CN115193651B

CN115193651B - Stone material surface brush glue assembly line device

Info

Publication number: CN115193651B
Application number: CN202210903070.2A
Authority: CN
Inventors: 王福增; 张铖; 杨雄; 徐仰立; 谭援强; 黄身桂
Original assignee: Nan'an Huada Stone Industry Technology Research Institute; Huaqiao University
Current assignee: Nan'an Huada Stone Industry Technology Research Institute; Huaqiao University
Priority date: 2022-07-29
Filing date: 2022-07-29
Publication date: 2023-12-05
Anticipated expiration: 2042-07-29
Also published as: CN115193651A

Abstract

The application provides a stone surface glue brushing assembly line device, which comprises a conveying device and a control device, and further comprises: the device comprises a positioning device, a powdering device, a scraping plate device and a glue brushing device, wherein the positioning device is arranged at the initial end of a conveyor belt device; the powder scattering device is arranged on the downstream side of the positioning position, and the scraping plate device is closely arranged on the downstream side of the powder scattering device; the glue brushing device is arranged on the downstream side of the scraping plate device; the control device is electrically connected with the positioning device, the powdering device and the glue brushing device; the positioning device, the powdering device and the glue brushing device are provided with proximity switches, and the proximity switches are electrically connected with the control device. Through this scheme, the brush is glued production line and is more automatic, has improved production efficiency and yields.

Description

Stone material surface brush glue assembly line device

Technical Field

The application relates to the technical field of stone production devices, in particular to a stone surface glue brushing assembly line device.

Background

After being cut into plates, stone raw materials often have the problems that tiny cracks, sand holes, ant roads, chicken feet lines and uneven surfaces tend to influence the quality of the stone. To solve these problems, the stone surface is generally brushed and glued, i.e. stone surface glue. The traditional way of painting the face glue on the stone is to manually glue the surface of the stone by using a scraping sheet so as to fill the defect, but the way is low in efficiency and high in labor intensity. In the existing glue brushing equipment, a worker is usually required to place the stone slabs on the glue brushing surface one by one, so that the labor intensity is high, the efficiency is low, and the safety threat of the worker is also caused.

Disclosure of Invention

The application discloses a stone surface glue brushing assembly line device, which is simple in structure and convenient to operate, and aims to solve the problems of complicated working procedures and low efficiency of the existing stone glue brushing.

The application adopts the following scheme:

the application provides a stone surface glue brushing assembly line device, which comprises a conveying device and a control device, and further comprises: the device comprises a positioning device, a powdering device, a scraping plate device and a glue brushing device, wherein the positioning device is arranged at the initial end of a conveyor belt device; the powder scattering device is arranged on the downstream side of the positioning position and is used for scattering stone powder at the front end of the stone; the scraping plate device is closely arranged on the downstream side of the powdering device and is suitable for scraping stone powder along the moving direction of the stone; the glue brushing device is arranged at the downstream side of the scraping plate device and is suitable for coating glue on the stone surface; the positioning device, the powdering device and the glue brushing device are provided with proximity switches, and the proximity switches are electrically connected with the control device.

Further, the positioning device comprises a first proximity switch, a double-shaft air cylinder connecting frame, a double-shaft air cylinder, a first air cylinder and a second air cylinder, wherein the air cylinder connecting frame is arranged above the conveying device, the double-shaft air cylinder is vertically arranged on the air cylinder connecting frame, and a vertical baffle is arranged on a telescopic shaft of the double-shaft air cylinder connecting frame; the first air cylinder and the second air cylinder are arranged on two sides of the conveying device and are positioned on the upstream side of the air cylinder connecting frame, and a side fixing plate is arranged on the telescopic shafts of the first air cylinder and the second air cylinder; the first proximity switch is arranged between the cylinder connecting frame and the first cylinder or the second cylinder.

Further, the powdering device comprises a second proximity switch, a fixing frame, a moving device, a stone powder storage box and a funnel; the fixed frame is arranged right above the conveying device, the movable device is transversely arranged on the fixed frame, and the movable device is electrically connected with the control device; the stone powder storage box is arranged on the moving device, a funnel is arranged at the bottom of the stone powder storage box, and the stone powder storage box is suitable for following the moving device to transversely move on the fixing frame; the second proximity switch is arranged on the side edge of the conveying device on the upstream side of the fixing frame.

Further, the scraper device comprises a scraper mounting frame and a scraper arranged on the scraper frame, an adjusting device is connected to the scraper, and the adjusting device is suitable for adjusting the distance between the scraper and the conveying device.

Further, the adjusting device comprises a screw, and the screw is connected with the mounting frame and the scraping plate.

Further, the scraper is obliquely arranged on the upper surface of the conveying device.

Further, the glue brushing device comprises a third proximity switch, a rolling brush, a glue storage device and a pump body, wherein the pump body is communicated with the glue storage device and the rolling brush, and the rolling brush is movably arranged right above the conveying device; the third proximity switch is arranged at the side edge of the conveying device at the upstream side of the rolling brush.

Further, the glue brushing device further comprises a supporting plate, the supporting plate is arranged right above the conveying device, and the rolling brush is fixed on the supporting plate through a lifting device.

Further, a buffer spring is arranged between the lifting device and the rolling brush.

Further, the lifting device is a lifting cylinder or a linear motor, and the lifting device is electrically connected to the control device.

The beneficial effects are that:

according to the application, the stone is positioned by arranging the positioning device on the conveying device, the powder scattering device and the scraping plate device are arranged to firstly scatter powder on the stone, and then the glue brushing device is used for brushing glue, so that the whole glue brushing process is completed on the same production line, and the degree of automation is improved; further, the work of each process is controlled through the proximity switch, so that the cooperative coordination among the processes is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a stone surface brushing assembly line device according to an embodiment of the application;

FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 3 is a schematic diagram of a powdering device of a stone surface brushing assembly line device according to an embodiment of the present application;

FIG. 4 is a schematic view of a scraper device of a stone surface brushing assembly line device according to an embodiment of the present application;

fig. 5 is a schematic diagram of a glue brushing device of a stone surface glue brushing assembly line device according to an embodiment of the application;

icon: the conveyor 1, the positioning device 2, the first proximity switch 21, the biaxial cylinder connecting frame 22, the biaxial cylinder 23, the first cylinder 24, the second cylinder 25, the vertical baffle 26, the side fixing plate 27, the powdering device 3, the second proximity switch 31, the fixing frame 32, the moving device 33, the sliding block 34, the stone powder storage box 35, the hopper 36, the scraper device 4, the scraper mounting frame 41, the scraper 42, the adjusting device 43, the glue brushing device 5, the supporting plate 51, the lifting device 52, the third proximity switch 53, the rolling brush 54, the glue brushing body 55, the through hole 551, the glue storage device 56, the pump body 57, the flow guiding tube 58, the buffer spring 59

Detailed Description

Examples

Referring to fig. 1 to 2, this embodiment provides a stone surface brushing assembly line device, including a conveying device 1 and a control device, further including: the device comprises a positioning device 2, a powdering device 3, a scraping plate device 4 and a glue brushing device 5, wherein the positioning device 2 is arranged at the initial end of a conveyor belt device; the powdering device 3 is arranged on the downstream side of the positioning position, and the scraper device 4 is closely arranged on the downstream side of the powdering device 3; the glue brushing device 5 is arranged on the downstream side of the scraping device 4; the control device is electrically connected with the positioning device 2, the powdering device 3 and the glue brushing device 5; the positioning device 2, the powdering device 3 and the glue brushing device 5 are respectively provided with a proximity switch, and the proximity switches are electrically connected with the control device.

In the embodiment, the assembly line device realizes two working procedures of powder filling and glue brushing which are the most main procedures in the glue brushing process. The conveyor 1 is here a conveyor belt device on which stone is placed, which moves the stone along the brushing direction. As the proximity switch used herein, a photoelectric sensor may be used, which is provided at the side of the conveyor 1 for sensing whether or not a stone slab passes, and includes a first proximity switch 21, a second proximity switch 31, and a third proximity switch 53 described below. The control device is a common electrical controller, such as a PLC controller, or an MPU controller, etc., which can realize coordinated control of different power devices.

With continued reference to fig. 2, specifically, the positioning device 2 includes a first proximity switch 21, a dual-shaft cylinder connecting frame 22, a dual-shaft cylinder 23, and a first cylinder 24 and a second cylinder 25, where the cylinder connecting frame is disposed above the conveying device 1, the dual-shaft cylinder 23 is vertically disposed on the cylinder connecting frame, and a vertical baffle 26 is disposed on a telescopic shaft thereof; the first air cylinder 24 and the second air cylinder 25 are arranged on two sides of the conveying device 1 and are positioned on the upstream side of the air cylinder connecting frame, and a side fixing plate 27 is arranged on the telescopic shaft of the first air cylinder 24 and the telescopic shaft of the second air cylinder 25; the first proximity switch 21 is disposed between the cylinder connecting frame and the first cylinder 24 or the second cylinder 25. The first air cylinder 24 and the second air cylinder 25 are fixed on two sides of the conveying device 1 and are positioned on the same straight line, when the first proximity switch 21 senses stone, signals are transmitted to the control device, so that the baffle plate on the double-shaft air cylinder 23 is controlled to descend to block the stone, and the first air cylinder 24 and the second air cylinder 25 on two sides are controlled to extend out to correct the stone, so that the stone is aligned; after the downstream stone is processed, the double-shaft air cylinder 23, the first air cylinder 24 and the second air cylinder 25 are controlled to reset, so that the stone moves to the next station along with the conveying device 1. Through the device, can control the feeding of stone material, place disposable multi-disc stone material and get into simultaneously and brush the gluey position, can also correct the position of stone material simultaneously, the stone material is powder and is glued with the brush accurately.

Continuing to refer to fig. 3, the powdering device 3 includes a second proximity switch 31, a fixed frame 32, a moving device 33, a stone dust storage box 35, and a funnel 36; wherein the fixing frame 32 is disposed right above the conveying device 1, and is laterally provided with the moving device 33, and the moving device 33 is electrically connected to the control device; the stone dust storage box 35 is arranged on the moving device 33, a funnel 36 is arranged at the bottom of the stone dust storage box 35, and the stone dust storage box 35 is suitable for following the moving device 33 to transversely move on the fixed frame 32; the second proximity switch 31 is disposed on the side of the conveyor 1 on the upstream side of the mount 32. The purpose of the powdering device 3 is to scatter stone powder to fill pits or grains of the stone plate surface before brushing the glue, so that the surface of the brushed stone plate surface is smoother and smoother. The powdering device 3 is provided with a moving device 33 for controlling the stone powder storage box 35 to move left and right so as to completely cover stone, wherein the moving device 33 can be provided with a ball screw structure, namely, a screw is arranged on a fixed frame 32, a sliding block 34 is arranged on the screw, and the stone powder storage box 35 is arranged on the sliding block 34; of course, the moving device 33 can also be provided with a sliding rail and a sliding block 34, and the sliding block 34 is provided with a motor drive, so that the stone powder storage box 35 can move left and right on the fixed frame 32. In another embodiment, the powdering device 3 is further provided with a limiting rod for limiting the stone during powdering, so that the stone powder is uniformly scattered on the front end of the stone.

With continued reference to fig. 4, the scraper device 4 comprises a scraper mounting 41 and a scraper 42 arranged on the scraper 42, wherein an adjusting device 43 is connected to the scraper 42, and the adjusting device 43 is adapted to adjust the distance between the scraper 42 and the conveyor 1. When stone powder is scattered on the stone slab, the stone powder is scraped along the moving direction by the scraper device 4, wherein the scraper 42 is made of elastic rubber or polyurethane material and can be tightly attached to the stone, so that the stone powder can be filled into the pits when passing through the pits, and the rest stone powder is scraped off the stone slab. Through this setting for the stone dust can only adhere to and fill up in the pit, and can not stay in other smooth departments on stone material surface, convenient follow-up brush glues. Here, the adjusting means 43 comprises a screw connecting the mounting frame and the scraper 42. The distance between the scraping plate 42 and the stone plate can be adjusted by rotating the screw, so that the pressure of the stone is controlled, and the stone with different thickness can be adapted. Preferably, the scraper 42 is obliquely disposed on the upper surface of the conveyor 1. Specifically, the blade 42 frame may be configured to be inclined so that when the blade 42 is installed, the blade 42 is also inclined with respect to the stone material, and the inclined arrangement may allow the stone powder to be scraped more cleanly.

Continuing to combine with fig. 5, the glue brushing device 5 includes a third proximity switch 53, a rolling brush 54, a glue storage device 56, and a pump body 57, wherein the pump body 57 is communicated with the glue storage device 56 and the rolling brush 54 through a flow guide pipe 58, and the rolling brush 54 is movably arranged right above the conveying device 1; the third proximity switch 53 is provided on the side of the conveyor 1 on the upstream side of the roller brush 54. The glue brushing device 5 further comprises a supporting plate 51, wherein the supporting plate 51 is arranged right above the conveying device 1, and the rolling brush 54 is fixed on the supporting plate 51 through a lifting device 52. The pump body 57 and the glue reservoir 56 are arranged on one side of the conveyor 1. When the third proximity switch 53 senses the stone, a signal is transmitted to the control device, so that the control device controls the pump body 57 to pump the glue into the rolling brush 54, and the rolling brush 54 can be lowered to reach the height of the stone under the control of the lifting device 52, so that the stone can be automatically rolled and smeared when passing. A buffer spring 59 is provided between the lifting device 52 and the roller brush 54. By the action of the buffer spring 59, different stone thicknesses can be accommodated. The lifting device 52 is a lifting cylinder or a linear motor, and the lifting device 52 is electrically connected to the control device.

The body of the rolling brush 54 is a hollow cylinder, and the surface of the cylinder is fixedly provided with a brush colloid 55, wherein the brush colloid 55 is bristles, is made of soft materials such as PP, nylon, abrasive wires, sisal hemp and the like, can adhere to glue and cannot damage the surface of stone; meanwhile, a plurality of through holes 551 are formed in the surface of the cylinder and beside the brush colloid 55, the through holes 551 are used for flowing out glue from the inside, and the through holes 551 can be distributed in a spiral shape to enable the glue to be distributed more uniformly, and meanwhile, the flow direction of the glue in the cylinder is matched with the flow direction of the glue in the cylinder when the rolling brush 54 rolls, so that the glue can flow out rapidly. Specifically, when the rolling brush rolls, under the action of inertia and centrifugal force, the glue can follow the rolling spiral track, so that the glue outlet speed can be improved due to the fact that the through holes are arranged in the spiral track. Hollow shafts and solid shafts are fixedly arranged on two sides of the rolling brush 54 body respectively and are used for being rotatably arranged on the brush clamps, and the hollow shafts can be communicated with the flow guide pipe 58 and the interior of the rolling brush 54. Here, when the glue enters, the glue will roll along with the body inside because the rolling brush 54 rotates continuously during operation, and the glue will be dispersed under the inertia effect, so that the glue will be dispersed to all corners inside the rolling brush 54, and the glue will be uniformly distributed on the brush colloid 55. Further, in another preferred embodiment, the guide tube 58 may be extended inside the rolling brush 54, the guide tube 58 may extend to the whole rolling brush 54, and fine glue outlet holes are formed on the guide tube 58, so that when glue is fed in, glue is not concentrated at a certain position, but is discharged through each fine glue outlet hole, so that the glue is discharged more uniformly.

According to the application, the stone is positioned by arranging the positioning device 2 on the conveying device 1, the powdering device 3 and the scraping device 4 are arranged to powr the stone firstly, and then the glue brushing device 5 is used for brushing glue, so that the whole glue brushing process is finished on the same production line, and the degree of automation is improved; further, the work of each process is controlled through the proximity switch, so that the cooperative coordination among the processes is improved.

It should be understood that: the above is only a preferred embodiment of the present application, and the protection scope of the present application is not limited to the above examples, and all technical solutions belonging to the concept of the present application belong to the protection scope of the present application. The description of the drawings in the embodiments above illustrates only certain embodiments of the application and should not be taken as limiting the scope, since other related drawings may be made by those of ordinary skill in the art without the benefit of the inventive faculty.

Claims

1. The utility model provides a stone material surface brush glues assembly line device, includes conveyer and controlling means, its characterized in that still includes: a positioning device, a powdering device, a scraping plate device and a glue brushing device, wherein,

the positioning device is arranged at the initial end of the conveyor belt device; the positioning device comprises a first proximity switch, a double-shaft air cylinder connecting frame, a double-shaft air cylinder, a first air cylinder and a second air cylinder, wherein the air cylinder connecting frame is arranged above the conveying device, the double-shaft air cylinder is vertically arranged on the air cylinder connecting frame, and a vertical baffle is arranged on a telescopic shaft of the double-shaft air cylinder connecting frame; the first air cylinder and the second air cylinder are arranged on two sides of the conveying device and are positioned on the upstream side of the air cylinder connecting frame, and a side fixing plate is arranged on the telescopic shafts of the first air cylinder and the second air cylinder; the first proximity switch is arranged between the cylinder connecting frame and the first cylinder or the second cylinder;

the powder scattering device is arranged on the downstream side of the positioning position and is used for scattering stone powder at the front end of the stone;

the scraper device is closely arranged on the downstream side of the powdering device; which is suitable for scraping stone powder along the movement direction of stone; the scraper device comprises a scraper mounting frame and a scraper arranged on the scraper frame, an adjusting device is connected to the scraper, and the adjusting device is suitable for adjusting the distance between the scraper and the conveying device;

the glue brushing device is arranged on the downstream side of the scraping plate device; the method is suitable for coating glue on the stone surface; the glue brushing device comprises a hollow cylindrical rolling brush, a plurality of through holes are spirally distributed on the rolling brush, and a glue brushing body is arranged beside the through holes; the rolling brush is configured to be capable of powdering the stone surface at the powdering device and brushing the stone surface with glue by scraping the opening by the scraping plate; the glue brushing device comprises a third proximity switch, a rolling brush, a glue storage device and a pump body, wherein the pump body is communicated with the glue storage device and the rolling brush, and the rolling brush is movably arranged right above the conveying device; the third proximity switch is arranged on the side edge of the conveying device on the upstream side of the rolling brush;

the control device is electrically connected with the positioning device, the powdering device and the glue brushing device;

the positioning device, the powdering device and the glue brushing device are provided with proximity switches, and the proximity switches are electrically connected with the control device;

the stone surface glue brushing assembly line device is configured to be capable of positioning stone through the positioning device, then powdering the stone surface through the powdering device, then scraping redundant powder on the stone surface through the scraping plate device, and finally brushing glue through the glue brushing device.

2. The stone surface brushing assembly line device of claim 1, wherein the powdering device comprises a second proximity switch, a fixed frame, a moving device, a stone powder storage box and a funnel; the fixed frame is arranged right above the conveying device, the movable device is transversely arranged on the fixed frame, and the movable device is electrically connected with the control device; the stone powder storage box is arranged on the moving device, a funnel is arranged at the bottom of the stone powder storage box, and the stone powder storage box is suitable for following the moving device to transversely move on the fixing frame; the second proximity switch is arranged on the side edge of the conveying device on the upstream side of the fixing frame.

3. The stone surface brushing assembly line device of claim 1, wherein the adjustment means comprises a screw connecting the mounting bracket and the squeegee.

4. A stone surface brushing line device as claimed in claim 3, wherein the scraping plate is obliquely arranged on the upper surface of the conveying device.

5. The stone surface brushing assembly line device of claim 1, further comprising a support plate, wherein the support plate is disposed directly above the conveyor, and wherein the roller brush is fixed to the support plate by a lifting device.

6. The stone surface brushing assembly line device according to claim 5, wherein a buffer spring is arranged between the lifting device and the rolling brush.

7. The stone surface brushing assembly line device according to claim 6, wherein the lifting device is a lifting cylinder or a linear motor, and the lifting device is electrically connected to the control device.