CN112619771A

CN112619771A - Tail material collecting device is used in production and processing of environment-friendly sintered hollow brick

Info

Publication number: CN112619771A
Application number: CN202011457802.7A
Authority: CN
Inventors: 段远柏
Original assignee: Chongqing Jintano New Materials Technology Co ltd
Current assignee: Chongqing Jintano New Materials Technology Co ltd
Priority date: 2020-12-11
Filing date: 2020-12-11
Publication date: 2021-04-09

Abstract

The invention discloses a tailing collecting device for producing and processing an environment-friendly sintered hollow brick, which comprises: the rock crushing box is provided with a sealing structure, a crushing structure, a grinding structure, a vibration screening structure and a dust collecting structure; the dust collecting structure includes: the device comprises a dust collecting box, an L-shaped air inlet pipe, a filter cloth bracket, a clean air pipe, a flow dividing and collecting pipe, a plurality of filter bags with the same structure, a reverse fan and a filter valve; the rock crushing box has the beneficial effects that the rock crushing box is subjected to sealed feeding through the sealing structure, the rock raw materials are crushed and ground through the crushing structure and the grinding structure, the crushed and ground rocks are screened through the vibration screening structure, and meanwhile, dust generated in the rock crushing and grinding process is collected through the dust collecting structure, so that the waste of rocks is avoided.

Description

Tail material collecting device is used in production and processing of environment-friendly sintered hollow brick

Technical Field

The invention relates to the technical field of hollow brick production, in particular to an environment-friendly tailing collecting device for producing and processing sintered hollow bricks.

Background

The sintered hollow brick is mainly used for a hollow brick at a non-bearing part, is a horizontal hole, has a porosity of more than 35 percent and large and small hole size, is fired by taking clay, shale or coal gangue as main raw materials, and generates a dust raising phenomenon during the process of sintering the hollow brick.

Disclosure of Invention

The invention aims to solve the problems, designs the tail material collecting device for the production and processing of the environment-friendly sintered hollow brick, solves the problem of dust generated in the existing hollow brick production process, and simultaneously generates a certain amount of waste on rocks.

The technical scheme of the invention for realizing the aim is as follows: the utility model provides an environment-friendly sintering is tails collection device for hollow brick production and processing, includes: the rock crushing box is provided with a sealing structure, a crushing structure, a grinding structure, a vibration screening structure and a dust collecting structure;

the dust collecting structure includes: the device comprises a dust collecting box, an L-shaped air inlet pipe, a filter cloth bracket, a clean air pipe, a flow dividing and collecting pipe, a plurality of filter bags with the same structure, a reverse fan and a filter valve;

the dust collecting box is installed on the rock crushing box, the L-shaped air inlet pipe is inserted into the side wall of the bottom end of the dust collecting box and connected to the rock crushing box, the air purifying pipe is inserted into the side wall of the top end of the dust collecting box, the filter cloth support is installed in the dust collecting box, the shunting and collecting pipe is installed on the air purifying pipe, the filter bags are installed on the filter cloth support, the filter valve is installed at the bottom end of the dust collecting box, and the reverse fan is installed on the air purifying pipe.

Preferably, the sealing structure comprises: the sealing device comprises a pair of sealing cylindrical boxes with the same structure, a pair of sealing shafts with the same structure, four pairs of sealing plates with the same structure, three sealing gears with the same structure, a sealing chain and a sealing driving machine;

the pair of sealed cylindrical boxes are respectively inserted at the top end of the rock crushing box and the bottom end of the grinding structure, the pair of sealed shafts are respectively movably inserted on the pair of sealed cylindrical boxes through bearings, the sealed driving machine is installed on the rock crushing box, the three sealed gears are respectively installed on the pair of sealed shafts, the sealed chain and the driving end of the sealed driving machine, the four pairs of sealing plates are respectively and uniformly installed on the pair of sealed shafts, and the sealed chain is sleeved on the three sealed gears.

Preferably, the crushing structure comprises: the crushing and driving device comprises a pair of crushing and driving machines with the same structure, a plurality of crushing rollers with the same structure, a plurality of crushing gears with the same structure, a plurality of crushing blocks with the same structure and a pair of crushing chains with the same structure;

the crushing cylinder passes through two liang of parallel movable cartridge of bearing on the rock crushing case, a plurality of crushing gear installs a plurality of respectively on the crushing cylinder, it is a pair of crushing chain parallel suit is in a plurality of respectively on the crushing gear, a plurality of crushing piece is installed respectively in a plurality of on crushing cylinder and the rock crushing incasement side, it is a pair of crushing driving machine parallel mount is in the rock crushing incasement side respectively, and is a pair of the drive end of crushing driving machine is connected respectively in a pair of on the crushing cylinder.

Preferably, the grinding structure comprises: the grinding device comprises a plurality of grinding rollers with the same structure, a plurality of arc grinding plates with the same structure, a plurality of grinding gears with the same structure, a grinding driver and a grinding chain;

the grinding roller is movably inserted on the rock crushing box through a bearing, the circular arc grinding plates are installed on the two sides of the grinding roller respectively, the grinding gears are installed on the grinding roller respectively, the grinding chains are sleeved on the grinding roller, the grinding driver is installed on the outer side of the rock crushing box, and the driving end of the grinding driver is connected to the grinding roller.

Preferably, the vibrating screen structure comprises: the screening device comprises a screening plate, two pairs of screening support shafts with the same structure, two pairs of screening bearing blocks with the same structure, four pairs of screening springs with the same structure, a screening driving machine, a screening concave bearing block, a screening vibration shaft, a screening counterweight disc, a pair of counterweight sector blocks with the same structure, a screening belt and a pair of screening concave wheels with the same structure;

two pairs of lifting ports with the same structure are arranged on the rock crushing box, two pairs of screening bearing blocks are respectively and movably inserted in the two pairs of lifting ports, four pairs of screening springs are respectively arranged on the upper end and the lower end of the two pairs of screening bearing blocks, the other ends of the four pairs of screening springs are respectively connected with the upper end and the lower end of the two pairs of lifting ports, the two pairs of screening supporting shafts are uniformly arranged on the screening plate, and two pairs of screening support shafts are respectively inserted into the two pairs of screening bearing blocks, the screening concave bearing blocks are arranged at the bottom end of the rock crushing box, the screening vibration shaft is inserted in the screening concave bearing block, the screening counterweight disc is arranged on the screening vibration shaft, a pair of counterweight sector blocks are respectively arranged on two sides of the screening counterweight disc, the screening driving machine is arranged on the rock crushing box, and the pair of screening concave wheels are respectively arranged on the screening driving machine and the screening vibration shaft.

Preferably, the side wall of the rock crushing box is provided with a discharge opening.

Preferably, the bottom end of the rock crushing box is provided with a dust collecting box.

Preferably, the screening plate is at an angle of 30 degrees to the ground.

Preferably, a plurality of friction blocks with the same structure are arranged on the screening belt.

Preferably, the discharge opening is provided with shielding cloth.

According to the tailing collecting device for producing and processing the environment-friendly sintered hollow bricks, which is manufactured by the technical scheme, the rock crushing box is subjected to sealed feeding through the sealing structure, rock raw materials are crushed and ground through the crushing structure and the grinding structure, crushed and ground rocks are screened through the vibration screening structure, and dust generated in the rock crushing and grinding process is collected through the dust collecting structure, so that the waste of the rocks is avoided.

Drawings

FIG. 1 is a schematic sectional view of a tailing collecting device for production and processing of an environment-friendly sintered hollow brick according to the present invention.

FIG. 2 is a schematic cross-sectional side view of the tailing collecting device for the production and processing of the environment-friendly sintered hollow brick of the present invention.

FIG. 3 is a schematic top cross-sectional view of a tailing collecting device for the production and processing of an environment-friendly sintered hollow brick according to the present invention.

FIG. 4 is a schematic view of a vibrating screen structure of the tailing collecting device for the production and processing of the environment-friendly sintered hollow brick.

FIG. 5 is a schematic view of a dust collecting structure of the tail material collecting device for the production and processing of the environment-friendly sintered hollow brick.

In the figure: 1-rock crushing box; 2-a dust collection bin; 3-L type air inlet pipe; 4-a filter cloth support; 5-purifying the air pipe; 6-a flow-dividing and collecting pipe; 7-a filter bag; 8-a reverse fan; 9-a filter valve; 10-sealing the cylindrical box; 11-a seal shaft; 12-a sealing plate; 13-a seal gear; 14-a seal driver; 15-a pulverizing driver; 16-a crushing roller; 17-a crushing gear; 18-crushing the block; 19-crushing chains; 20-grinding roller; 21-arc grinding plate; 22-grinding the gear; 23-a grinding driver; 24-a grinding chain; 25-a screening plate; 26-a screening support shaft; 27-screening the bearing blocks; 28-screen spring; 29-screening driver; 30-screening the concave bearing blocks; 31-screening vibration axes; 32-screening a counterweight disc; 33-counterweight sector; 34-screening belt; 35-screening concave wheel.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, and as shown in fig. 1 to 5, an environment-friendly sintered hollow brick production and processing tailing collecting device comprises: the device comprises a rock crushing box 1, wherein a sealing structure, a crushing structure, a grinding structure, a vibration screening structure and a dust collecting structure are mounted on the rock crushing box; the dust collecting structure includes: the device comprises a dust collecting box 2, an L-shaped air inlet pipe 3, a filter cloth bracket 4, a clean air pipe 5, a flow dividing and collecting pipe 6, a plurality of filter bags 7 with the same structure, a reverse fan 8 and a filter valve 9; the dust collecting box 2 is arranged on the rock crushing box 1, the L-shaped air inlet pipe 3 is inserted into the side wall of the bottom end of the dust collecting box 2, the L-shaped air inlet pipe 3 is connected to the rock crushing box 1, the air purifying pipe 5 is inserted into the side wall of the top end of the dust collecting box 2, the filter cloth support 4 is arranged in the dust collecting box 2, the shunting and collecting pipe 6 is arranged on the air purifying pipe 5, the filter bags 7 are arranged on the filter cloth support 4, the filter valve 9 is arranged at the bottom end of the dust collecting box 2, and the reverse fan 8 is arranged on the air purifying pipe 5; the sealing structure includes: a pair of sealing cylindrical boxes 10 with the same structure, a pair of sealing shafts 11 with the same structure, four pairs of sealing plates 12 with the same structure, three sealing gears 13 with the same structure, a sealing chain and a sealing driving machine 14; the pair of sealing cylindrical boxes 10 are respectively inserted into the top end of the rock crushing box 1 and the bottom end of the grinding structure, the pair of sealing shafts 11 are respectively movably inserted into the pair of sealing cylindrical boxes 10 through bearings, the sealing driving machine 14 is installed on the rock crushing box 1, the three sealing gears 13 are respectively installed on the pair of sealing shafts 11, the sealing chains and the driving end of the sealing driving machine 14, the four pairs of sealing plates 12 are respectively and uniformly installed on the pair of sealing shafts 11, and the sealing chains are sleeved on the three sealing gears 13; the crushing structure comprises: a pair of crushing driving machines 15 with the same structure, a plurality of crushing rollers 16 with the same structure, a plurality of crushing gears 17 with the same structure, a plurality of crushing blocks 18 with the same structure and a pair of crushing chains 19 with the same structure; the crushing rollers 16 are movably inserted into the rock crushing box 1 in a pairwise parallel mode through bearings, the crushing gears 17 are respectively installed on the crushing rollers 16, a pair of crushing chains 19 are respectively sleeved on the crushing gears 17 in a parallel mode, the crushing blocks 18 are respectively installed on the crushing rollers 16 and the inner side of the rock crushing box 1, the crushing driving machines 15 are respectively installed on the outer side of the rock crushing box 1 in a parallel mode, and the driving ends of the crushing driving machines 15 are respectively connected to the crushing rollers 16; the grinding structure comprises: a plurality of grinding rollers 20 with the same structure, a plurality of arc grinding plates 21 with the same structure, a plurality of grinding gears 22 with the same structure, a grinding driver 23 and a grinding chain 24; the grinding rollers 20 are movably inserted into the rock crushing box 1 through bearings, the arc grinding plates 21 are mounted on two sides of the grinding rollers 20, the grinding gears 22 are mounted on the grinding rollers 20, the grinding chains 24 are sleeved on the grinding rollers 20, the grinding driver 23 is mounted on the outer side of the rock crushing box 1, and the driving end of the grinding driver 23 is connected to the grinding rollers 20; the vibration screening structure comprises: the screening machine comprises a screening plate 25, two pairs of screening supporting shafts 26 with the same structure, two pairs of screening bearing blocks 27 with the same structure, four pairs of screening springs 28 with the same structure, a screening driving machine 29, a screening concave bearing block 30, a screening vibration shaft 31, a screening counterweight disc 32, a pair of counterweight sector blocks 33 with the same structure, a screening belt 34 and a pair of screening concave wheels 35 with the same structure; the rock crushing box 1 is provided with two pairs of lifting ports with the same structure, two pairs of screening bearing blocks 27 are respectively and movably inserted into the two pairs of lifting ports, four pairs of screening springs 28 are respectively arranged at the upper end and the lower end of the two pairs of screening bearing blocks 27, the other ends of the four pairs of screening springs 28 are respectively connected with the upper end and the lower end of the two pairs of lifting ports, two pairs of screening support shafts 26 are uniformly arranged on the screening plate 25, two pairs of screening support shafts 26 are respectively inserted into the two pairs of screening bearing blocks 27, the screening concave bearing block 30 is arranged at the bottom end of the rock crushing box 1, the screening vibration shaft 31 is inserted into the screening concave bearing block 30, the screening balance weight disc 32 is arranged on the screening vibration shaft 31, a pair of balance weight blocks 33 are respectively arranged at the two sides of the screening balance weight disc 32, and the screening driver 29 is arranged on the rock crushing box 1, the pair of screening concave wheels 35 are respectively arranged on the screening driving machine 29 and the screening vibration shaft 31; a discharge opening is formed in the side wall of the rock crushing box 1; the bottom end of the rock crushing box 1 is provided with a dust collecting box 2; the screening plate 25 forms an angle of 30 degrees with the ground; a plurality of friction blocks with the same structure are arranged on the screening belt 34; and a shielding cloth is arranged on the discharge opening.

The present embodiment is characterized by comprising: the device comprises a rock crushing box, a grinding mechanism, a vibration screening mechanism and a dust collecting mechanism, wherein a sealing structure, a crushing structure, a grinding structure, the vibration screening mechanism and the dust collecting structure are arranged on the rock crushing box;

the dust collecting box is arranged on the rock crushing box, the L-shaped air inlet pipe is inserted into the side wall of the bottom end of the dust collecting box and connected to the rock crushing box, the air purifying pipe is inserted into the side wall of the top end of the dust collecting box, the filter cloth support is arranged in the dust collecting box, the shunting and collecting pipe is arranged on the air purifying pipe, the filter bags are arranged on the filter cloth support, the filter valves are arranged at the bottom end of the dust collecting box, and the reverse fan is arranged on the air purifying pipe; carry out sealed material loading with the rock crushing case through seal structure, smash and grind the rock raw materials through crushing structure and grinding structure, will smash the rock after grinding through vibrations screening structure and filter simultaneously, collect the dust that the structure produced rock crushing and grinding process through the dust simultaneously, avoided the waste of rock.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): the rock is poured into a sealed cylinder box 10, the sealed driving machine 14 is operated, a sealed shaft 11 on the sealed driving machine 14 is driven to rotate by the sealed driving machine 14, a sealed gear 13 on the sealed shaft 11 is driven to rotate by the sealed shaft 11, a sealed chain on the sealed shaft is driven to rotate by the sealed gear 13, another sealed gear 13 on the sealed shaft is driven to rotate by the sealed chain, the sealed shaft 11 on the sealed shaft is driven to rotate by another sealed gear 13, four pairs of sealing plates 12 on the sealed shaft are respectively driven to rotate by one pair of sealed shafts 11, the rock raw material is rotationally conveyed into the rock crushing box 1 by the sealing plates 12, a crushing roller 16 on the driving end of a crushing driving machine 15 is driven to rotate by the crushing driving machine 15, a crushing gear 17 on the crushing roller 16 is driven to rotate, a crushing chain 19 on the crushing chain is driven to rotate by the crushing gear 17, and a plurality of crushing gears, the crushing rollers 16 on the crushing rollers are driven to rotate through the plurality of crushing gears 17 respectively, the crushing blocks 18 on the crushing rollers 16 are driven to rotate through the plurality of crushing blocks 18, the rock is crushed through the rotation of the plurality of crushing blocks 18, the crushed rock falls into a grinding structure, the grinding rollers 20 on the driving end of the grinding driving machine 23 are driven to rotate through the operation of the grinding driving machine 23, the grinding gears 22 on the grinding rollers 20 are driven to rotate through the grinding gears 22, the grinding chains 24 on the grinding gears 22 are driven to rotate through the grinding chains 24, the grinding rollers 20 on the grinding rollers 22 are driven to rotate through the plurality of grinding gears 22 respectively, the crushed rock is ground into powder through the matching of the plurality of grinding rollers 20 and the plurality of arc grinding plates 21, the screening driving machine 29 operates to drive the screening concave wheels 35 on the screening driving machine 29 to rotate, the screening belt 34 on the screening concave wheel 35 is driven to rotate by the screening concave wheel 35, the screening concave wheel 35 on the screening concave wheel is driven to rotate by the screening concave wheel 35, the screening vibration shaft 31 on the screening concave wheel is driven to rotate by the screening vibration shaft 31, the screening counterweight disc 32 on the screening counterweight disc is driven to rotate by the screening counterweight disc 32, the screening counterweight disc 32 is driven to generate centrifugal vibration by the matching of the screening counterweight disc 32 projected by the counterweight disc 33, the vibration is transmitted to the screening vibration shaft 31 to rotate by the screening counterweight disc 32, the vibration is transmitted to the screening concave bearing block 30 to rotate by the screening concave bearing block 30, the vibration is transmitted to the screening plate 25 to rotate by the screening plate 25, the crushed ground rocks on the screening plate 25 are subjected to vibration screening, and simultaneously, the two pairs of screening support shafts 26 on the screening plate 25, drive two pairs of screening bearing blocks 27 above that respectively through two pairs of screening back shafts 26, through the flexible elastic deformation of four pairs of screening springs 28 on two pairs of screening bearing blocks 27, shake through screening board 25 vibrations, sieve the rock, through the reverse fan 8 operation in the dust collection structure, with production negative pressure in the dust collection box 2, press from both sides the dust of getting in 3 with the rock crushing case 1 of pipe through the L type on the dust collection box 2 and collect dust collection box 2 in, filter bag 7 through a plurality of in the dust collection box 2 and collect the rock powder.

Preferably, the sealing structure further comprises: a pair of sealing cylindrical boxes 10 with the same structure, a pair of sealing shafts 11 with the same structure, four pairs of sealing plates 12 with the same structure, three sealing gears 13 with the same structure, a sealing chain and a sealing driving machine 14;

the pair of sealing cylindrical boxes 10 are respectively inserted into the top end of the rock crushing box 1 and the bottom end of the grinding structure, the pair of sealing shafts 11 are respectively movably inserted into the pair of sealing cylindrical boxes 10 through bearings, the sealing driving machine 14 is installed on the rock crushing box 1, the three sealing gears 13 are respectively installed on the pair of sealing shafts 11, the sealing chains and the driving end of the sealing driving machine 14, the four sealing plates 12 are respectively and uniformly installed on the pair of sealing shafts 11, and the sealing chains are sleeved on the three sealing gears 13.

Preferably, the pulverization structure further comprises: a pair of crushing driving machines 15 with the same structure, a plurality of crushing rollers 16 with the same structure, a plurality of crushing gears 17 with the same structure, a plurality of crushing blocks 18 with the same structure and a pair of crushing chains 19 with the same structure;

the crushing roller 16 is inserted on the rock crushing box 1 through two pairwise parallel activities of bearing, and is a plurality of the crushing gear 17 is installed a plurality of respectively on the crushing roller 16, it is a pair of crushing chain 19 is parallel suit respectively in a plurality of on the crushing gear 17, a plurality of crushing piece 18 is installed respectively in a plurality of on crushing roller 16 and the rock crushing box 1 inboard, it is a pair of seal driving machine 15 is parallel mount respectively in the rock crushing box 1 outside, and is a pair of seal driving machine 15 drive end is connected respectively in a pair of on the crushing roller 16.

Preferably, the polishing structure further comprises: a plurality of grinding rollers 20 with the same structure, a plurality of arc grinding plates 21 with the same structure, a plurality of grinding gears 22 with the same structure, a grinding driver 23 and a grinding chain 24;

the grinding roller 20 is movably inserted on the rock crushing box 1 through a bearing, the arc grinding plates 21 are installed on the two sides of the grinding roller 20 respectively, the grinding gears 22 are installed on the grinding roller 20 respectively, the grinding chains 24 are sleeved on the grinding rollers 20, the grinding driving machine 23 is installed on the outer side of the rock crushing box 1, and the driving end of the grinding driving machine 23 is connected to the grinding rollers 20.

Preferably, the vibrating screen structure further comprises: the screening machine comprises a screening plate 25, two pairs of screening supporting shafts 26 with the same structure, two pairs of screening bearing blocks 27 with the same structure, four pairs of screening springs 28 with the same structure, a screening driving machine 29, a screening concave bearing block 30, a screening vibration shaft 31, a screening counterweight disc 32, a pair of counterweight sector blocks 33 with the same structure, a screening belt 34 and a pair of screening concave wheels 35 with the same structure;

the rock crushing box 1 is provided with two pairs of lifting ports with the same structure, two pairs of screening bearing blocks 27 are respectively and movably inserted into the two pairs of lifting ports, four pairs of screening springs 28 are respectively arranged at the upper end and the lower end of the two pairs of screening bearing blocks 27, the other ends of the four pairs of screening springs 28 are respectively connected with the upper end and the lower end of the two pairs of lifting ports, two pairs of screening support shafts 26 are uniformly arranged on the screening plate 25, two pairs of screening support shafts 26 are respectively inserted into the two pairs of screening bearing blocks 27, the screening concave bearing block 30 is arranged at the bottom end of the rock crushing box 1, the screening vibration shaft 31 is inserted into the screening concave bearing block 30, the screening balance weight disc 32 is arranged on the screening vibration shaft 31, a pair of balance weight blocks 33 are respectively arranged at the two sides of the screening balance weight disc 32, and the screening driver 29 is arranged on the rock crushing box 1, the pair of screening concave wheels 35 are attached to the screening driving machine 29 and the screening vibration shaft 31, respectively.

Preferably, the side wall of the rock crushing box 1 is provided with a discharge opening.

Preferably, the bottom end of the rock crushing box 1 is provided with a dust collecting box 2.

Preferably, the screening plate 25 is at an angle of 30 degrees to the ground.

Preferably, the screening belt 34 is provided with a plurality of friction blocks with the same structure.

Preferably, a shielding cloth is arranged on the discharge opening.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The utility model provides an environment-friendly sintering is tails collection device for hollow brick production and processing, includes: the rock crushing box (1) is characterized in that a sealing structure, a crushing structure, a grinding structure, a vibration screening structure and a dust collecting structure are mounted on the rock crushing box (1);

the dust collecting structure includes: the device comprises a dust collecting box (2), an L-shaped air inlet pipe (3), a filter cloth bracket (4), an air purifying pipe (5), a flow dividing and collecting pipe (6), a plurality of filter bags (7) with the same structure, a reverse fan (8) and a filter valve (9);

the dust collecting box (2) is installed on the rock crushing box (1), the L-shaped air inlet pipe (3) is inserted into the side wall of the bottom end of the dust collecting box (2), the L-shaped air inlet pipe (3) is connected onto the rock crushing box (1), the air purifying pipe (5) is inserted into the side wall of the top end of the dust collecting box (2), the filter cloth support (4) is installed in the dust collecting box (2), the shunting collecting pipe (6) is installed on the air purifying pipe (5), the filter bag (7) is installed on the filter cloth support (4), the filter valve (9) is installed at the bottom end of the dust collecting box (2), and the reverse fan (8) is installed on the air purifying pipe (5).

2. The environment-friendly sintered hollow brick production and processing tailings collecting device as claimed in claim 1, wherein the sealing structure comprises: a pair of sealing cylindrical boxes (10) with the same structure, a pair of sealing shafts (11) with the same structure, four pairs of sealing plates (12) with the same structure, three sealing gears (13) with the same structure, a sealing chain and a sealing driving machine (14);

the pair of sealing cylindrical boxes (10) are respectively inserted into the top end of the rock crushing box (1) and the bottom end of the grinding structure, the pair of sealing shafts (11) are respectively movably inserted into the pair of sealing cylindrical boxes (10) through bearings, the sealing driving machine (14) is installed on the rock crushing box (1), the pair of sealing gears (13) are respectively installed on the pair of sealing shafts (11), the pair of sealing chains and the driving end of the sealing driving machine (14), the pair of sealing plates (12) are respectively and uniformly installed on the pair of sealing shafts (11), and the pair of sealing chains are sleeved on the pair of sealing gears (13).

3. The environment-friendly sintered hollow brick production and processing tailings collecting device as claimed in claim 1, wherein the crushing structure comprises: a pair of crushing driving machines (15) with the same structure, a plurality of crushing rollers (16) with the same structure, a plurality of crushing gears (17) with the same structure, a plurality of crushing blocks (18) with the same structure and a pair of crushing chains (19) with the same structure;

a plurality of crushing cylinder (16) are through two liang of parallel movable cartridge of bearing on rock crushing case (1), a plurality of install a plurality of respectively crushing gear (17) crushing cylinder (16) are last, and is a pair of crushing chain (19) parallel suit is in a plurality of respectively on crushing gear (17), a plurality of crushing piece (18) are installed in a plurality of respectively crushing cylinder (16) and rock crushing case (1) are inboard on, and are a pair of smash driver (15) parallel mount respectively in the rock crushing case (1) outside, and it is a pair of smash driver (15) drive end and connect respectively in a pair of on crushing cylinder (16).

4. The apparatus as claimed in claim 1, wherein the grinding structure comprises: a plurality of grinding rollers (20) with the same structure, a plurality of arc grinding plates (21) with the same structure, a plurality of grinding gears (22) with the same structure, a grinding driving machine (23) and a grinding chain (24);

the grinding roller (20) is movably inserted on the rock crushing box (1) through a bearing, the arc grinding plates (21) are installed on the grinding roller (20) in a plurality of mode respectively, the grinding gears (22) are installed on the grinding roller (20) in a plurality of mode respectively, the grinding chain (24) is sleeved on the grinding roller (20), the grinding driving machine (23) is installed on the outer side of the rock crushing box (1), and the driving end of the grinding driving machine (23) is connected to the grinding roller (20).

5. The environment-friendly sintered hollow brick production and processing tailings collection device of claim 1 wherein the vibrating screen structure comprises: the screening machine comprises a screening plate (25), two pairs of screening support shafts (26) with the same structure, two pairs of screening bearing blocks (27) with the same structure, four pairs of screening springs (28) with the same structure, a screening driving machine (29), a screening concave bearing block (30), a screening vibration shaft (31), a screening counterweight disc (32), a pair of counterweight sector blocks (33) with the same structure, a screening belt (34) and a pair of screening concave wheels (35) with the same structure;

two pairs of lifting ports with the same structure are formed in the rock crushing box (1), two pairs of screening bearing blocks (27) are respectively and movably inserted into the two pairs of lifting ports, four pairs of screening springs (28) are respectively installed on the upper end and the lower end of the two pairs of screening bearing blocks (27), the other ends of the four pairs of screening springs (28) are respectively connected to the upper end and the lower end of the two pairs of lifting ports, two pairs of screening support shafts (26) are uniformly installed on a screening plate (25), the two pairs of screening support shafts (26) are respectively inserted into the two pairs of screening bearing blocks (27), the screening concave bearing blocks (30) are installed on the bottom end of the rock crushing box (1), the screening vibration shaft (31) is inserted into the screening bearing blocks (30), the screening counterweight disc (32) is installed on the screening vibration shaft (31), and one pair of counterweight sector blocks (33) are respectively installed on two sides of the screening counterweight disc (32), the screening driving machine (29) is arranged on the rock crushing box (1), and the pair of screening concave wheels (35) are respectively arranged on the screening driving machine (29) and the screening vibration shaft (31).

6. The environment-friendly sintered hollow brick production and processing tailing collecting device as claimed in claim 1, wherein a discharge opening is formed in the side wall of the rock crushing box (1).

7. The environment-friendly sintered hollow brick production and processing tailings collecting device as claimed in claim 1, wherein the bottom end of the rock crushing box (1) is provided with a dust collecting box (2).

8. The environment-friendly sintered hollow brick production and processing tailings collection device of claim 5, wherein the screening plate (25) forms an angle of 30 degrees with the ground.

9. The environment-friendly sintered hollow brick production and processing tailings collecting device as claimed in claim 8, wherein the screening belt (34) is provided with a plurality of friction blocks with the same structure.

10. The environment-friendly sintered hollow brick production and processing tailing collecting device as claimed in claim 6, wherein a shielding cloth is arranged on the discharge opening.