CN213315978U - Sand covering device for producing asphalt shingles with colored glass fiber tires - Google Patents

Abstract

The application relates to a sand coating device for producing asphalt shingles with colored glass fiber tires, which relates to the technical field of building material production and comprises a rack, wherein a feeding channel for conveying the asphalt shingles is arranged on the rack, a sand coating device is arranged on the feeding channel, and the sand coating device is fixedly arranged with the rack; the sand coating device comprises a lower sand hopper, a lower sand opening is formed in one end, close to the feeding channel, of the lower sand hopper, a sand coating conveying mechanism is arranged between the feeding channel and the lower sand opening of the rack, and a sand scraping assembly is arranged at the discharge end of the sand coating conveying mechanism in the conveying direction of the sand coating conveying mechanism. This application has the effect that improves the roughness on the sand layer on the asphalt shingle.

Description

Sand covering device for producing asphalt shingles with colored glass fiber tires

Technical Field

The application relates to the technical field of building material production, in particular to a sand coating device for producing colored glass fiber tire asphalt shingles.

Background

The glass fiber base asphalt tile is one kind of waterproof material, and has glass fiber as the base body, asphalt covering the surface layer and hard particles covering the asphalt surface. The main advantages of asphalt shingles include: firstly, the modeling is various, and the application range is wide; secondly, heat insulation and heat preservation; thirdly, the weight is small; fourthly, the construction is simple and convenient; fifthly, the product is durable; sixthly, the modeling is various, and the color is rich.

Chinese utility model patent with grant bulletin number CN208407525U discloses a sand-lined asphalt processing equipment, relates to the building materials field, which comprises a frame, be provided with the feed inlet that is used for the input of pitch tile in the frame, one side is provided with first heater between feed inlet and the discharge gate, first funnel, first transfer cylinder, the second heater, the second funnel, second transfer cylinder, first transfer cylinder, the other first squeeze roll that is parallel with it that is provided with respectively of second transfer cylinder, second squeeze roll, first transfer cylinder and first squeeze roll, the distance between second transfer cylinder and the second squeeze roll all equals with pitch tile thickness. The utility model discloses a can cover the sand processing to the two sides of asphalt shingle simultaneously in agreeing the flow, simplify the production flow, greatly improve production efficiency.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in actual production, the sand coating is not uniform enough, so that the thickness of a sand layer on the asphalt shingle is not uniform, and the using effect is not good.

SUMMERY OF THE UTILITY MODEL

In order to improve the roughness on the sand layer on the asphalt shingle, this application provides a sand covering device is used in production of colored glass child asphalt shingle.

The application provides a pair of sand-lined device is used in production of colored glass child asphalt shingle adopts following technical scheme:

a sand coating device for producing asphalt shingles with colored glass fiber tires comprises a rack, wherein a feeding channel for conveying the asphalt shingles is arranged on the rack, a sand coating device is arranged on the feeding channel, and the sand coating device is fixedly arranged with the rack; the sand coating device comprises a lower sand hopper, a lower sand opening is formed in one end, close to the feeding channel, of the lower sand hopper, a sand coating conveying mechanism is arranged between the feeding channel and the lower sand opening of the rack, and a sand scraping assembly is arranged at the discharge end of the sand coating conveying mechanism in the conveying direction of the sand coating conveying mechanism.

Through adopting above-mentioned technical scheme, when the asphalt shingle entered into under the sand-lined device from the pay-off passageway, sand material dropped sand-lined transport mechanism from sand mouth down, and sand-scraping mechanism makes the sand material dispersion on the sand-lined transport mechanism even, and then along with sand-lined transport mechanism's transportation, the sand material on the sand-lined transport mechanism evenly dropped to the asphalt shingle on the pay-off passageway on for the sand bed thickness on the asphalt shingle is even, accomplishes the sand-lined operation. So set up, improved the roughness on asphalt shingle sand layer.

Preferably, the scraping assembly comprises a scraping plate, and one end of the scraping plate, which is close to the sand-coated conveying mechanism, is provided with a sand spreading roller.

Through adopting above-mentioned technical scheme, when the sand material on the sand scraping component dispersion cover sand transport mechanism, the roller that paves the sand material shakeouts for it is more even to level and smooth, has improved the performance that the shakeouts of sand scraping component attached the sand material.

Preferably, the frame is provided with an adjusting assembly for adjusting the distance between the sand spreading roller and the sand-coated conveying mechanism.

Through adopting above-mentioned technical scheme, when needs adjustment asphalt shingle goes up adnexed sand bed thickness, use adjusting part to change the distance between sand roller and the sand-lined conveying mechanism of making an uproar, and then change the volume of the sand material on the sand-lined conveying mechanism to adnexed sand bed thickness on the asphalt shingle can be adjusted.

Preferably, the sanding roller is provided with anisotropic threads along two axial sides of the sanding roller.

Through adopting above-mentioned technical scheme, when the sand material on the sand application roller shakeouts and attaches sand-lined conveying mechanism, the incorgruous screw thread on the sand application roller makes sand material from the centre to both sides diffusion drop, and then unnecessary sand material can not pile up on sand-lined conveying mechanism, has improved sand-lined device's application nature.

Preferably, a sand-lined recycling mechanism is arranged on the rack below the sand-lined device, and the sand-lined recycling mechanism is arranged on one side of the feeding channel far away from the sand-lined device.

Through adopting above-mentioned technical scheme, when the sand material dropped, can use the cover sand retrieval and utilization mechanism to carry out recycle, improved overall structure's economic nature and application nature.

Preferably, the sand-lined recycling mechanism comprises a sand collecting hopper, one end of the sand collecting hopper, which is far away from the sand-lined device, is provided with a sand return opening, one end of the sand return opening is provided with a sand return conveyor belt, and one end of the sand return conveyor belt is provided with a recycling bin.

Through adopting above-mentioned technical scheme, when the sand material drops to receiving in the sand hopper, drop to back on the sand conveyer belt from returning the sand mouth, and then collect to the recycling bin in through returning the sand conveyer belt, improved the utilization ratio of sand material, improved overall structure's application nature.

Preferably, the sand return conveyor belt is provided with a receiving plate for preventing sand from sliding off.

Through adopting above-mentioned technical scheme, when the sand material dropped to returning the sand conveyer belt on, the board of accepting has prevented that the sand material from following the conveyer belt landing of returning the sand, has improved overall structure's application nature.

Preferably, the sand return port is arranged to be a bevel port matched with the sand return conveying belt.

Through adopting above-mentioned technical scheme, when sand material drops from returning the sand mouth, bevel connection and time sand conveyer belt phase-match have avoided the sand material to drop to the environment of splashing on returning the sand conveyer belt from the eminence, have improved overall structure's application nature.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sand scraping assembly is arranged at the discharge end of the sand coating conveying mechanism along the conveying direction of the sand coating conveying mechanism, so that when sand falls onto the sand coating conveying mechanism from the lower sand opening, the sand scraping assembly scrapes and evenly spreads the sand on the sand coating conveying mechanism along with the operation of the sand coating conveying mechanism, the sand falls onto asphalt shingles in the feeding channel from the sand coating conveying mechanism more evenly and flatly, and the flatness of a sand layer on the asphalt shingles is improved;

2. through being located the cover sand retrieval and utilization mechanism that is provided with under the cover sand device on the frame, and cover sand retrieval and utilization mechanism sets up in the one side that the cover sand device was kept away from to the pay-off passageway, when unnecessary sand material dropped to receiving in the sand hopper from cover sand transport mechanism, the sand material dropped to the sand return conveyer belt from the sand return mouth, along with the operation of sand return conveyer belt is collected to the recycling bin in, has improved overall structure's application nature.

Drawings

FIG. 1 is a schematic overall structure diagram of a sand-lined device for producing asphalt shingles with colored glass fiber tires according to an embodiment of the present application;

fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Description of reference numerals: 1. a frame; 2. a feed channel; 3. a sand coating device; 31. a sand discharging hopper; 32. a sand outlet is arranged; 33. a sand-lined conveying mechanism; 34. a sand scraping assembly; 341. a sand scraping plate; 342. spreading a sand roller; 4. an adjustment assembly; 5. a sand-lined recycling mechanism; 51. a sand collecting hopper; 52. a sand return port; 53. a sand return conveyor belt; 54. a recycling bin; 6. a bearing plate; 7. and (4) anisotropic threads.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses sand-lined device is used in production of colored glass child asphalt shingle.

Referring to fig. 1 and 2, a sand-coating device for producing asphalt shingles with colored glass fiber tires comprises a vertical frame 1, wherein the frame 1 is placed on a structural surface, a feeding channel 2 for conveying asphalt shingles is arranged on the frame 1, one end, far away from the structural surface, of the frame 1 is fixedly provided with a sand-coating device 3, one end, far away from the sand-coating device 3, of the frame 1 is provided with a sand-coating recycling mechanism 5, and the sand-coating recycling mechanism 5 is arranged on one side, far away from the sand-coating device 3, of the feeding channel 2. The sand material falls from the sand coating device 3 to the asphalt shingle on the feeding channel 2 to complete the sand coating operation, and the sand material slipped from the side of the asphalt shingle enters the sand coating recycling mechanism 5 to recycle the sand material.

The sand coating device 3 comprises a lower sand hopper 31 in a hollow quadrangular pyramid shape, the lower sand hopper 31 is fixedly arranged with the frame 1, one end of the lower sand hopper 31 close to the feeding channel 2 is provided with a rectangular lower sand opening 32, and the lower sand opening 32 is arranged along the direction vertical to the feeding channel 2. A sand-coated conveying mechanism 33 is arranged between the feeding channel 2 and the lower sand opening 32 on the frame 1, and the conveying direction of the sand-coated conveying mechanism 33 is the same as the conveying direction of the feeding channel 2. The sand-coated conveying mechanism 33 comprises a conveying belt and a motor for driving the conveying belt to rotate, the width of the conveying belt is larger than that of the lower sand opening 32, and the width of the lower sand opening 32 is larger than that of the asphalt shingle on the feeding channel 2. The sand falls from the lower sand hopper 31 through the lower sand port 32 onto the sand lining conveying mechanism 33, and the sand lining conveying mechanism 33 rotates, so that the sand on the sand lining conveying mechanism 33 falls onto the asphalt shingles in the feeding channel 2.

The sand scraping component 34 is arranged at the discharge end of the sand coating conveying mechanism 33 along the conveying direction, the sand scraping component 34 comprises a rectangular sand scraping plate 341, a cylindrical sand spreading roller 342 is arranged at one end of the sand scraping plate 341 close to the sand coating conveying mechanism 33, and the sand spreading roller 342 is provided with anisotropic threads 7 along two axial sides. The different-direction threads 7 on the sand spreading rollers 342 enable the redundant sand on the sand lining conveying mechanism 33 to be discharged from two sides, and the sand cannot be accumulated on the sand lining conveying mechanism 33 any more.

The frame 1 is provided with an adjusting assembly 4 for adjusting the distance between the sand spreading roller 342 and the sand-coated conveying mechanism 33, and in this embodiment, the adjusting assembly 4 is an air cylinder. The adjusting assembly 4 adjusts the amount of the sand on the sand-lined conveying mechanism 33 by changing the distance between the sand-spreading roller 342 and the sand-lined conveying mechanism 33, so as to adjust the thickness of the sand attached to the asphalt shingle.

The sand-lined recycling mechanism 5 comprises a sand collecting hopper 51 which is a hollow rectangular pyramid, one end, far away from the sand lining device 3, of the sand collecting hopper 51 is provided with a rectangular sand return opening 52, one end, far away from the sand lining device 3, of the sand return opening 52 is provided with a sand return conveyor belt 53, a motor for driving the sand return conveyor belt 53 to rotate is arranged on the rack 1, and one end, far away from the sand collecting hopper 51, of the sand return conveyor belt 53 is provided with a recovery barrel 54 which is a cuboid. The sand return conveyor belt 53 is provided with a plurality of rectangular receiving plates 6, and the sand return port 52 can be a bevel port matched with the sand return conveyor belt 53. The sand falls into the sand collecting hopper 51 from the sand-lined conveying mechanism 33, falls onto the sand return conveyor belt 53 from the sand return port 52, is received by the receiving plate 6, and is collected into the recovery barrel 54 along with the transportation of the sand return conveyor belt 53, so that the sand return operation is completed.

The embodiment of the application provides a production of colored glass child asphalt shingle is with sand-lined device's implementation principle does: when the asphalt shingles are in the feeding channel 2, sand falls from the lower sand hopper 31 to the sand-coated conveying mechanism 33, and along with the rotation of the sand-coated conveying mechanism 33, the sand-coated rollers 342 in the sand-scraping assembly 34 uniformly scrape the sand on the sand-coated conveying mechanism 33, so that when the sand falls from the sand-coated conveying mechanism 33 to the asphalt shingles in the feeding channel 2, the sand can be uniformly attached to the asphalt shingles, and a better application effect is achieved; and when the sand material slips from the two sides of the asphalt shingle, the sand material falls into the sand-coated recycling mechanism 5, is collected by the sand collecting hopper 51, falls onto the sand return conveying belt 53 through the sand return port 52, is received by the receiving plate 6 on the sand return conveying belt 53, and is recovered into the recovery barrel 54 along with the rotation of the sand return conveying belt 53, so that the utilization rate of the sand material is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a production of colored glass child asphalt shingle is with covering sand device which characterized in that: the asphalt shingle sand coating machine comprises a rack (1), wherein a feeding channel (2) for conveying asphalt shingles is arranged on the rack (1), a sand coating device (3) is arranged on the feeding channel (2), and the sand coating device (3) is fixedly arranged with the rack (1); the sand coating device (3) comprises a lower sand hopper (31), a lower sand opening (32) is formed in one end, close to the feeding channel (2), of the lower sand hopper (31), a sand coating conveying mechanism (33) is arranged between the feeding channel (2) and the lower sand opening (32) in the rack (1), and a sand scraping assembly (34) is arranged at the discharge end, along the conveying direction, of the sand coating conveying mechanism (33).

2. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 1, wherein: the sand scraping assembly (34) comprises a sand scraping plate (341), and one end, close to the sand coating conveying mechanism (33), of the sand scraping plate (341) is rotatably provided with a sand spreading roller (342).

3. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 2, wherein: the sand coating machine is characterized in that an adjusting assembly (4) used for adjusting the distance between the sand spreading roller (342) and the sand coating conveying mechanism (33) is arranged on the rack (1).

4. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 3, wherein: the sand spreading roller (342) is provided with anisotropic threads (7) along two axial sides.

5. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 1, wherein: a sand-lined recycling mechanism (5) is arranged on the rack (1) and below the sand-lined device (3), and the sand-lined recycling mechanism (5) is arranged on one side, away from the sand-lined device (3), of the feeding channel (2).

6. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 5, wherein: the sand-lined recycling mechanism (5) comprises a sand collecting hopper (51), one end, far away from the sand-lined device (3), of the sand collecting hopper (51) is provided with a sand return opening (52), one end of the sand return opening (52) is provided with a sand return conveying belt (53), and one end of the sand return conveying belt (53) is provided with a recycling bin (54) for receiving sand materials.

7. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 6, wherein: and the sand return conveying belt (53) is provided with a bearing plate (6) for preventing sand materials from sliding off.

8. The sand-coating device for producing the asphalt shingle with the colored glass fiber tire as claimed in claim 6, wherein: the sand return port (52) is arranged to be a bevel port matched with the sand return conveyor belt (53).

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