CN110788964A

CN110788964A - Heated board compression moulding equipment

Info

Publication number: CN110788964A
Application number: CN201911089884.1A
Authority: CN
Inventors: 宋斌
Original assignee: Suzhou Zhongli Thermal Insulation And Energy Saving Materials Co Ltd
Current assignee: Suzhou Zhongli Thermal Insulation And Energy Saving Materials Co Ltd
Priority date: 2019-11-08
Filing date: 2019-11-08
Publication date: 2020-02-14

Abstract

The invention discloses a pressing and forming device for an insulation board, which comprises a rack; the rack is sequentially provided with a movable feeding area, a pressing area and a receiving area according to the processing direction of the insulation board; the movable feeding area comprises a feeding barrel fixed on the frame; a movable pushing assembly is arranged below the charging barrel; the movable pushing assembly comprises a movable pushing plate, a charging chute penetrating the top surface close to the front end of the movable pushing plate and a blocking plate arranged behind the charging chute; when the discharge hole of the charging barrel is staggered with the discharge hole of the charging barrel, the blocking plate blocks the discharge hole of the charging barrel; when the discharging hole of the charging chute is communicated with the discharging hole of the charging barrel, the charging barrel fills the charging chute with the mixed materials; when the movable material pushing plate advances, the insulation board pressed at the front end of the movable material pushing plate is pushed into the material receiving area; meanwhile, the mixed material in the charging chute is conveyed into the material pressing area.

Description

Heated board compression moulding equipment

Technical Field

The invention relates to the technical field of processing of insulation boards, in particular to a pressing forming device for an insulation board.

Background

The pressing forming machine of the insulation board, such as the comparison document with the publication number of CN201820208437.8, it discloses an insulation board pressing machine, it places the raw materials of the pearlite insulation board in the work bin 11, adopt the feeder to carry on the material loading, the feeder adopts the prior art, promote the air cylinder 7 to promote the slide block 4 to move in the concrete chute 3.1, the work bin 11 moves to the shaping groove 3.2 direction along with the pillar stand 5, when the work bin 11 moves to the shaping groove 3.2, the feeder must stop working, when the work bin 11 is loaded, after the material is pressed in the pressing machine, also stop working, two works can't be carried on at the same time, the continuity is poor, has reduced the pressing efficiency of the insulation board; meanwhile, the pressing machine is difficult to be applied to the integrated flow production line of the heat-insulation boards, in the existing heat-insulation board flow production line, raw materials are added into the feeding barrel, the raw materials are directly added into the pressing machine after being mixed and stirred, if the material box 11 is moved away, the previous working procedure is inevitably stopped to operate, the continuity of pressing work is poor, and further the production efficiency is low.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the pressing forming equipment for the insulation board is good in pressing forming continuity and high in efficiency.

In order to solve the technical problems, the invention provides the following technical scheme: a kind of heated board presses the former, including the stander; the rack is sequentially provided with a movable feeding area, a pressing area and a receiving area according to the processing direction of the insulation board; the movable feeding area comprises a feeding barrel fixed on the frame; a movable pushing assembly is arranged below the charging barrel; the movable pushing assembly comprises a movable pushing plate, a charging chute penetrating the top surface close to the front end of the movable pushing plate and a blocking plate arranged behind the charging chute; when the discharge hole of the charging barrel is staggered with the discharge hole of the charging barrel, the blocking plate blocks the discharge hole of the charging barrel; when the discharging hole of the charging chute is communicated with the discharging hole of the charging barrel, the charging barrel fills the charging chute with the mixed materials; when the movable material pushing plate advances, the insulation board pressed at the front end of the movable material pushing plate is pushed into the material receiving area; simultaneously conveying the mixed material in the charging chute into a material pressing area;

the material pressing area comprises a guide pillar, an upper pressing block, a material pressing platform, a lower pressing block, a lower air cylinder and an upper air cylinder which are arranged in sequence from high to low along the height direction; the guide post is fixed on the rack along the vertical direction; the upper pressing block and the lower pressing block are both connected to the guide pillar in a sliding manner; the upper cylinder pushes the upper pressing block to move along the guide of the guide post; the lower cylinder pushes the lower pressing block to move along the guide of the guide post; a forming groove is formed in the material pressing platform; the blanking groove and the forming groove are matched for use, and the mixture in the blanking groove is poured into the forming groove; an upward pushing block matched with the forming groove is arranged below the forming groove; the upper pushing block is fixed on the lower pressing block; and a lower pushing block matched with the forming groove for use is arranged above the forming groove.

The mixed material is output into a blanking groove from a lower opening of a feeding barrel, a movable pushing plate is pushed forwards until the blanking groove is aligned with a forming groove and is in a through state, the mixed material in the blanking groove is conveyed into the forming groove, meanwhile, the lower opening of the feeding barrel is blocked by a blocking plate, feeding work of the feeding material into the feeding barrel is suspended, then, the movable pushing plate is pulled back, the mixed material at the opening of the forming groove is pulled flat and is pulled back to the original position, the blanking groove is aligned with the lower opening of the feeding barrel and is in the through state, feeding is realized again, then, an upper air cylinder is started, an upper pressing block is pressed downwards, a lower pressing block is pressed into the forming groove, the bulk mixed material is compacted and is pressed into a heat insulation board, then, the upper air cylinder is pulled back to the upper pressing block, the lower pressing block is returned to the original position, the lower air cylinder is started to push the lower pressing block to ascend, the heat insulation board is pushed by the upper pushing block to ascend to be level with, so reciprocal, guarantee the continuity of heated board suppression work, improve production efficiency.

Preferably, the front end of the movable material pushing plate is provided with a pushing and scraping head; the pushing and scraping head comprises a brush, a right-angle triangular pushing head, a scraping port and a scraping plate; the right-angle surface of the right-angle triangular push head is flush with the horizontal direction; the other right-angle surface of the right-angle triangular push head is fixed on the front end surface of the movable push plate; the front end of the right-angle triangular push head is provided with a scraper for scraping the mixed material on the material pressing platform; the upper end of the right-angle triangular push head is fixed with a brush; the scraping port penetrates through the inclined plane of the right-angle triangular push head and the right-angle surface of the bottom; the material scraping ports correspond to the forming grooves one to one.

When the movable pushing plate is pushed forwards, the scraper at the front end of the pushing and scraping head pushes the formed insulation board into the material receiving area, when the movable pushing plate retreats, the scraper at the front end of the pushing and scraping head scrapes off bulk mixed materials at the opening of the forming groove, and the pushing and scraping head has two purposes; when the movable pushing plate retreats, the brush arranged at the upper end of the movable pushing plate cleans residual mixed particles on the lower pushing block, so that the defects of the next-time compression-molded heat insulation plate are avoided, and the neatness of the lower surface of the lower pushing block can be ensured.

Preferably, push plate guide rails are arranged on two sides of the movable push plate; the push plate guide rail is fixed on the rack; the movable material pushing plate is arranged on the guide rail of the pushing plate through a guide rail sleeve; pulleys are further arranged in the guide rail sleeves; and a pushing cylinder for pushing the movable pushing plate to move back and forth along the advancing direction of the insulation board is arranged in the movable pushing plate.

Preferably, the lower cylinder, the pushing cylinder and the upper cylinder are respectively communicated with the main air box.

Preferably, the upper end of the guide post is fixed on the rack through an upper guide post seat, and the lower end of the guide post is fixed on the rack through a lower guide post seat.

Preferably, the receiving area comprises a replaceable receiving platform; the material receiving platform is arranged at the front end of the material pressing platform, and the material receiving platform is flush with the material pressing platform in height.

Preferably, the bottom of the material pressing platform is connected with a dust guard; an upper pushing block sliding opening communicated with the forming groove is communicated with the dustproof plate; the shape, size and direction of the upper push block sliding opening, the forming groove and the charging chute are all consistent. Prevent dust debris from falling on the upper push block.

Preferably, a position sensor is arranged on the lower pressing block; and the lower pressing block is also provided with a height-adjustable limiting column. After the mixed material after preventing to press is released, the height is not parallel and level with receipts material platform.

Preferably, a climbing frame is arranged on the side of the charging barrel. The worker can conveniently climb to the top end of the compression molding equipment to carry out maintenance, replacement or overhaul and other work.

When the blanking groove is aligned with the lower opening of the feeding barrel and communicated, the mixed material enters the blanking groove, the pushing cylinder is started and drives the movable pushing plate to advance, the scraper blade at the front end of the pushing and scraping head pushes the pressed heat insulation plate in front to the material receiving platform, and when a worker takes the heat insulation plate away, the blanking groove of the movable pushing plate is aligned with the forming groove and communicated with the forming groove, and the mixed material in the blanking groove falls into the forming groove; after the mixed material enters the forming groove, the pushing cylinder is reversely started, the movable material pushing plate is pulled back, a scraper at the front end of the pushing and scraping head brings back the redundant mixed material on the opening end face of the forming groove, and meanwhile, a brush on the inclined surface of the pushing and scraping head cleans the mixed material adhered to the lower push block; after the movable material pushing plate returns to the original position, the upper air cylinder is started to drive the upper pressing block to move downwards until the lower pressing block compacts and mixes the materials; the upper air cylinder is reversely started, the upper pressing block is pulled back to the original position, the lower air cylinder is started to drive the lower pressing block to ascend, the upper pushing block pushes the mixed material pressed in the forming groove to the height flush with the material receiving platform, then the air cylinder is pushed to start, the movable pushing plate moves forward, the scraper blade at the front end of the pushing and scraping head is driven to push the heat insulation plate pressed in front to the material receiving platform, and when a worker takes away the mixed material, the steps are repeated to obtain the plate-shaped mixed material produced by the production line; the pressing work continuity is good, the production efficiency is high, the arrangement of the brush ensures the neatness of the surface of the lower pushing block, the scraper has two purposes, the formed heat insulation plate is pushed away when the movable pushing plate moves forward, and the top surface of the mixed material in the forming groove is leveled when the movable pushing plate is pulled back.

Compared with the prior art, the invention has the beneficial effects that:

A. the invention integrates the functions of mould entering and pressing into a whole, and has diversified functions; the mixed material enters a forming groove, after the forming groove is filled with the mixed material, the scraper is used for scraping the material on the upper end face of the forming groove, and then the pressing operation is directly carried out, so that the continuity of the pressing operation is good, and the production efficiency is high;

B. the arrangement of the brush ensures the neatness of the surface of the lower pushing block, the scraper has two purposes, the molded insulation board is pushed away when the movable pushing plate moves forward, the top surface of the mixed material in the molding groove is pulled flat when the movable pushing plate is pulled back, the lower pressing block is provided with a position sensor, the lower pressing block is also provided with a limiting column with adjustable height, and the height of the pressed mixed material is prevented from being not parallel to the material receiving platform after being pushed out; the climbing frame is arranged on the side of the feeding barrel, so that workers can climb to the top end of the compression molding equipment conveniently to perform maintenance, replacement or overhaul and other work.

Drawings

FIG. 1 is an overall front view of a medium press molding apparatus according to an embodiment of the present invention;

FIG. 2 is an axial view of a middle push-pull loading plate according to an embodiment of the present invention;

FIG. 3 is an isometric view of a push scraping head in accordance with one embodiment of the present invention;

FIG. 4 is a partial isometric view of a push scraping head in accordance with one embodiment of the present invention;

fig. 5 is an exploded view of the upper push block, the lower press block and the pressing platform in the first embodiment of the present invention.

Detailed Description

In order to facilitate the understanding of the technical solutions of the present invention for those skilled in the art, the technical solutions of the present invention will be further described with reference to the drawings attached to the specification.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Example one

Referring to fig. 1, the embodiment discloses a thermal insulation board press forming device, which includes a frame 1. The rack 1 is sequentially provided with a movable feeding area 2, a material pressing area 3 and a material receiving area 4 according to the processing direction of the insulation board. The movable feeding area 2 comprises a feeding barrel 21 fixed on the frame 1. A movable pushing assembly 22 is arranged below the charging barrel 21. The movable pushing assembly 22 includes a movable pushing plate 221, a chute 222 penetrating the top surface of the front end of the movable pushing plate 221, and a blocking plate 223 disposed behind the chute 222. When the charging chute 222 is offset from the discharge port of the charging barrel 21, the blocking plate 223 blocks the discharge port of the charging barrel 21. When the charging chute 222 is communicated with the discharge port of the charging barrel 21, the charging barrel 21 fills the charging chute 222 with the mixed material. When the movable material pushing plate 221 advances, the insulation board pressed at the front end is pushed into the material receiving area 4; and simultaneously conveys the mixed material in the charging chute 222 to the material pressing area 3.

The pressing area 3 comprises a guide post 31, an upper pressing block 32, a pressing platform 33, a lower pressing block 34, a lower air cylinder 35 and an upper air cylinder 36 which are arranged in sequence from high to low along the height direction. The guide post 31 is fixed on the frame 1 along the vertical direction. The upper pressing block 32 and the lower pressing block 34 are both connected to the guide post 31 in a sliding manner. The upper air cylinder 36 pushes the upper press block 32 to move along the guide of the guide post 31. The lower air cylinder 35 pushes the lower pressing block 34 to move along the guide of the guide post 31. The pressing platform 33 is provided with a forming groove 33 a. The charging chute 222 is used in cooperation with the molding chute 33a, and the mixture in the charging chute 222 is poured into the molding chute 33 a. An upward pushing block 37 matched with the forming groove 33a is arranged below the forming groove 33 a. The push-up block 37 is fixed to the lower press block 34. A pushing-down block 38 matched with the molding groove 33a is arranged above the molding groove 33 a.

The mixed material is output into a blanking groove 222 from a lower opening of a feeding barrel 21, a movable pushing plate 221 is pushed forwards until the blanking groove 222 is aligned with a forming groove 33a and forms a through state, the mixed material in the blanking groove 222 is conveyed into the forming groove 33a, meanwhile, the lower opening of the feeding barrel 21 is blocked by a blocking plate 223, feeding work of the feeding barrel 21 is suspended, then, the movable pushing plate 221 is pulled back, the mixed material at the opening of the forming groove 33a is pulled flat and pulled back to the original position, the blanking groove 222 is aligned with the lower opening of the feeding barrel 21 and forms a through state, re-feeding is realized, then, an upper air cylinder 36 is started, an upper pressing block 32 is pressed downwards, a lower pressing block 38 is pressed into the forming groove 33a, the mixed material in bulk is compacted and pressed, then, the upper air cylinder 36 pulls back the upper pressing block 32, so that the lower pressing block 38 returns to the original position, the lower air cylinder 35 is started, the lower pressing block 34 is pushed upwards, an upper pressing block 37 pushes an insulation board, the movable material pushing plate 221 is pushed forwards, the insulation board pressed at the front end is pushed to the material receiving area 4, and the reciprocating operation is carried out, so that the continuity of the insulation board pressing operation is guaranteed, and the production efficiency is improved.

Push plate guide rails 23 are arranged on two sides of the movable push plate 221. The push plate guide rail 23 is fixed on the frame 1. The movable stripper plate 221 is mounted on the stripper guide 23 by a guide sleeve 224. A pulley (not shown) is also disposed in the guide rail housing 224. The movable pushing plate 221 is internally provided with a pushing cylinder 24 for pushing the movable pushing plate 221 to move back and forth along the advancing direction of the insulation board.

The front end of the movable material pushing plate 221 is provided with a pushing and scraping head 225. The pushing and scraping head 225 comprises a brush 2251, a right-angled triangle pushing head 2252, a scraping opening 2253, and a scraping plate 2254. The right-angle surface of the right-angle triangular push head 2252 is flush with the horizontal direction. The other right-angle surface of the right-angle triangular push head 2252 is fixed to the front end surface of the movable push plate 221. The front end of the right-angle triangular push head 2252 is provided with a scraper 2254 for scraping the mixture on the material pressing platform 33. A hair brush 2251 is fixed to the upper end of the right-angled triangular push head 2252. The scraping opening 2253 penetrates through the inclined plane of the right-angle triangular pushing head 2252 and the right-angle plane at the bottom. The scraping openings 2253 correspond to the molding grooves 33a one-to-one.

When the movable pushing plate 221 is pushed forward, the scraper 2254 at the front end of the pushing and scraping head 225 pushes the molded insulation board into the receiving area 4, and when the movable pushing plate 221 retreats, the scraper 2254 at the front end of the pushing and scraping head 225 scrapes off the bulk mixture at the opening of the molding groove 33a, so that the pushing and scraping head 225 has two purposes; when the movable pushing plate 221 retreats, the brush 2251 arranged at the upper end of the movable pushing plate cleans the residual mixed particles on the lower pushing block 38, so that the defects of the next-time compression-molded heat insulation plate are avoided, and the smoothness of the lower surface of the lower pushing block 38 can be ensured.

The lower cylinder 35, the pushing cylinder 24 and the upper cylinder 36 are respectively communicated with the main air tank 25.

The upper end of the guide post 31 is fixed on the frame 1 through an upper guide post seat 31a, and the lower end of the guide post 31 is fixed on the frame 1 through a lower guide post seat 31 b.

The receiving zone 4 comprises a replaceable receiving platform 41. The receiving platform 41 is arranged at the front end of the pressing platform 33, and the receiving platform 41 is flush with the pressing platform 33 in height.

The bottom of the material pressing platform 33 is connected with a dust-proof plate 39. The dust guard 39 is provided with a push-up block sliding opening 39a communicated with the molding groove 33 a. The shapes, sizes and directions of the push-up block sliding opening 39a, the forming groove 33a and the charging groove 222 are all consistent. Preventing dust and debris from falling onto the push-up block 37.

A position sensor 34a is mounted on the lower press block 34. The lower pressing block 34 is also provided with a height-adjustable limiting column 34 b. The height of the pressed mixed material is prevented from being not parallel and level with the material receiving platform 41 after the pressed mixed material is pushed out.

A climbing frame 26 is arranged on the side of the charging barrel 21. The worker can conveniently climb to the top end of the compression molding equipment to carry out maintenance, replacement or overhaul and other work.

The working principle of the embodiment is as follows: when the blanking groove 222 is aligned with the lower opening of the charging barrel 21 and communicated, the mixed material enters the blanking groove 222, the pushing cylinder 24 is started and drives the movable pushing plate 221 to advance, the scraper 2254 at the front end of the pushing head 225 pushes the pressed heat-insulation plate in front onto the charging platform 41, when the heat-insulation plate is taken away by a worker, the blanking groove 222 of the movable pushing plate 221 is aligned with the forming groove 33a and communicated, and the mixed material in the blanking groove 222 falls into the forming groove 33 a; after the mixed material enters the forming groove 33a, the pushing cylinder 24 is started reversely, the movable pushing plate 221 is pulled back, the scraper 2254 at the front end of the pushing and scraping head 225 brings back the redundant mixed material on the opening end face of the forming groove 33a, and meanwhile, the brush 2251 on the inclined surface of the pushing and scraping head 225 cleans the mixed material adhered to the lower push block 38; after the movable material pushing plate 221 returns to the original position, the upper air cylinder 36 is started to drive the upper pressing block 32 to move downwards until the lower pressing block 38 compacts the mixed material; the upper air cylinder 36 is reversely started, the upper pressing block 32 is pulled back to the original position, the lower air cylinder 35 is started to drive the lower pressing block 34 to ascend, the upper pushing block 37 pushes the mixed material pressed in the forming groove 33a to the height flush with the material receiving platform 41, then the air cylinder 24 is pushed to start, the movable pushing plate 221 advances to drive the scraping plate 2254 at the front end of the pushing and scraping head 225 to push the heat insulation plate pressed in front to the material receiving platform 41, and after a worker takes away the mixed material, the steps are repeated to obtain the plate-shaped mixed material produced by the production line; the pressing work continuity is good, the production efficiency is high, the arrangement of the brush 2251 ensures the smoothness of the surface of the lower pushing block 38, the scraper 2254 has two purposes, when the movable pushing plate 221 advances, the formed insulation board is pushed away, and when the movable pushing plate 221 retracts, the top surface of the mixed material in the forming groove 33a is leveled.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

The above-mentioned embodiments only represent embodiments of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the concept of the present invention, and these embodiments are all within the protection scope of the present invention.

Claims

1. The utility model provides an heated board compression moulding equipment which characterized in that: comprises a frame; the rack is sequentially provided with a movable feeding area, a pressing area and a receiving area according to the processing direction of the insulation board; the movable feeding area comprises a feeding barrel fixed on the frame; a movable pushing assembly is arranged below the charging barrel; the movable pushing assembly comprises a movable pushing plate, a charging chute penetrating the top surface close to the front end of the movable pushing plate and a blocking plate arranged behind the charging chute; when the discharge hole of the charging barrel is staggered with the discharge hole of the charging barrel, the blocking plate blocks the discharge hole of the charging barrel; when the discharging hole of the charging chute is communicated with the discharging hole of the charging barrel, the charging barrel fills the charging chute with the mixed materials; when the movable material pushing plate advances, the insulation board pressed at the front end of the movable material pushing plate is pushed into the material receiving area; simultaneously conveying the mixed material in the charging chute into a material pressing area;

2. The insulation board press forming equipment according to claim 1, characterized in that: the front end of the movable material pushing plate is provided with a pushing and scraping head; the pushing and scraping head comprises a brush, a right-angle triangular pushing head, a scraping port and a scraping plate; the right-angle surface of the right-angle triangular push head is flush with the horizontal direction; the other right-angle surface of the right-angle triangular push head is fixed on the front end surface of the movable push plate; the front end of the right-angle triangular push head is provided with a scraper for scraping the mixed material on the material pressing platform; the upper end of the right-angle triangular push head is fixed with a brush; the scraping port penetrates through the inclined plane of the right-angle triangular push head and the right-angle surface of the bottom; the material scraping ports correspond to the forming grooves one to one.

3. The insulation board press forming equipment according to claim 1, characterized in that: push plate guide rails are arranged on two sides of the movable push plate; the push plate guide rail is fixed on the rack; the movable material pushing plate is arranged on the guide rail of the pushing plate through a guide rail sleeve; pulleys are further arranged in the guide rail sleeves; and a pushing cylinder for pushing the movable pushing plate to move back and forth along the advancing direction of the insulation board is arranged in the movable pushing plate.

4. The insulation board press forming equipment according to claim 3, characterized in that: the lower cylinder, the pushing cylinder and the upper cylinder are respectively communicated with the main air box.

5. The insulation board press forming equipment according to claim 1, characterized in that: the upper end of the guide post is fixed on the rack through an upper guide post seat, and the lower end of the guide post is fixed on the rack through a lower guide post seat.

6. The insulation board press forming equipment according to claim 1, characterized in that: the receiving area comprises a replaceable receiving platform; the material receiving platform is arranged at the front end of the material pressing platform, and the material receiving platform is flush with the material pressing platform in height.

7. The insulation board press forming equipment according to claim 1, characterized in that: the bottom of the material pressing platform is connected with a dust guard; an upper pushing block sliding opening communicated with the forming groove is communicated with the dustproof plate; the shape, size and direction of the upper push block sliding opening, the forming groove and the charging chute are all consistent.

8. The insulation board press forming equipment according to claim 1, characterized in that: a position sensor is arranged on the lower pressing block; and the lower pressing block is also provided with a height-adjustable limiting column.

9. The insulation board press forming equipment according to claim 1, characterized in that: a climbing frame is arranged on the side of the charging barrel.