CN219094816U - Mosaic piece surface desanding device - Google Patents

Abstract

A mosaic piece surface desanding device belongs to the technical field of mosaic piece surface treatment. In the prior art, corundum powder on the surface of the mosaic sheet is manually erased, dust pollution is caused, and the erasure efficiency is low. The utility model comprises a conveying belt, a dust cover, a sand blasting system and a suction system; the conveyer belt sets up in the dust cover, and sand blasting system and suction system connect gradually the dust cover along the direction of delivery of conveyer belt to sand blasting system and suction system all communicate with the conveyer belt upper surface. After the mosaic piece is subjected to resin sand blasting treatment of a sand blasting system, corundum powder on the surface falls off or loosens, and sand blasted resin sand is collected from the lower part of the conveying belt; and after suction, the surface corundum powder can be completely removed. Safety and no environmental pollution; greatly improves the production efficiency.

Description

Mosaic piece surface desanding device

Technical Field

A mosaic piece surface desanding device belongs to the technical field of mosaic piece surface treatment.

Background

The mosaic piece is also called a ceramic mosaic piece, and is a common ceramic ornament material. The mosaic sheet has the main functions of being adhered to the surfaces of various buildings or devices to form a mosaic effect, and has the functions of decoration, protection and the like.

In the production process, the mosaic piece is easy to adhere and not easy to separate when being stacked because the surface of the mosaic piece is smooth and flat, a layer of corundum powder is generally paved on the surface of the mosaic piece after the production of the mosaic piece, and the mosaic piece is not easy to separate and use because the mosaic piece is stacked and placed. However, before leaving the factory, the corundum powder on the surface of the product must be removed to restore brightness and flatness so as to meet the requirements of customers.

In the prior art, the surface is generally erased manually, on one hand, a great amount of dust pollution is generated in the erasing process, the physical health of workers is seriously affected, and on the other hand, the erasing efficiency is extremely low, the common wiping is difficult to completely wipe cleanly, and the wiping speed is low.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: overcomes the defects of the prior art and provides a safe and efficient mosaic piece surface sand removing device.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a mosaic piece surface desanding device which characterized in that: comprises a conveying belt, a dust cover, a sand blasting system and a suction system; the conveyer belt sets up in the dust cover, and sand blasting system and suction system all set up in the upside of conveyer belt, and sand blasting system and suction system set gradually along the direction of delivery of conveyer belt to sand blasting system and suction system all communicate with the conveyer belt upper surface.

After the ceramic mosaic piece is stuck on the sticking board to form a board, the board is placed on a conveyer belt, a sand removing device on the surface of the mosaic piece is started, the conveyer belt, a sand blasting system and a suction system are synchronously started, after the mosaic piece is subjected to resin sand blasting treatment of the sand blasting system, corundum powder on the surface falls off or loosens, and sand blasted resin sand is collected from the lower part of the conveyer belt; and after suction, the surface corundum powder can be completely removed. Can be continuously placed on a conveyer belt to realize continuous treatment.

Preferably, the bottom of the dust cover is of an opening structure.

The opening at the bottom of the dust cover is convenient for the resin sand sprayed out by the sand blasting system to fall down and collect, and is convenient to collect.

Preferably, the sand blasting system comprises a sand blasting box and a sand blasting nozzle; the sand blasting nozzle is arranged in the sand blasting box, the sand blasting nozzle faces the conveying belt, and a feeding door is arranged on one side of the sand blasting box.

The sand blasting nozzle controls the sand blasting direction, and the sand blasting nozzle generally penetrates through the wall of the sand blasting box to be externally connected with a sand supply system.

Further preferably, a plurality of sand blasting nozzles are arranged in the sand blasting box.

Further preferably, the outlet side surface of the sand-blasting nozzle is connected with the sand-blasting box through a fixed steel wire.

Further preferably, a fixing lug is arranged at the top or the side surface of the sand spraying box, a through hole is formed in the middle of the fixing lug, one end of the fixing steel wire is connected with the sand spraying nozzle, and the other end of the fixing steel wire is connected with the fixing lug.

Further preferably, the number of the fixed steel wires is two, and the fixed steel wires are respectively arranged at two sides of the outlet of the blast nozzle.

Through the length of adjusting fixed steel wire, can adjust the different sandblast angles of sandblast mouth, can carry out the targeted processing to the mosaic piece surface condition of different degree, when the sandblast direction of sandblast mouth is certain contained angle slope sandblast with the conveyer belt surface, can high-efficient degritting, can avoid the mosaic piece surface fish tail again, efficiency is highest.

Further preferably, the fixing lug is arranged above the top of the sandblasting box, so that the angle of the sandblasting nozzle can be conveniently adjusted by a worker from the outside of the sandblasting box.

Further preferably, the feed gate is disposed at an end of the sandblasting tank remote from the sandblasting nozzle.

Further preferably, the feed door is provided with a window.

Preferably, the suction system comprises a suction bin, and the bottom of the suction bin is communicated with the dust cover; the bottom of the suction bin is provided with a reducing structure with gradually increased diameter along the direction approaching to the dust cover.

Compared with the prior art, the utility model has the following beneficial effects: after the ceramic mosaic piece is stuck on the sticking board to form a board, the board is placed on a conveyer belt, a sand removing device on the surface of the mosaic piece is started, the conveyer belt, a sand blasting system and a suction system are synchronously started, after the mosaic piece is subjected to resin sand blasting treatment of the sand blasting system, corundum powder on the surface falls off or loosens, and sand blasted resin sand is collected from the lower part of the conveyer belt; and after suction, the surface corundum powder can be completely removed. Can be continuously placed on a conveyer belt to realize continuous treatment. The workers do not need to contact dust in the whole process, so that the safety is improved, and no environmental pollution is caused; the corundum powder removing efficiency is high, the corundum powder removing device is cleaner, the product quality is better, the treatment speed is higher, and the production efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of a mosaic piece surface desanding device.

Fig. 2 is a schematic diagram of the internal structure of the mosaic piece surface desanding device.

Wherein, 1, a suction bin; 2. a sand blasting pipe; 3. a fixed ear; 4. a feed gate; 5. a window; 6. a dust cover; 7. a conveyor belt; 8. fixing the steel wire; 9. a blast nozzle; 10. and (5) spraying a sand box.

Detailed Description

The utility model is further described below with reference to fig. 1-2.

Referring to fig. 1-2: the mosaic piece surface desanding device comprises a sand blasting system, a dust collection system and a conveying system; the sand blasting system and the dust collection system are respectively communicated with the conveying system.

The conveying system comprises a dust cover 6 and a conveying belt 7, the conveying belt 7 is arranged in the dust cover 6, the bottom of the dust cover 6 is of an opening structure, and the top of the dust cover is sequentially provided with a sand blasting system and a dust collection system along the conveying direction of the conveying belt 7.

The sand blasting system comprises a sand blasting box 10, a sand blasting nozzle 9 and a sand blasting pipe 2, wherein the sand blasting nozzle 9 is arranged in the sand blasting box 10, the sand blasting nozzle 9 faces the direction of the conveying belt 7, two sides of the outlet of the sand blasting nozzle 9 are respectively provided with a fixed steel wire 8, one end of the fixed steel wire 8 is connected with the outer wall of the outlet of the sand blasting nozzle 9, and the other end of the fixed steel wire is connected with the sand blasting box 10. The outer surface of the top of the sand-blasting box 10 is provided with a plurality of fixing lugs 3 with through holes in the middle, and each fixing steel wire 8 penetrates through the fixing lug 3 to be connected with the sand-blasting box 10. The direction of the blast nozzle 9 can be adjusted within a certain angle by adjusting the different lengths of the fixing wires 8 passing through the fixing lugs 3. The number of the sand spraying nozzles 9 is three, and the sand spraying nozzles are respectively externally connected to a sand supply device through the sand spraying pipe 2.

The side of the sand-blasting box 10 is further provided with a feeding door 4 at one end far away from the sand-blasting nozzle 9, and a window 5 is arranged on the feeding door 4.

The dust collection system comprises a suction bin 1, the bottom of the suction bin 1 is of a diameter-changing structure with the diameter increased along the direction approaching to the conveying system, and the upper part of the suction bin 1 is communicated with a suction machine.

After the ceramic mosaic piece is stuck on a sticking board to form a board, the board is placed on a conveying belt 7 from a feed gate 4, a sand removing device on the surface of the mosaic piece is started, the conveying belt 7, a sand blasting system and a suction system are synchronously started, after the mosaic piece is subjected to resin sand blasting treatment of the sand blasting system, corundum powder on the surface falls off or loosens, and sand blasted resin sand is collected from the lower part of a dust cover 6; and after suction, the surface corundum powder can be completely removed. Can be continuously placed on the conveyer belt 7 to realize continuous treatment.

The above description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, and any person skilled in the art may make modifications or alterations to the disclosed technical content to the equivalent embodiments. However, any simple modification, equivalent variation and variation of the above embodiments according to the technical substance of the present utility model still fall within the protection scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides a mosaic piece surface desanding device which characterized in that: comprises a conveying belt (7), a dust cover (6), a sand blasting system and a suction system; the conveyer belt (7) sets up in dust cover (6), and sand blasting system and suction system all set up in the upside of conveyer belt (7), and sand blasting system and suction system set gradually along the direction of delivery of conveyer belt (7) to sand blasting system and suction system all communicate with conveyer belt (7) upper surface.

2. The mosaic piece surface desanding device of claim 1, wherein: the bottom of the dust cover is of an opening structure.

3. The mosaic piece surface desanding device of claim 1, wherein: the sand blasting system comprises a sand blasting box (10) and a sand blasting nozzle (9); the sand blasting nozzle (9) is arranged in the sand blasting box (10), the sand blasting nozzle (9) faces the conveying belt (7), and a feeding door (4) is arranged on one side of the sand blasting box (10).

4. A mosaic tile surface desanding device as claimed in claim 3, wherein: the sand blasting nozzles (9) are arranged in the sand blasting box (10).

5. A mosaic tile surface desanding device as claimed in claim 3, wherein: the outlet side surface of the sand-blasting nozzle (9) is connected with a sand-blasting box (10) through a fixed steel wire (8).

6. The mosaic piece surface desanding device of claim 5, wherein: the top or the side of the sand-blasting box (10) is provided with a fixing lug (3), the middle part of the fixing lug (3) is provided with a through hole, one end of a fixing steel wire (8) is connected with a sand-blasting nozzle (9), and the other end is connected with the fixing lug (3).

7. The mosaic piece surface desanding device of claim 5, wherein: the number of the fixed steel wires (8) is two, and the fixed steel wires are respectively arranged at two sides of the outlet of the blast nozzle (9).

8. A mosaic tile surface desanding device as claimed in claim 3, wherein: the feeding door (4) is arranged at one end of the sand blasting box (10) far away from the sand blasting nozzle (9).

9. A mosaic tile surface desanding device as claimed in claim 3, wherein: the feeding door (4) is provided with a window (5).

10. The mosaic piece surface desanding device of claim 1, wherein: the suction system comprises a suction bin (1), and the bottom of the suction bin (1) is communicated with a dust cover (6); the bottom of the suction bin (1) is provided with a reducing structure with gradually increased diameter along the direction close to the dust cover (6).

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