CN216181837U - Clout collection device of heated board of flow coating fire resistant coating - Google Patents

Abstract

The utility model belongs to the technical field of heat insulation board processing, in particular to a surplus material collecting device of a heat insulation board with flow coating fireproof paint, which comprises a supporting column, wherein a conveying belt device is fixedly arranged at the top of the supporting column, first servo electric cylinders are fixedly arranged on the front side wall and the rear side wall of the conveying belt device, a scraper mounting block is fixedly arranged at the top end of an output shaft of the first servo electric cylinder, a V-shaped scraper is screwed between the front scraper mounting block and the rear scraper mounting block, a connecting rod is fixedly arranged at the bottom of the conveying belt device, a paint surplus material collecting device is fixedly connected to the bottom of the connecting rod, and a drying device is arranged on the outer side of the conveying belt device. The production cost is saved.

Description

Clout collection device of heated board of flow coating fire resistant coating

Technical Field

The utility model belongs to the technical field of insulation board processing, and particularly relates to a surplus material collecting device for an insulation board with flow-coating fireproof paint.

Background

The popular and easy to understand of the heat insulation plate is the plate for heat insulation of the building. The heat-insulating board is a hard foamed plastic board which is made by using polystyrene resin as a raw material, adding other raw auxiliary materials and polymer, heating, mixing, injecting a catalyst, extruding and molding, has the moisture-proof and waterproof properties, can reduce the thickness of an outer enclosure structure of a building so as to increase the indoor use area, and is a fireproof heat-insulating board, wherein a fireproof coating needs to be coated on the surface of the fireproof heat-insulating board during processing so as to increase the fireproof performance.

SUMMERY OF THE UTILITY MODEL

The refractory coating on the surface of the heat preservation plate is easy to generate the condition of different flow coating thicknesses at various positions in the flow coating process, the thicker part is certainly wasted, and the thinner part affects the refractory performance of the part. The utility model provides a surplus material collecting device of a heat insulation plate with flow coating fireproof paint, which can scrape the paint with the thickness exceeding the required thickness on the heat insulation plate by using a V-shaped scraper and fill the part with insufficient thickness leftwards, and make the redundant paint fall into a surplus material collecting bin after filling, and the paint discharged from the surplus material collecting bin can be directly reused to other production lines after being recovered, thereby saving the production cost.

The utility model provides the following technical scheme: a surplus material collecting device of a flow-coating fireproof coating heat-insulation board comprises a supporting column, wherein a conveying belt device is fixedly installed at the top of the supporting column, first servo electric cylinders are fixedly installed on the front side wall and the rear side wall of the conveying belt device, scraper installing blocks are fixedly installed at the top ends of output shafts of the first servo electric cylinders, V-shaped scrapers are connected between the front scraper installing blocks and the rear scraper installing blocks in a threaded mode, a connecting rod is fixedly installed at the bottom of the conveying belt device, a coating surplus material collecting device is fixedly connected to the bottom of the connecting rod, electric cylinder installing plates are fixedly installed on the front side and the rear side of the conveying belt device, a second servo electric cylinder is fixedly installed on one side, away from the conveying belt device, of the electric cylinder installing plates, a piston rod of the second servo electric cylinder penetrates through the electric cylinder installing plates and is fixedly connected with the roller installing plates, and a row of rollers is fixedly installed on the other side of the roller installing plates, and a drying device is arranged on the outer side of the conveyor belt device, and a control device is fixedly mounted on the front side of the drying device.

The coating excess material collecting device comprises an excess material collecting box fixedly connected with a connecting rod, an anticoagulant storage bin is fixedly mounted on the right side of the excess material collecting box, a self-priming pump is fixedly mounted at the top of the anticoagulant storage bin, a liquid outlet of the self-priming pump is fixedly connected with a conveying pipe, the other end of the conveying pipe is fixedly communicated with the top end of a quantifying bin, the bottom of the quantifying bin is communicated with a first electric control valve, a liquid level sensor is fixedly mounted at the top of the excess material collecting box, a probe is mounted at the bottom of the liquid level sensor, an ultrasonic generator is fixedly mounted on the left side of the excess material collecting box, the right side of the ultrasonic generator is connected with an energy converter, and a vibrating bar is fixedly mounted on the right side of the energy converter; when the device is used, the liquid level height of the collected paint in the excess material collecting box is set through the control device, the self-priming pump is controlled to operate to pump the anti-coagulant agent in the anti-coagulant agent storage bin to the quantitative bin, the input quantity is monitored through the flow meter, when the anti-coagulant agent quantity in the quantitative bin reaches the quantity required by the paint with the set liquid level height, the self-priming pump stops operating, the first electric control valve is opened to discharge the anti-coagulant agent in the quantitative bin into the excess material collecting box, the ultrasonic generator starts to work along with the continuous rise of the liquid level in the excess material collecting box, the transducer converts the ultrasonic wave into kinetic energy to drive the vibrating rod to vibrate at high speed in the excess material collecting box, so that the stirring of the paint and the anti-coagulant agent in the excess material collecting box is realized, and the vibration of the vibrating rod enables the paint in the excess material collecting box to be in a motion state all the time, and the anti-coagulant agent and the paint are fully mixed together, the paint in the excess material collecting box can be prevented from solidifying, and when the probe of the liquid level sensor senses that the height of the liquid level of the paint in the excess material collecting box reaches a set height, the second electric control valve is opened to discharge the paint in the excess material collecting box.

The bottom of the excess material collecting box is funnel-shaped, and a second electric control valve is connected and mounted at the bottom of the excess material collecting box; the second electric control valve is used for controlling the discharge of the coating in the excess material collecting box.

Wherein, a flowmeter is arranged on the conveying pipe; the flowmeter is used for monitoring the amount of the anticoagulant input into the quantitative bin.

The front side of the control device is fixedly provided with a display screen and a control keyboard, and the interior of the control device is fixedly provided with a PLC (programmable logic controller); the display screen is used for displaying an operation interface and various data information, and the control keyboard is used for giving instructions to the PLC controller and controlling the operation of each device.

The conveying belt device comprises a conveying belt mounting frame, wherein a first conveying belt and a second conveying belt are respectively mounted on the left side and the right side of the V-shaped scraper on the conveying belt mounting frame; the space between the first conveyor belt and the second conveyor belt is used for the scraped coating to pass through.

Wherein, the gyro wheel adopts the plastic wheel.

The drying device comprises a drying device, a heating pipe mounting seat and an infrared heating pipe, wherein the heating pipe mounting seat is fixedly arranged in the drying device and is provided with the infrared heating pipe; the infrared heating pipe is used for drying the coating on the surface of the heat-insulation plate.

The utility model has the beneficial effects that:

when the device is used, the control device is utilized to open the infrared heating pipe and control the first servo electric cylinder to operate, the scraper mounting block is driven to ascend and descend together with the V-shaped scraper, the bottom end of the V-shaped scraper is made to ascend or descend to the position where the bottom of the V-shaped scraper and the top surface of the first conveying belt are located, the distance between the bottom of the V-shaped scraper and the plane of the top surface of the first conveying belt is equal to the thickness of the heat insulation board and the thickness of the surface fire-resistant paint needed to flow and coat, the second servo electric cylinder is controlled to stretch out, the roller mounting plate is driven to move towards the front side wall and the rear side wall of the heat insulation board, the distance between the front row of rollers and the rear row of rollers is equal to the width of the heat insulation board, the front side wall and the rear side wall of the heat insulation board can be respectively contacted, the coating surface of the heat insulation board coated with the fire-resistant paint upwards is placed at the position, which is located between the front row of rollers and the rear row of rollers, the heat insulation board is driven to move towards the right, when the heat insulation board moves below the V-shaped scraper, the V-shaped scraper can scrape the paint with the heat insulation board, the paint with the thickness of which exceeds the thickness needed thickness and can be filled to the left The processing effect is improved, and the redundant paint after filling is dropped into a residual material collecting bin;

when the device is used, the liquid level height of the collected paint in the excess material collecting box is set through the control device, the self-priming pump is controlled to operate to pump the anti-coagulant agent in the anti-coagulant agent storage bin to the quantitative bin, the input quantity is monitored through the flow meter, when the anti-coagulant agent quantity in the quantitative bin reaches the quantity required by the paint with the set liquid level height, the self-priming pump stops operating, the first electric control valve is opened to discharge the anti-coagulant agent in the quantitative bin into the excess material collecting box, the excess paint scraped off by the V-shaped scraper blade flows out along the front and rear inclined edges of the V-shaped scraper blade, the ultrasonic generator starts to work along with the continuous rise of the liquid level in the excess material collecting box, the transducer converts ultrasonic into kinetic energy to drive the vibrating rod to vibrate at high speed in the excess material collecting box, so as to stir the paint and the anti-coagulant agent in the excess material collecting box, and the vibration of the vibrating rod enables the paint in the excess material collecting box to be in a motion state all the time, the intensive mixing of cooperation anticoagulant and coating can prevent that the coating in the clout collecting box from solidifying, and after level sensor's probe sensed the coating liquid level height in the clout collecting box and reached and set for the height, second electric control valve opened, discharged the coating in the clout collecting box, can directly reuse other production lines after the recovery of discharged coating, practices thrift manufacturing cost.

And conveying the scraped heat insulation board into a drying device by a second conveying belt, and drying the fireproof paint on the surface of the heat insulation board by using an infrared heating pipe.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

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

FIG. 2 is a front cross-sectional structural view of the present invention;

FIG. 3 is a schematic top view of the present invention;

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

in the figure: 1. a support pillar; 2. a conveyor means; 3. a first servo electric cylinder; 4. a scraper mounting block; 5. a V-shaped scraper; 6. a connecting rod; 7. a paint residue collecting device; 8. an electric cylinder mounting plate; 9. a second servo electric cylinder; 10. mounting a roller; 11. a roller; 12. a drying device; 13. a control device; 14. a residual material collecting box; 15. a storage bin for the anticoagulant; 16. a self-priming pump; 17. a delivery pipe; 18. a quantitative bin; 19. a first electrically controlled valve; 20. a liquid level sensor; 21. a probe; 22. an ultrasonic generator; 23. a transducer; 24. a vibrating rod; 25. a second electrically controlled valve; 26. a flow meter; 27. a display screen; 28. a control keyboard; 29. a PLC controller; 30. a conveyor belt mounting frame; 31. a first conveyor belt; 32. a second conveyor belt; 33. a heating pipe mounting seat; 34. an infrared heating pipe.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: a surplus material collecting device of a flow-coating fireproof coating heat-insulation board comprises a supporting column 1, wherein a conveying belt device 2 is fixedly installed at the top of the supporting column 1, first servo electric cylinders 3 are fixedly installed on the front side wall and the rear side wall of the conveying belt device 2, a scraper installation block 4 is fixedly installed at the top end of an output shaft of the first servo electric cylinder 3, a V-shaped scraper 5 is connected between the front scraper installation block 4 and the rear scraper installation block 4 in a threaded mode, a connecting rod 6 is fixedly installed at the bottom of the conveying belt device 2, a coating surplus material collecting device 7 is fixedly connected to the bottom of the connecting rod 6, electric cylinder installation plates 8 are fixedly installed on the front side and the rear side of the conveying belt device 2, a second servo electric cylinder 9 is fixedly installed on one side, far away from the conveying belt device, of the electric cylinder installation plate 8, and a piston rod of the second servo electric cylinder 9 penetrates through the electric cylinder installation plate 8 and is fixedly connected with a roller installation plate 10, the opposite side fixed mounting of gyro wheel mounting panel 10 has one row of gyro wheel 11, the outside of conveyor means 2 is equipped with drying device 12, drying device 12's front side fixed mounting has controlling means 13.

In this embodiment:

the paint residue collecting device 7 comprises a residue collecting box 14 fixedly connected with the connecting rod 6, a coagulant inhibitor storage bin 15 is fixedly mounted on the right side of the residue collecting box 14, a self-sucking pump 16 is fixedly mounted at the top of the coagulant inhibitor storage bin 5, a liquid outlet of the self-sucking pump 16 is fixedly connected with a conveying pipe 17, the other end of the conveying pipe 17 is fixedly communicated with the top end of a quantitative bin 18, the bottom of the quantitative bin 18 is communicated with a first electric control valve 19, a liquid level sensor 20 is fixedly mounted at the top of the residue collecting box 14, a probe 21 is mounted at the bottom of the liquid level sensor 20, an ultrasonic generator 22 is fixedly mounted on the left side of the residue collecting box 14, an energy converter 23 is connected to the right side of the ultrasonic generator 22, and a vibrating rod 24 is fixedly mounted on the right side of the energy converter 23; when the device is used, the liquid level height of the paint collected in the excess material collecting box 14 during discharge is set through the control device 13, the self-priming pump 16 is controlled to operate to pump the anti-coagulant in the anti-coagulant storage bin 15 to the quantitative bin 18, the input quantity is monitored through the flow meter 26, when the amount of the anti-coagulant in the quantitative bin 18 reaches the amount corresponding to the paint with the set liquid level height, the self-priming pump 16 stops operating, the first electric control valve 19 is opened, the anti-coagulant in the quantitative bin 18 is discharged into the excess material collecting box 14, the ultrasonic generator 22 starts to work along with the continuous rising of the liquid level in the excess material collecting box 14, the transducer 23 converts ultrasonic waves into kinetic energy to drive the vibrating rod 24 to vibrate at high speed in the excess material collecting box 14, so that the paint and the anti-coagulant in the excess material collecting box 14 are stirred, and the vibration of the vibrating rod 24 enables the paint in the excess material collecting box 14 to be in a motion state all the time, the paint in the excess material collecting box 14 can be prevented from solidifying by matching with the sufficient mixing of the anti-coagulant agent and the paint, and after the probe of the liquid level sensor 20 senses that the height of the liquid level of the paint in the excess material collecting box 14 reaches the set height, the second electric control valve 25 is opened to discharge the paint in the excess material collecting box 14.

The bottom of the excess material collecting box 14 is funnel-shaped, and the bottom of the excess material collecting box 14 is connected with and provided with a second electric control valve 25; the second electrically controlled valve 25 is used to control the discharge of the paint inside the surplus collection tank 14.

A flowmeter 26 is arranged on the conveying pipe 17; the flow meter is used to monitor the amount of anticoagulant that is input into the dosing bin 18.

A display screen 27 and a control keyboard 28 are fixedly installed on the front side of the control device 13, and a PLC (programmable logic controller) 29 is fixedly installed inside the control device 13; the display screen is used for displaying an operation interface and various data information, and the control keyboard 28 is used for giving instructions to the PLC 29 and controlling the operation of each device.

The conveyor belt device 2 comprises a conveyor belt mounting rack 30, and a first conveyor belt 31 and a second conveyor belt 32 are respectively mounted on the left side and the right side of the V-shaped scraper 5 on the conveyor belt mounting rack 30; the space between the first conveyor belt 31 and the second conveyor belt 32 is used for the scraped coating to pass through.

The roller 11 is a plastic wheel.

A heating pipe installation seat 33 is fixedly arranged inside the drying device 12, and an infrared heating pipe 34 is installed on the heating pipe installation seat 33; the infrared heating pipe 34 is used for drying the paint on the surface of the insulation board.

The working principle and the using process of the utility model are as follows: when the device is used, the control device is utilized to open the infrared heating pipe 34 and control the first servo electric cylinder 3 to operate, the scraper mounting block 4 and the V-shaped scraper 5 are driven to lift, the bottom end of the V-shaped scraper 5 is driven to rise or fall to the height, the distance between the bottom of the V-shaped scraper 5 and the plane where the top surface of the first conveying belt 31 is located, is the same as the thickness of the insulation board and the required flow coating thickness of the fire-resistant coating on the surface of the insulation board, the second servo electric cylinder 9 is controlled to extend, the roller mounting plate 10 is driven to move towards the front side wall and the rear side wall of the insulation board, the distance between the front row of rollers 11 and the rear row of rollers 11 is the same as the width of the insulation board, the front side wall and the rear side wall of the insulation board can be respectively contacted, the coating surface of the insulation board coated with the fire-resistant coating is upwards placed on the first conveying belt 31 at the position between the front row of rollers 11 and the rear row of rollers, the first conveying belt 31 drives the insulation board to move towards the right, when the insulation board moves below the V-shaped scraper 5, the V-shaped scraper 5 scrapes off the coating with the thickness exceeding the required thickness on the heat insulation board, and fills the part with insufficient thickness leftwards, the scraped redundant coating flows out along the front and back two inclined edges of the V-shaped scraper 5 and falls into the excess material collecting box 14, the scraped part of the heat insulation board is conveyed onto the second conveyor belt 32 and is continuously limited by the roller 11, the heat insulation board can be prevented from shifting in the scraping process through the clamping of the roller 11, the scraped heat insulation board is conveyed into the drying device 12 through the second conveyor belt 32, the fireproof coating on the surface of the heat insulation board is dried through the infrared heating pipe 34, when the device is used, the liquid level height of the coating collected in the excess material collecting box 14 is set through the control device 13, the self-sucking pump 16 is controlled to pump out the anticoagulant in the anticoagulant storing bin 15 and convey the anticoagulant into the quantitative bin 18, the input amount is monitored through the flowmeter 26, when the amount of the anti-coagulation agent in the quantitative bin 18 reaches the amount required by the paint with the set liquid level height, the self-priming pump 16 stops running, the first electric control valve 19 is opened, the anti-coagulation agent in the quantitative bin 18 is discharged into the excess material collecting box 14, the ultrasonic generator 22 starts working along with the continuous rise of the liquid level in the excess material collecting box 14, the transducer 23 converts ultrasonic waves into kinetic energy to drive the vibrating rod 24 to vibrate at high speed in the excess material collecting box 14, so that the stirring of the paint and the anti-coagulation agent in the excess material collecting box 14 is realized, the paint in the excess material collecting box 14 is always in a motion state by the vibration of the vibrating rod 24, the paint in the excess material collecting box 14 is prevented from being solidified by matching with the full mixing of the anti-coagulation agent and the paint, and when the probe of the liquid level sensor 20 senses that the liquid level height of the paint in the excess material collecting box 14 reaches the set height, the second electric control valve 25 is opened, the paint in the residue collection tank 14 is discharged.

Claims (8)

1. The utility model provides a clout collection device of heated board of flow coating fire resistant paint which characterized in that: the device comprises a supporting column, a conveying belt device is fixedly installed at the top of the supporting column, first servo electric cylinders are fixedly installed on the front side wall and the rear side wall of the conveying belt device, scraper installation blocks are fixedly installed at the top end of an output shaft of the first servo electric cylinder, a V-shaped scraper is connected between the front scraper installation block and the rear scraper installation block in a threaded manner, a connecting rod is fixedly installed at the bottom of the conveying belt device, a paint excess material collecting device is fixedly connected to the bottom of the connecting rod, electric cylinder installation plates are fixedly installed on the front side and the rear side of the conveying belt device, a second servo electric cylinder is fixedly installed on one side, away from the conveying belt device, of the electric cylinder installation plate, a piston rod of the second servo electric cylinder penetrates through the electric cylinder installation plate and is fixedly connected with the roller installation plate, a row of rollers are fixedly installed on the other side of the roller installation plate, and a drying device is arranged on the outer side of the conveying belt device, and the front side of the drying device is fixedly provided with a control device.

2. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 1, is characterized in that: coating clout collection device includes and is connected fixed clout collecting box with the connecting rod, the right side fixed mounting of clout collecting box has the anticoagulant storage chamber, the top fixed mounting of anticoagulant storage chamber has the self priming pump, the liquid outlet and the conveyer pipe fixed connection of self priming pump, the other end of conveyer pipe is fixed with the top intercommunication in ration storehouse, the bottom intercommunication in ration storehouse has first automatically controlled valve, the top fixed mounting of clout collecting box has level sensor, level sensor's bottom is installed the probe, the left side fixed mounting of clout collecting box has supersonic generator, supersonic generator's right side is connected with the transducer, the right side fixed mounting of transducer has the vibrting spear.

3. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 2, is characterized in that: the bottom of the excess material collecting box is funnel-shaped, and the bottom of the excess material collecting box is connected with and provided with a second electric control valve.

4. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 2, is characterized in that: and a flowmeter is arranged on the conveying pipe.

5. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 1, is characterized in that: the front side of the control device is fixedly provided with a display screen and a control keyboard, and the interior of the control device is fixedly provided with a PLC (programmable logic controller).

6. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 1, is characterized in that: the conveyor belt device comprises a conveyor belt mounting frame, and a first conveyor belt and a second conveyor belt are respectively mounted on the left side and the right side of the V-shaped scraper plate on the conveyor belt mounting frame.

7. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 1, is characterized in that: the roller adopts plastic wheel.

8. The excess material collecting device of the insulation board of the flow coating fire-resistant paint, according to claim 1, is characterized in that: the drying device is characterized in that a heating pipe mounting seat is fixedly arranged inside the drying device, and an infrared heating pipe is mounted on the heating pipe mounting seat.

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