roller 6 and the second transmission roller 9 to rotate reversely, and the first transmission roller 6 and the second transmission roller 9 drive the first pressing circulating belt 8 to rotate reversely.

The steel wire mesh extends forwards from the supply wheel 2, passes through the space between the first steel wire mesh guide roller 3 and the second steel wire mesh guide roller 4, passes through the space between the first pressing circulating belt 8 and the second pressing circulating belt 15, and passes through the space between the upper acrylic plate guide wheel group 12 and the lower acrylic plate guide wheel group 13.

The third motor 24 drives the third transmission roller 14 and the fourth transmission roller 18 to rotate in the positive direction, and the third transmission roller 14 and the fourth transmission roller 18 drive the second pressing circulating belt 15 to rotate in the positive direction; meanwhile, the second motor 23 drives the upper acrylic plate guide wheel set 12 to rotate reversely, and the lower acrylic plate guide wheel set 13 to rotate forwardly.

The linear speeds of the first steel wire mesh guide roller 3, the second steel wire mesh guide roller 4, the first pressing circulating belt 8, the second pressing circulating belt 15, the upper acrylic plate guide wheel set 12, the lower acrylic plate guide wheel set 13, the third transmission roller 14, the fourth transmission roller 18, the first pressing circulating belt 8 and the second pressing circulating belt 15 are the same.

The upper acrylic plate guide wheel set 12 and the lower acrylic plate guide wheel set 13 drive the steel wire mesh to move, the injection molding nozzle 5 sprays semi-molten plastic matched with the speed, and the first release agent sprayer 7 and the second release agent sprayer 17 are started and spray release agents at a constant speed, so that the acrylic plates are conveniently separated from the first pressing circulating belt 8 and the second pressing circulating belt 15; the first cooling sprayer 10 and the second cooling sprayer 16 are started and spray refrigerating gas to the first pressing circulating belt 8 and the second pressing circulating belt 15; thus, the acrylic plate can be cooled to be rapidly solidified, and the first pressing circulating belt 8 and the second pressing circulating belt 15 can be prevented from being burnt.

The steel wire mesh passes first steel wire mesh guide roller 3, second steel wire mesh guide roller 4, goes up plastics suppression device, lower plastics suppression device from supplying goods wheel 2 to when pulling out through inferior gram force board guide wheel group 13, third drive roller 14 down, just pour in the inferior gram force board.

Due to the action of the resistance wheel 19, the steel wire mesh is always in a tensioned state under the pulling of the upper acrylic plate guide wheel group 12 and the lower acrylic plate guide wheel group 13, and certain prestress can be loaded on the steel wire mesh.

Therefore, the steel wire mesh is arranged in the acrylic sound insulation board, so that the structural strength of the acrylic sound insulation board can be improved, and the service life of the acrylic sound insulation board can be prolonged; the fragments generated by the broken sound insulation board can be prevented from splashing, and the broken sound insulation board can be connected with the steel wire to form a whole; through setting up assembly line production facility, can the integration continuous production ya keli board, the process velocity is fast, and is efficient.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an inferior gram force acoustic celotex board production facility which characterized in that: the plastic injection molding machine comprises a rack (1), wherein two groups of plastic pressing devices are arranged on the rack (1) in parallel, and each plastic pressing device is provided with an injection molding nozzle (5); the plastic pressing device is provided with a steel wire mesh guiding device; the steel wire mesh guiding device is provided with a resistance system, the rack (1) is provided with a feeding mechanism, and the feeding mechanism is arranged at the front end of the steel wire mesh guiding device; the output end of the plastic pressing device is provided with an acrylic sound insulation plate guiding device; the acrylic sound insulation plate guiding device generates tension on the acrylic sound insulation plate; the interaction between the acrylic acoustic baffle guiding device and the steel wire mesh guiding device generates prestress on the steel wire mesh.

2. The acrylic acoustic panel production apparatus according to claim 1, wherein: the steel wire mesh guiding device comprises a first steel wire mesh guiding roller (3) and a second steel wire mesh guiding roller (4), and the first steel wire mesh guiding roller (3) and the second steel wire mesh guiding roller (4) are fixed on the rack (1) through a resistance wheel (19); the resistance wheel (19) can generate certain resistance; the rotating shafts of the first steel wire mesh guide roller (3) and the second steel wire mesh guide roller (4) are on the same vertical plane.

3. The acrylic acoustic panel production apparatus according to claim 2, wherein: the two groups of plastic pressing devices comprise an upper plastic pressing device and a lower plastic pressing device; the upper plastic pressing device comprises a first transmission roller (6) and a second transmission roller (9) which are arranged on the rack, the first transmission roller (6) and the second transmission roller (9) are arranged on the same horizontal plane, and a first pressing circulating belt (8) is sleeved outside the first transmission roller (6) and the second transmission roller (9); the first steel wire mesh guide roller (3) and the second steel wire mesh guide roller (4) are parallel to the rotating shaft of the first transmission roller (6); the frame (1) is provided with a first motor (21), and the first motor (21) is in power connection with the first transmission roller (6) and/or the second transmission roller (9) through a transmission belt (22).

4. The acrylic acoustic panel production apparatus according to claim 3, wherein: the acrylic acoustic baffle guiding device comprises an upper acrylic plate guiding wheel set (12) and a lower acrylic plate guiding wheel set (13), wherein the upper acrylic plate guiding wheel set (12) and the lower acrylic plate guiding wheel set (13) are arranged up and down, and rotating shafts of the upper acrylic plate guiding wheel set (12) and the lower acrylic plate guiding wheel set (13) are parallel to a rotating shaft of the second transmission roller (9); the upper acrylic plate guide wheel set (12) and the lower acrylic plate guide wheel set (13) comprise a plurality of friction wheels, and each group of friction wheels are arranged on the same horizontal line; the frame (1) is provided with a second motor (23), and the second motor (23) is in power connection with the upper acrylic plate guide wheel set (12) and/or the lower acrylic plate guide wheel set (13) through a transmission belt (22).

5. The acrylic acoustic panel production apparatus according to claim 4, wherein: the lower plastic pressing device comprises a third transmission roller (14) and a fourth transmission roller (18) which are arranged on the rack, the third transmission roller (14) and the fourth transmission roller (18) are arranged on the same horizontal plane, and a second pressing circulating belt (15) is sleeved outside the third transmission roller (14) and the fourth transmission roller (18); the lower side of the first pressing circulating belt (8) is adjacent to the upper side of the second pressing circulating belt (15); the injection molding nozzle (5) is arranged between the first transmission roller (6) and the fourth transmission roller (18); the rack (1) is provided with a third motor (24), and the third motor (24) is in power connection with a third transmission roller (14) and/or a fourth transmission roller (18) through a transmission belt (22).

6. The acrylic acoustic panel production apparatus according to claim 5, wherein: a first cooling sprayer (10) is arranged between the first transmission roller (6) and the second transmission roller (9), and a plurality of spray heads (11) are arranged on the first cooling sprayer (10); the spray head (11) is vertical to the first pressing circulating belt (8), and the first cooling sprayer (10) is connected with a cold air source; a first cooling sprayer (10) can spray cold air to the inner surface of the first press circulating belt (8).

7. The acrylic acoustic panel production apparatus according to claim 6, wherein: a second cooling sprayer (16) is arranged between the third transmission roller (14) and the fourth transmission roller (18), and a plurality of spray heads (11) are arranged on the second cooling sprayer (16); the spray head (11) is vertical to the second pressing circulating belt (15), and the second cooling sprayer (16) is connected with a cold air source; the second cooling sprayer (16) can spray cold air to the inner surface of the second press circulating belt (15).

8. The acrylic acoustic panel production apparatus according to claim 7, wherein: a first release agent sprayer (7) is arranged on the rack (1), the first release agent sprayer (7) is arranged adjacent to the first pressing circulating belt (8), and the first release agent sprayer (7) can spray a release agent to the outer surface of the first pressing circulating belt (8); and a second release agent sprayer (17) is arranged on the rack (1), the second release agent sprayer (17) is arranged adjacent to the second pressing circulating belt (15), and the second release agent sprayer (17) can spray a release agent to the outer surface of the second pressing circulating belt (15).

9. The acrylic acoustic panel production apparatus according to claim 8, wherein: the feeding mechanism comprises a goods supply wheel (2), and a steel wire mesh is wound on the goods supply wheel (2); the 5 is connected with a plastic pretreatment mechanism (20).

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