CN110421697B

CN110421697B - Automatic control forming device

Info

Publication number: CN110421697B
Application number: CN201910647005.6A
Authority: CN
Inventors: 谢海兵
Original assignee: Guang'an Bnbm Co ltd
Current assignee: Guang'an Bnbm Co ltd
Priority date: 2019-07-17
Filing date: 2019-07-17
Publication date: 2021-03-23
Anticipated expiration: 2039-07-17
Also published as: CN110421697A

Abstract

The invention discloses an automatic control forming device, and belongs to the field of building decoration material processing. The gypsum board waste disposal system comprises a forming table, a feeding group arranged on the forming table, a stirring group arranged at the output end of the feeding group and a stand column arranged on the forming table, wherein a forming channel communicated with the output end of the stirring group is arranged on the forming table, a forming extrusion plate is arranged on the stand column, an electric cylinder is arranged between the forming extrusion plate and the stand column, the forming extrusion plate and the forming table are obliquely arranged, the distance between the forming extrusion plate and the forming table is gradually reduced along the direction far away from the stand column, a mounting groove is arranged at one end of the forming extrusion plate far away from the stand column and above the forming channel, a crack detector is arranged in the mounting groove, and a PLC (programmable logic controller) connected with the crack detector and the electric cylinder is arranged on the stand column respectively. And then improved the product percent of pass, reduced staff's intensity of labour simultaneously, improved work efficiency.

Description

Automatic control forming device

Technical Field

The invention relates to the field of processing of building decoration materials, in particular to an automatic control forming device.

Background

The gypsum board is a common board in the building material market, and has the characteristics of light weight, sound insulation, heat insulation, strong processability and simple and convenient construction method. With the development of building material market, the demand of gypsum boards is larger and larger, and the quality requirements of people on the gypsum boards are higher and higher. During the processing of gypsum board, there are two aspects that affect the quality of the gypsum board: firstly, the thickness degree of gypsum board ground paste, secondly whether have the bubble in the ground paste, the gypsum board that the ground paste is thin, the ground paste that does not have the bubble is produced is smooth hard. But at present people all process the gypsum board through semi-automatization instrument, when the gypsum board shaping is unqualified, need the manual work to put useless operation, the spent time is longer, has increased putting useless length of gypsum board, and then has reduced the product percent of pass, and staff's intensity of labour is big simultaneously, work efficiency is lower.

Disclosure of Invention

The invention provides an automatic control molding device aiming at the defects of the prior art, and the specific technical scheme is as follows:

an automatic control forming device comprises a forming table, a feeding group arranged on the forming table, a stirring group arranged at the output end of the feeding group and an upright post arranged on the forming table, wherein a forming channel communicated with the output end of the stirring group is arranged on the forming table, and the other end of the forming channel penetrates through the upright post; be equipped with on the stand with stand articulated shaping stripper plate, be equipped with electronic jar between shaping stripper plate and the stand, the setting of shaping stripper plate and forming table slope is and the interval of shaping stripper plate and forming table reduces along the direction of keeping away from the stand gradually, the one end that the stand was kept away from to the shaping stripper plate is located the shaping passageway top and is equipped with the mounting groove, the mounting groove is equipped with the crack detection instrument, be equipped with the PLC controller of being connected with crack detection instrument and electronic jar respectively on the stand.

In the invention, a worker puts dry materials into the feeding group, the dry materials enter the stirring group through the self gravity, and the dry materials are mixed by the stirring group of the stirring group and then discharged into a forming channel of the forming table. The gypsum slurry after stirring and mixing flows to the bottom side of the forming extrusion plate through the forming channel and is extruded by the forming extrusion plate obliquely arranged with the forming table, the material layer of the gypsum slurry becomes thin, and bubbles in the gypsum slurry are more easily crushed by extrusion. Simultaneously detect when the crack detection instrument senses that the gypsum ground paste has the crack damage, just with signal transmission to PLC controller, the electronic jar output of PLC controller will control contracts, makes the shaping stripper plate lift up in the twinkling of an eye and puts useless operation, then after a period PLC controller control shaping stripper plate falls automatically, and does not need manual operation to fall down the shaping stripper plate.

Preferably, a paper feeding guide roller is arranged on the upright post, an extrusion groove is arranged on the upright post and above the forming channel, and an extrusion guide roller is arranged on the groove top of the extrusion groove.

The upper paper is guided and conveyed to the extrusion guide roller by the upper paper guide roller, is guided and conveyed to the extrusion groove by the extrusion guide roller, and finally reaches the bottom side of the forming extrusion plate to be attached to the mask paper of the gypsum board.

Preferably, a sizing machine is arranged on the upright post and between the upper paper guide roller and the extrusion guide roller.

According to the invention, the sizing machine is arranged between the paper feeding guide roller and the extrusion guide roller, so that when the paper passes through the sizing machine from the paper feeding guide roller, the sizing machine performs sizing operation on the paper, and the paper is conveniently attached to the mask paper of the gypsum board at the bottom side of the forming extrusion plate.

Preferably, the forming extrusion plate and the forming table form an included angle of 1-3 degrees.

According to the invention, the angle between the forming extrusion plate and the forming table is adjusted from the existing 8-9 degrees to 1-3 degrees, so that the length of the forming extrusion plate is lengthened, the stacking slurry of gypsum slurry in a forming channel is reduced, and meanwhile, the material layer of the gypsum slurry is thinned, so that the forming extrusion plate can extrude bubbles in the slurry more easily and is not easy to gather to form large bubbles in the process of extruding the gypsum slurry.

Preferably, the feeding set comprises a screw feeder arranged on the forming table and a chute arranged at the output end of the screw feeder.

According to the invention, the feeding screw machine conveys the dry materials into the chute, so that the dry materials enter the stirring group through gravity, and the feeding efficiency is improved.

Preferably, the stirring group comprises a stirrer arranged on the forming table and communicated with the chute and a discharge pipe arranged between the stirrer and the forming passage.

According to the invention, dry materials enter the stirrer through the chute, are stirred and mixed by the stirrer and then are discharged into the forming channel of the forming table from the discharge pipe, and gypsum slurry after stirring and mixing flows to the bottom side of the forming extrusion plate through the forming channel.

Preferably, the fixed end of the electric cylinder is arranged on the upright post, and the output end of the electric cylinder is arranged on the forming extrusion plate and is hinged with the forming extrusion plate.

According to the invention, the fixed end of the electric cylinder is arranged on the upright post, so that the output end of the electric cylinder is arranged on the forming extrusion plate and is hinged with the forming extrusion plate, when the PLC controls the output end of the electric cylinder to contract, the electric cylinder pulls the forming extrusion plate to enable the forming extrusion plate to rotate around the upright post, thus one end of the forming extrusion plate, which is far away from the upright post, is pulled up to carry out waste discharge operation, and the work smoothness of the electric cylinder is improved.

Preferably, the bottom end of the forming table is provided with a plurality of groups of supporting columns.

The forming table is supported by the plurality of groups of supporting columns arranged at the bottom end of the forming table, so that the forming table can bear working machines with larger weight and gypsum slurry.

The invention has the following beneficial effects:

in the invention, a worker puts dry materials into the feeding group, the dry materials enter the stirring group through the self gravity, and the dry materials are mixed by the stirring group of the stirring group and then discharged into a forming channel of the forming table. The gypsum slurry after stirring and mixing flows to the bottom side of the forming extrusion plate through the forming channel and is extruded by the forming extrusion plate obliquely arranged with the forming table, so that the stacking slurry accumulation of the gypsum slurry in the forming channel is reduced, and meanwhile, the material layer of the gypsum slurry becomes thin, so that the forming extrusion plate can extrude bubbles in the slurry more easily in the process of extruding the gypsum slurry and is not easy to collect to form large bubbles.

Simultaneously detect when the crack detection instrument senses that the gypsum ground paste has the crack damaged, just with signal transmission to the PLC controller, the electronic jar output of PLC controller will be controlled and the shrink, make the shaping stripper plate lift up in the twinkling of an eye and put useless operation, then PLC controller control shaping stripper plate is automatic to fall down after a period of time, and do not need manual operation to fall down the shaping stripper plate, the time of putting useless operation consumption has been reduced, the useless length of putting of gypsum board has been reduced, and then the product percent of pass has been improved, staff's intensity of labour has been reduced simultaneously, and the work efficiency is improved.

Drawings

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

FIG. 2 is a partial schematic view of the present invention;

fig. 3 is a partially enlarged view of a portion a in fig. 2.

In the figure: 1-a forming table; 2-a feeding group; 3-stirring group; 4-upright post; 5-forming a channel; 6-forming an extrusion plate; 7-an electric cylinder; 8-mounting grooves; 81-crack detector; 9-a PLC controller; 41-paper feeding guide roller; 42-extrusion groove; 43-extrusion guide rolls; 10-a sizing machine; 21-screw feeder; 22-chute; 31-a stirrer; 32-a discharge pipe; 11-support column.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

Examples

Referring to fig. 1 to 3, the present invention includes a forming table 1 for mounting a work machine of a relatively large weight and forming a gypsum slurry, and a feeding set 2 provided on the forming table 1 for worker feeding. Four groups of supporting columns 11 are arranged at the bottom end of the forming table 1. According to the invention, the forming table 1 is supported by the plurality of groups of supporting columns 11 arranged at the bottom end of the forming table 1, so that the forming table 1 can bear working machines with larger weight and gypsum slurry. The feeding group 2 comprises a screw feeder 21 arranged on the upright post 4 and a chute 22 arranged at the output end of the screw feeder 21 and communicated with the output end of the screw feeder 21. In the staff thrown into the feed screw with the drier, feed screw was rotatory and carried the drier to elephant trunk 22 through helical structure in, made the drier pass through during gravity gets into subsequent agitated vessel, compare in artifical feed, the drier can be more even get into in subsequent agitated vessel, improved feed efficiency and stirring effect.

With further reference to fig. 1, a stirring group 3 for stirring dry materials is arranged on the forming table 1 and at the output end of the feeding group 2, the stirring group 3 includes a stirrer 31 arranged on the forming table 1 and communicated with the chute 22 and a discharge pipe 32 arranged at the output end of the stirrer 31, and after the dry materials enter the stirrer 31 through the chute 22, the dry materials are stirred and mixed by the stirrer 31 and then discharged from the discharge pipe 32 to a subsequent device of the forming table 1. The forming table 1 is provided with an upright post 4, the forming table 1 is provided with a forming channel 5 communicated with the discharge pipe 32, the other end of the forming channel 5 penetrates through the upright post 4, and gypsum slurry mixed by stirring of the stirrer 31 is discharged into the forming channel 5 from the discharge pipe 32.

With further reference to fig. 1 and 2, a forming extrusion plate 6 hinged to the upright 4 is provided on the upright 4, the forming extrusion plate 6 is disposed obliquely to the forming table 1, and the distance between the forming extrusion plate 6 and the forming table 1 gradually decreases along the direction away from the upright 4. The included angle between the forming extrusion plate 6 and the forming table 1 is 1-3 degrees. According to the invention, the angle between the forming extrusion plate 6 and the forming table 1 is adjusted from the existing 8-9 degrees to 1-3 degrees, so that the length of the forming extrusion plate 6 is lengthened, the stacking slurry of gypsum slurry in the forming channel 5 is reduced, and meanwhile, the material layer of the gypsum slurry is thinned, so that the forming extrusion plate 6 can extrude bubbles in the slurry more easily in the process of extruding the gypsum slurry and is not easy to gather to form large bubbles.

With further reference to fig. 2 and 3, an electric cylinder 7 for pulling the forming extrusion plate 6 is arranged between the forming extrusion plate 6 and the upright column 4, and when the electric cylinder 7 contracts or extends out of the output end, the forming extrusion plate 6 rotates around the upright column 4, so that one end of the forming extrusion plate 6, which is far away from the upright column 4, is pulled up or falls down. The fixed end of the electric cylinder 7 is arranged on the upright post 4, and the output end of the electric cylinder 7 is arranged on the molding extrusion plate 6 and is hinged with the molding extrusion plate 6. According to the invention, the fixed end of the electric cylinder 7 is arranged on the upright post 4, so that the output end of the electric cylinder 7 is arranged on the forming extrusion plate 6 and is hinged with the forming extrusion plate 6, when the output end of the electric cylinder 7 contracts, the electric cylinder 7 pulls the forming extrusion plate 6 to enable the forming extrusion plate 6 to rotate around the upright post 4, thus one end of the forming extrusion plate 6 far away from the upright post 4 is pulled up to carry out waste discharge operation, and the working smoothness of the electric cylinder 7 is improved.

Further referring to fig. 2 and 3, one end of stand 4 is kept away from to shaping stripper plate 6 and is located shaping passageway 5 top and be equipped with mounting groove 8, and mounting groove 8 is equipped with and is used for surveying fissured crack detection instrument 81 of gypsum flitch, is equipped with the PLC controller 9 of being connected with crack detection instrument 81 and electronic jar 7 respectively on the stand 4, and the signal input part of PLC controller 9 is connected with crack detection instrument 81, and the signal output part of PLC controller 9 is connected with electronic jar 7. The staff puts into the dry material in feed group 2 and the dry material gets into in stirring group 3 through self gravity, and the dry material discharges into in the shaping passageway 5 of forming table 1 after stirring group 3 of stirring group 3 mixes. The gypsum slurry after stirring and mixing flows to the bottom side of the forming extrusion plate 6 through the forming channel 5 and is extruded by the forming extrusion plate 6 which is obliquely arranged with the forming table 1, the material layer of the gypsum slurry becomes thin, and air bubbles in the gypsum slurry are more easily extruded and crushed.

Simultaneously when crack detection instrument 81 detects and senses that the gypsum ground paste has the crack damaged, just with signal transmission to PLC controller 9, PLC controller 9 will control electronic jar 7 output and contract, makes shaping stripper plate 6 lift up in the twinkling of an eye and puts useless operation, then PLC controller 9 control shaping stripper plate 6 is automatic to fall after 1 second, stops to put useless operation, and does not need manual operation to fall shaping stripper plate 6. The time consumed by waste discharge operation is reduced, the waste discharge length of the gypsum board is reduced, the product percent of pass is improved, the labor intensity of workers is reduced, and the working efficiency is improved.

With further reference to fig. 2, a paper feeding guide roller 41 for conveying the fed paper is arranged on the upright post 4, an extrusion groove 42 communicated with the forming channel 5 is arranged on the upright post 4 and above the forming channel 5, and the gypsum slurry in the forming channel 5 enters the bottom side of the forming extrusion plate 6 through the extrusion groove 42. The top of the extrusion groove 42 is provided with an extrusion guide roller 43, the upper paper is guided by the upper paper guide roller 41 and conveyed to the extrusion guide roller 43, and is guided by the extrusion guide roller 43 and conveyed into the extrusion groove 42, and finally reaches the bottom side of the forming extrusion plate 6 and is attached to the mask paper of the gypsum board. The glue applicator 10 is arranged on the upright post 4 and between the upper paper guide roller 41 and the extrusion guide roller 43, and when the upper paper passes through the glue applicator 10 from the upper paper guide roller 41 through the glue applicator 10 arranged between the upper paper guide roller 41 and the extrusion guide roller 43, the glue applicator 10 applies glue to the upper paper so as to facilitate the gluing of the upper paper and the mask paper of the gypsum board on the bottom side of the molding extrusion plate 6.

The staff puts into the dry material in feed group 2 and the dry material gets into in stirring group 3 through self gravity, and the dry material discharges into in the shaping passageway 5 of forming table 1 after stirring group 3 of stirring group 3 mixes. The gypsum slurry after stirring and mixing flows to the bottom side of the forming extrusion plate 6 through the forming channel 5 and is extruded by the forming extrusion plate 6 obliquely arranged with the forming table 1, so that the stacking slurry accumulation of the gypsum slurry in the forming channel 5 is reduced, and meanwhile, the material layer of the gypsum slurry becomes thin, so that the forming extrusion plate 6 can extrude bubbles in the slurry more easily in the process of extruding the gypsum slurry to form large bubbles. Detect simultaneously when crack detection instrument 81 and sense that the gypsum ground paste has the crack damaged, just with signal transmission to PLC controller 9, PLC controller 9 will control the shrink of 7 output ends of electronic jar, make shaping stripper plate 6 lift up in the twinkling of an eye and put useless operation, then PLC controller 9 control shaping stripper plate 6 is automatic to fall down after a period of time, and do not need manual operation to fall down shaping stripper plate 6, the time of putting useless operation consumption has been reduced, the useless length of putting of gypsum board has been reduced, and then the product percent of pass has been improved, staff's intensity of labour has been reduced simultaneously, and the work efficiency is improved.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An automatic control forming device is characterized by comprising a forming table (1), a feeding group (2) arranged on the forming table (1), a stirring group (3) arranged at the output end of the feeding group (2) and an upright post (4) arranged on the forming table (1), wherein a forming channel (5) communicated with the output end of the stirring group (3) is arranged on the forming table (1), and the other end of the forming channel (5) penetrates through the upright post (4);

the forming and extruding device is characterized in that a forming and extruding plate (6) hinged with the stand column (4) is arranged on the stand column (4), an electric cylinder (7) is arranged between the forming and extruding plate (6) and the stand column (4), the forming and extruding plate (6) and the forming table (1) are obliquely arranged, the distance between the forming and extruding plate (6) and the forming table (1) is gradually reduced along the direction of keeping away from the stand column (4), a mounting groove (8) is arranged at one end, away from the stand column (4), of the forming and extruding plate (6) and above the forming channel (5), a crack detector (81) is arranged in the mounting groove (8), and a PLC (9) respectively connected with the crack detector (81) and the electric cylinder (7) is arranged on the stand column (4); be equipped with on stand (4) and go up paper deflector roll (41), be equipped with extrusion groove (42) on stand (4) and be located shaping passageway (5) top, be equipped with extrusion guide roll (43) on the groove top of extrusion groove (42).

2. The automatic control molding apparatus according to claim 1, wherein a size press (10) is provided on the pillar stand (4) between the upper paper guide roll (41) and the press guide roll (43).

3. The automatic control molding device according to claim 1, characterized in that the angle between the molding press plate (6) and the molding table (1) is 1 ° to 3 °.

4. The automatic control molding apparatus according to claim 1, wherein the feeding set (2) comprises a screw feeder (21) provided on the molding table (1) and a chute (22) provided at an output end of the screw feeder (21).

5. The automatic molding machine according to claim 4, characterized in that the stirring group (3) comprises a stirrer (31) arranged on the molding table (1) and communicating with the chute (22) and a discharge pipe (32) arranged between the stirrer (31) and the molding tunnel (5).

6. The automatic control molding device according to claim 1, characterized in that the fixed end of the electric cylinder (7) is arranged on the upright (4), and the output end of the electric cylinder (7) is arranged on the molding press plate (6) and hinged with the molding press plate (6).

7. The automatic control molding device according to claim 1, characterized in that the bottom end of the molding table (1) is provided with a plurality of groups of support columns (11).