CN218065906U - Production of sintered perforated brick is with environmental protection clearance type sintering device - Google Patents

Abstract

The utility model discloses an environmental protection clearance type sintering device is used in production of sintering perforated brick relates to sintering device technical field, including sintering cabinet main part, sealed cabinet door, the inside of sintering cabinet main part is provided with a plurality of sintering boards, clearance mechanism. The utility model discloses a set up clearance mechanism, sealed cabinet door and sintering cabinet main part alternate segregation, remove the extrusion to the shrink post, the shrink post drives the backup pad and removes the extrusion to reset spring, the shrink post removes and removes the extrusion to the fixed column, remove the extrusion to supporting spring, supporting spring promotes the fixed column and shifts out from sintering inboard portion, it is fixed to remove the connection of movable block and sintering board, promote the movable block and remove in sintering board one end, it removes to drive the support column, it removes the clearance of accomplishing the top to the sintering board to drive the clearance brush, can accomplish the clearance operation to sintering board top iron silk screen.

Description

Production of sintered perforated brick is with environmental protection clearance type sintering device

Technical Field

The utility model relates to a sintering device technical field specifically is an environmental protection clearance type sintering device is used in production of sintering perforated brick.

Background

The porous brick is a porous brick which is formed by molding and roasting clay, shale and fly ash serving as main raw materials, has the hole rate of equal to or more than 15 percent, has round holes or non-round holes and has small size and large number of holes, is called as a porous brick and is mainly suitable for a load-bearing wall body.

According to chinese bulletin "CN210374561U", a sintering device for producing sintered porous bricks is disclosed, which relates to the technical field of porous brick production, and comprises a sintering box with a rectangular cross section, wherein a bearing frame is arranged in the sintering box, a partition plate is arranged on the upper side of the sintering box, a rotating shaft penetrates through the left side of the sintering box, a connecting shaft is arranged on the left side of the sintering box, a hollow shaft is arranged on the right side of the sintering box, and a sintering disc is arranged in the bearing frame. The utility model discloses in, through the cooperation between dehumidifier, heater, fan, hot-blast case, jet-propelled head and the hollow shaft, reached the effect of thermal current circulation, make the thermal current distribute more evenly, improved the efficiency of sintering, driving motor passes through the rotation axis and drives gear revolve, and the gear drives the sintering dish through bearing the frame and reciprocates in sintering incasement portion, makes porous brick and hot-fluid fully contact, has increased the quality of sintering.

Although can solve sintering device in the above-mentioned patent and lead to the lower problem of its sintering efficiency owing to do not possess the heat flow circulation function, but current porous brick is when the production sintering, need put the porous brick embryo in the sintered plate top and sinter, but the sintered plate is after accomplishing the sintering, the wire netting surface of sintered plate top has a large amount of porous brick fritters, this staff's of not being convenient for clearance, it is poor to lead to the sintering effect of porous brick easily, and the porous brick fritter after the clearance is not convenient for at recycle, lead to the waste of resource easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an: in order to solve the problem that the surface of the wire netting above the sintering plate has a large number of porous brick fine blocks to influence the sintering effect of the sintering plate and the cleaned porous brick fragments are not beneficial to recycling, the environment-friendly cleaning type sintering device for producing the sintered porous bricks is provided.

In order to achieve the above purpose, the utility model provides a following technical scheme: an environment-friendly cleaning type sintering device for producing sintered porous bricks is characterized in that a sealing cabinet door is arranged at one end of a sintering cabinet main body, a plurality of sintering plates are arranged inside the sintering cabinet main body, and a cleaning mechanism penetrating into the sintering plates is arranged on one side of each sintering plate;

the cleaning mechanism comprises a moving block, two shrinkage columns, two supporting plates and two return springs, the moving block is located on one side of the sintering plate and penetrates into the sintering plate, the shrinkage columns are located at one ends of the moving block and penetrate into the moving block, the two supporting plates are located inside the moving block and are respectively located at the top end and the bottom end of each shrinkage column, and the return springs are located at one ends of the supporting plates and are sleeved with the outer walls of the shrinkage columns;

and a collecting mechanism penetrating into the sintering plate is arranged on one side of the sintering plate, which is far away from the moving block, and is used for collecting the porous brick fragments on the surface of the sintering plate.

As the utility model discloses further scheme again: the cleaning mechanism further comprises a supporting column, a cleaning brush, a fixing column and a supporting spring, the supporting column is located at the top end, far away from the sintering plate, of the moving block, the cleaning brush is located at one end of the supporting column, the fixing column is located at one end, far away from the supporting plate, of the shrinkage column and penetrates through the sintering plate, and the supporting spring is located at the bottom end of the fixing column.

As the utility model discloses further scheme again: collect mechanism is including collecting box, shrink piece, shrink spring, card post, spacing spring, limiting plate, erection column and spring No. one, collect the box and be located the sintering board and keep away from the one end of movable block to run through the inside to the sintering board, the shrink piece has two, two the shrink piece is located the both sides of collecting the box respectively to run through the inside to collecting the box, the shrink spring is located the inside of collecting the box, and is located one side of shrink piece, the card post is located the inside of collecting the box, and is located the one end of shrink piece, spacing spring is located one side of card post, the limiting plate is located the one end of spacing spring, the erection column is located one side that the shrink piece was kept away from to the spring to run through the inside to the sintering board, a spring is located the one end of erection column.

As the utility model discloses further scheme again: the bottom of the moving block is provided with a sliding block, a sliding groove matched with the sliding block at the bottom end of the moving block is formed in the sintering plate, and the sealing cabinet door is rotatably connected with the sintering cabinet main body through a hinge.

As a further aspect of the present invention: the movable block is internally provided with a telescopic groove matched with the telescopic column, a spring groove matched with the reset spring is arranged in the movable block, and a fixing groove matched with the support spring is arranged in the sintering plate.

As a further aspect of the present invention: the inside of sintering board is provided with the hang plate, the inside of sintering board be provided with collect box assorted collecting vat, the inside of sintering board be provided with erection column assorted mounting groove.

As the utility model discloses further scheme again: the inside of collecting the box is provided with and contracts piece assorted shifting chute, the one end of contracting the piece be provided with calorie post assorted draw-in groove, the inside of collecting the box be provided with limiting plate assorted spacing groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the arrangement of the cleaning mechanism, the sealing cabinet door and the sintering cabinet main body are separated from each other, the compression on the compression column is relieved, the compression column drives the supporting plate to relieve the compression on the reset spring, the reset spring pushes the supporting plate to move to drive the compression column to move, the compression on the fixed column is relieved by the compression on the fixed column, the fixed column is pushed by the supporting spring to move out of the sintering plate, the connection and fixation between the moving block and the sintering plate are relieved, the moving block is pushed to move at one end of the sintering plate to drive the supporting column to move, the cleaning brush is driven to move to finish the cleaning of the top end of the sintering plate, and through the mutual matching of the parts, the cleaning operation on the iron wire mesh at the top end of the sintering plate can be finished;

2. through setting up the collection mechanism, the porous brick fragment after the clearance passes through the inside hang plate of sintered plate and removes to collecting the box inside, press the shrink piece of collecting the box both sides, the shrink of extrusion shrink spring shrink, make the shrink piece remove inside the collection box, remove the extrusion to the card post, remove the extrusion to spacing spring, make spacing spring drive the card post under the support of spacing plate and remove, remove the extrusion to the erection column, remove the extrusion to a spring, a spring promotes the erection column and shifts out from the sintered plate is inside, it is fixed to remove the connection of collecting box and sintered plate, shift out the collection box from the sintered plate is inside, through the mutually supporting between above a plurality of parts, can accomplish to withdraw the porous brick fragment after the clearance and utilize.

Drawings

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

FIG. 2 is a sectional view of the sintering cabinet main body of the present invention;

FIG. 3 is a cross-sectional view of the sintered plate of the present invention;

FIG. 4 is an enlarged view of the point A of the present invention;

fig. 5 is an enlarged view of the position B of the present invention.

In the figure: 1. a sintering cabinet main body; 101. sealing the cabinet door; 2. sintering the plate; 3. a cleaning mechanism; 301. a moving block; 302. a support column; 303. cleaning brushes; 304. a contracting column; 305. a support plate; 306. a return spring; 307. fixing the column; 308. a support spring; 4. a collection mechanism; 401. a collection box; 402. a contraction block; 403. a retraction spring; 404. clamping the column; 405. a limiting spring; 406. a limiting plate; 407. mounting a column; 408. a first spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, an environment-friendly cleaning type sintering apparatus for producing sintered porous bricks includes a sintering cabinet main body 1, a sealing cabinet door 101 is disposed at one end of the sintering cabinet main body 1, a plurality of sintering plates 2 are disposed inside the sintering cabinet main body 1, and a cleaning mechanism 3 penetrating into the sintering plates 2 is disposed at one side of each sintering plate 2;

the cleaning mechanism 3 comprises a moving block 301, two retracting columns 304, two supporting plates 305 and two return springs 306, wherein the moving block 301 is positioned on one side of the sintering plate 2 and penetrates into the sintering plate 2, the retracting columns 304 are positioned at one end of the moving block 301 and penetrate into the moving block 301, the two supporting plates 305 are positioned in the moving block 301 and are respectively positioned at the top end and the bottom end of the retracting columns 304, and the return springs 306 are positioned at one end of the supporting plates 305 and are sleeved with the outer walls of the retracting columns 304;

one side of the sintering plate 2 far away from the moving block 301 is provided with a collecting mechanism 4 penetrating into the sintering plate 2, and the collecting mechanism is used for collecting porous brick fragments on the surface of the sintering plate 2.

In this embodiment: through sealed cabinet door 101 and sintering cabinet main part 1 alternate segregation, make clearance mechanism 3 clear up 2 tops of sintered plate to make collection mechanism 4 accomplish the fragment after 2 clearance of sintered plate and collect, can accomplish the clearance operation to 2 surperficial sintered plates.

Referring to fig. 1 to 4, the cleaning mechanism 3 further includes a supporting pillar 302, a cleaning brush 303, a fixing pillar 307, and a supporting spring 308, the supporting pillar 302 is located at the top end of the moving block 301 far away from the sintering plate 2, the cleaning brush 303 is located at one end of the supporting pillar 302, the fixing pillar 307 is located at one end of the contracting pillar 304 far away from the supporting plate 305 and penetrates into the sintering plate 2, and the supporting spring 308 is located at the bottom end of the fixing pillar 307.

In this embodiment: the sealing cabinet door 101 and the sintering cabinet main body 1 are separated from each other, the compression of the contraction columns 304 is relieved, the contraction columns 304 drive the supporting plates 305 to relieve the compression of the return springs 306, the return springs 306 push the supporting plates 305 to move, the supporting plates 305 move to drive the contraction columns 304 to move, the contraction columns 304 move to relieve the compression of the fixing columns 307, the fixing columns 307 relieve the compression of the supporting springs 308, the supporting springs 308 push the fixing columns 307 to move out of the sintering plate 3, the fixing of the moving blocks 301 and the sintering plate 2 is relieved, the moving blocks 301 are pushed to move at one end of the sintering plate 2, the moving blocks 301 move to drive the supporting columns 302 to move, the supporting columns 302 move to drive the cleaning brushes 303 to move, the cleaning brushes 303 move to clean the top ends of the sintering plate 2, and accordingly the cleaning operation of the wire netting on the top ends of the sintering plate 2 can be completed.

Please refer to fig. 3 to 5, the collecting mechanism 4 includes a collecting box 401, two shrinking blocks 402, two shrinking springs 403, two fastening posts 404, a limiting spring 405, a limiting plate 406, a mounting post 407, and a spring 408, the collecting box 401 is located at an end of the sintering plate 2 far from the moving block 301 and penetrates into the sintering plate 2, the two shrinking blocks 402 are respectively located at two sides of the collecting box 401 and penetrate into the collecting box 401, the shrinking spring 403 is located inside the collecting box 401 and at one side of the shrinking blocks 402, the fastening posts 404 are located inside the collecting box 401 and at one end of the shrinking blocks 402, the limiting spring 405 is located at one side of the fastening posts 404, the limiting plate 406 is located at one end of the limiting spring 405, the mounting post 407 is located at an end of the spring 408 far from the shrinking blocks 402 and penetrates into the sintering plate 2, and the spring 408 is located at one end of the mounting post 407.

In this embodiment: the cleaned porous brick fragments move into the collecting box 401 through the inclined plate in the sintering plate 2, then the contraction blocks 402 on the two sides of the collecting box 401 are pressed, the contraction blocks 402 extrude the contraction springs 403 to contract, the contraction blocks 402 move in the collecting box 401, the contraction blocks 402 relieve extrusion on the clamping columns 404, the clamping columns 404 relieve extrusion on the limiting springs 405, the limiting springs 405 drive the clamping columns 404 to move under the support of the limiting plates 406, the clamping columns 404 move to relieve extrusion on the mounting columns 407, the mounting columns 407 relieve extrusion on the springs 408, the springs 408 push the mounting columns 407 to move, the mounting columns 407 move out from the sintering plate 2, connection and fixation between the collecting box 401 and the sintering plate 2 are relieved, the collecting box 401 is moved out from the inside of the sintering plate 2, and the cleaned porous brick fragments can be recovered and utilized.

Please refer to fig. 1 to 4, the bottom end of the moving block 301 is provided with a sliding block, the sintering plate 2 is internally provided with a sliding chute matched with the sliding block at the bottom end of the moving block 301, and the sealing cabinet door 101 is rotatably connected with the sintering cabinet main body 1 through a hinge.

In this embodiment: and then, the moving block 301 is pushed to move at one end of the sintering plate 2, the moving block 301 moves to drive the supporting column 302 to move, the supporting column 302 moves to drive the cleaning brush 303 to move, the cleaning brush 303 moves to clean the top end of the sintering plate 2, and the operation of cleaning the iron wire net on the top end of the sintering plate 2 can be completed.

Please refer to fig. 1 to 4, a telescopic slot matching with the telescopic post 304 is disposed inside the moving block 301, a spring slot matching with the return spring 306 is disposed inside the moving block 301, and a fixing slot matching with the supporting spring 308 is disposed inside the sintered plate 2.

In this embodiment: the sealing cabinet door 101 and the sintering cabinet body 1 are separated from each other, the compression on the shrinkage column 304 is released, the compression on the supporting spring 308 is released by the fixing column 307, and the supporting spring 308 pushes the fixing column 307 to move out of the sintering plate 3, so that the connection and fixation of the moving block 301 and the sintering plate 2 can be released.

Please refer to fig. 3 to 5, the inside of the sintering plate 2 is provided with an inclined plate, the inside of the sintering plate 2 is provided with a collecting tank matched with the collecting box 401, and the inside of the sintering plate 2 is provided with a mounting groove matched with the mounting post 407.

In this embodiment: the cleaned porous brick fragments move to the interior of the collecting box 401 through the inclined plate in the sintering plate 2, the first spring 408 pushes the mounting column 407 to move, the mounting column 407 moves out of the interior of the sintering plate 2, the collecting box 401 and the sintering plate 2 are not fixedly connected, the collecting box 401 is moved out of the interior of the sintering plate 2, and the cleaned porous brick fragments can be recovered and utilized.

Referring to fig. 3 to 5, a moving groove matched with the contracting block 402 is formed in the collecting box 401, a locking groove matched with the locking post 404 is formed at one end of the contracting block 402, and a limiting groove matched with the limiting plate 406 is formed in the collecting box 401.

In this embodiment: the contraction blocks 402 on the two sides of the collection box 401 are pressed, the contraction blocks 402 extrude the contraction springs 403 to contract, the contraction blocks 402 move in the collection box 401, the contraction blocks 402 release the extrusion on the clamping columns 404, the clamping columns 404 release the extrusion on the limiting springs 405, the limiting springs 405 drive the clamping columns 404 to move under the support of the limiting plates 406, and the extrusion on the mounting columns 407 can be released.

The above-mentioned, only be the embodiment of the preferred of the present invention, nevertheless the utility model discloses a protection scope is not limited to this, and any technical personnel familiar with this technical field is in the technical scope of the utility model discloses an according to the utility model discloses a technical scheme and utility model design in addition the replacement of equality or change, all should be covered within the protection scope of the utility model.

Claims (7)

1. An environment-friendly cleaning type sintering device for producing sintered porous bricks comprises a sintering cabinet main body (1), wherein a sealing cabinet door (101) is arranged at one end of the sintering cabinet main body (1), and is characterized in that a plurality of sintering plates (2) are arranged inside the sintering cabinet main body (1), and a cleaning mechanism (3) penetrating into the sintering plates (2) is arranged on one side of each sintering plate (2);

the cleaning mechanism (3) comprises a moving block (301), two shrinkage columns (304), two supporting plates (305) and two return springs (306), wherein the moving block (301) is located on one side of the sintering plate (2) and penetrates into the sintering plate (2), the shrinkage columns (304) are located at one end of the moving block (301) and penetrate into the moving block (301), the two supporting plates (305) are located inside the moving block (301) and are respectively located at the top end and the bottom end of the shrinkage columns (304), and the return springs (306) are located at one end of the supporting plates (305) and are sleeved with the outer walls of the shrinkage columns (304);

and a collecting mechanism (4) penetrating into the sintering plate (2) is arranged on one side of the sintering plate (2) far away from the moving block (301) and is used for collecting the porous brick fragments on the surface of the sintering plate (2).

2. The environment-friendly cleaning type sintering device for producing the sintered porous bricks, as claimed in claim 1, wherein the cleaning mechanism (3) further comprises a supporting column (302), a cleaning brush (303), a fixing column (307) and a supporting spring (308), the supporting column (302) is located at the top end of the moving block (301) far away from the sintered plate (2), the cleaning brush (303) is located at one end of the supporting column (302), the fixing column (307) is located at one end of the shrinking column (304) far away from the supporting plate (305) and penetrates into the sintered plate (2), and the supporting spring (308) is located at the bottom end of the fixing column (307).

3. An environmentally friendly cleaning type sintering device for producing sintered porous bricks, according to claim 1, wherein the collecting mechanism (4) comprises a collecting box (401), two shrinking blocks (402), two shrinking columns (404), two limiting springs (405), two limiting plates (406), two mounting columns (407) and a spring (408), the collecting box (401) is located at one end of the sintering plate (2) far away from the moving block (301) and penetrates into the sintering plate (2), the two shrinking blocks (402) are respectively located at two sides of the collecting box (401) and penetrate into the collecting box (401), the shrinking springs (403) are located inside the collecting box (401) and at one side of the shrinking blocks (402), the two shrinking columns (402) are located inside the collecting box (401) and at one end of the shrinking blocks (402), the limiting springs (405) are located at one side of the clamping columns (406), the spring (405) is located at one end of the mounting columns (407) far away from the spring (408), and the spring (408) is located at one side of the mounting columns (407).

4. The environment-friendly cleaning type sintering device for producing sintered perforated bricks as claimed in claim 2, wherein the bottom end of the moving block (301) is provided with a sliding block, the inside of the sintering plate (2) is provided with a sliding groove matched with the sliding block at the bottom end of the moving block (301), and the sealing cabinet door (101) is rotatably connected with the sintering cabinet main body (1) through a hinge.

5. The environment-friendly cleaning type sintering device for producing sintered perforated bricks, as claimed in claim 2, wherein the moving block (301) is provided with a telescopic groove matching with the shrinking column (304) inside, the moving block (301) is provided with a spring groove matching with the return spring (306) inside, and the sintering plate (2) is provided with a fixing groove matching with the supporting spring (308) inside.

6. An environment-friendly cleaning type sintering device for producing sintered porous bricks, according to claim 3, characterized in that the inside of the sintering plate (2) is provided with an inclined plate, the inside of the sintering plate (2) is provided with a collecting groove matched with the collecting box (401), and the inside of the sintering plate (2) is provided with a mounting groove matched with the mounting column (407).

7. The environment-friendly cleaning type sintering device for producing sintered porous bricks, according to claim 3, wherein a moving groove matched with the shrinkage block (402) is arranged in the collection box (401), a clamping groove matched with the clamping column (404) is arranged at one end of the shrinkage block (402), and a limiting groove matched with the limiting plate (406) is arranged in the collection box (401).

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