CN212147875U - Heat insulation board processing equipment - Google Patents

Abstract

The utility model relates to a heat insulation board processing device, which relates to the technical field of heat insulation board production and comprises a frame; the conveying mechanism comprises a conveying belt for placing the template and a driving part for driving the conveying belt to move; the cloth feeding mechanism comprises a cloth frame and at least two cloth placing rollers which are detachably arranged on the cloth frame, all the cloth placing rollers are rotatably connected with the cloth frame, the cloth frame is provided with a plate feeding end and a plate discharging end along the moving direction of the conveying belt, the plate feeding end of the cloth frame is rotatably provided with a cloth feeding roller, a fit gap is formed between the cloth feeding roller and the conveying belt, and the plate discharging end of the cloth frame is provided with a scraping plate; and the gluing mechanism is used for adding gel to the template. Rotate on the cloth holder and be provided with two at least cloth rollers of putting in order to be used for installing non-woven fabrics and glass fiber cloth, during the production adds man-hour, non-woven fabrics and glass fiber cloth walk around simultaneously embrace the cloth roller in order to be laminated by last cloth roller on adding the template that has gel to accomplish the processing of heat insulating board, from this, make the utility model has the advantages of heat insulating board processing technology is simple.

Description

Heat insulation board processing equipment

Technical Field

The utility model belongs to the technical field of the technique of heat insulating board production and specifically relates to a heat insulating board processing equipment is related to.

Background

The glass-magnesium fireproof heat-insulating plate is commonly called as a heat-insulating plate, has the advantages of high temperature resistance, flame retardance, sound absorption, shock resistance, insect prevention, corrosion resistance, no toxicity, no odor, no pollution and the like, and can absorb a large amount of heat energy to delay the rise of the ambient temperature in the process of burning in a fire. Therefore, the insulation panels are widely used in the architectural decoration industry.

At present, in the process of processing and producing the heat insulation board by some manufacturers, a production line generally comprises a frame and a conveying belt arranged on the frame, when in production, a substrate (also called a template) needs to be subjected to ash removal treatment firstly, a layer of engine oil is coated on the surface of the substrate, then a magnesium gel material is coated on the surface of the substrate, a non-woven fabric and a glass fiber fabric are attached to the surface of the substrate, then air drying is carried out after the substrate is placed on the substrate, and finally a demoulding procedure is carried out, so that the primary treatment process of the glass fiber and magnesium heat insulation board is completed.

The invention patent with the reference publication number of CN102941621B discloses an automatic production line for building wallboards, which comprises a frame, a casting mold continuous operation device, a lower layer cloth laying device, a bottom layer casting device, an upper layer cloth laying device and a cutter, wherein the lower layer cloth laying device, the bottom layer casting device, the upper layer cloth laying device and the cutter are arranged on the frame and are sequentially arranged above the casting mold continuous operation device; the during operation, put the casting mould on the belt, the casting mould is along with the belt uniform motion, lower floor's shop cloth roller is expanded lower floor's fibre cloth and is laid on the bottom plate of casting mould, the bottom of casting mould is poured to the thick liquids that will stir, the bottom thick liquids is strickleed off to the scraper, the workman will be ready the wallboard double-layered core concora crush to the bottom thick liquids on, to the core all around with upper surface pouring upper thick liquids, upper strata shop cloth roller is expanded upper fibre cloth and is laid on upper thick liquids, the scraper is strickled off upper fibre cloth, cutter cuts off lower floor's fibre cloth and upper fibre cloth, accomplish automated production.

In the actual production process, when the thermal insulation board with small thickness is processed, the distance between the non-woven fabric and the glass fiber cloth can be ignored, but the production line needs to divide the laying of the non-woven fabric and the glass fiber cloth into two times, so that the processing process becomes complicated.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a heat insulating board processing equipment has the simple advantage of heat insulating board processing technology.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a heat insulating board processing equipment, includes the frame, this heat insulating board processing equipment still includes:

the conveying mechanism is arranged on the rack and used for conveying the template, and comprises a conveying belt for placing the template and a driving part for driving the conveying belt to move;

the cloth feeding mechanism is arranged on the rack and positioned above the conveying mechanism, the cloth feeding mechanism comprises a cloth rack and at least two cloth placing rollers which are detachably arranged on the cloth rack, all the cloth placing rollers are rotatably connected with the cloth rack, the cloth rack is provided with a plate inlet end and a plate outlet end along the moving direction of the conveying belt, the plate inlet end of the cloth rack is rotatably provided with the cloth feeding rollers, a bonding gap for bonding a template, gel, non-woven fabrics and glass fiber cloth is formed between the cloth feeding rollers and the conveying belt, and the plate outlet end of the cloth rack is provided with a scraping plate;

the gluing mechanism is arranged on the frame and located at the plate feeding end of the cloth feeding mechanism, and the gluing mechanism is used for adding gel to the template.

Through adopting above-mentioned technical scheme, rotate on the cloth holder and be provided with two at least cloth rollers of putting in order to be used for installing non-woven fabrics and glass fiber cloth, during the production processing, non-woven fabrics and glass fiber cloth are walked around simultaneously and are embraced the cloth roller in order to be laminated on adding the template that has gel by last cloth roller to accomplish the processing of heat insulating board, from this, make this heat insulating board processing equipment have the simple advantage of heat insulating board processing technology.

The utility model discloses further set up to: install on the cloth frame and order about go up the lift portion that the cloth roller goes up and down, the lift portion including slide set up in the lifting slide of cloth frame, on the cloth frame threaded connection have with lifting slide rotates the lifting screw who is connected, lifting slide with go up to rotate between the cloth roller and be connected.

Through adopting above-mentioned technical scheme, rotate the lifting screw in order to drive the lifting slide to cloth roller goes up and down in order to adjust the size in laminating clearance in the drive, comes the control heat-insulating plate thickness through the size in adjustment laminating clearance.

The utility model discloses further set up to: the cloth rack is provided with an adjusting component for adjusting the tension of the non-woven fabric and the glass fiber cloth, and the adjusting component is positioned on one side of the cloth rack outlet end, close to the cloth roller.

Through adopting above-mentioned technical scheme, the tension of non-woven fabrics and glass fiber cloth on the adjusting part regulation cloth holder for non-woven fabrics and glass fiber cloth keep the state of tightening, thereby keep leveling in order to improve the quality of heat insulating board when making non-woven fabrics and glass fiber cloth laminate in the gel.

The utility model discloses further set up to: be provided with the confession on the cloth holder the adjustment tank of adjusting part installation, adjusting part including slide set up in the adjusting block of adjustment tank, rotate set up in adjusting block's dancer roll and provide adjusting block is towards the regulating spring of non-woven fabrics and the fine cloth elasticity of glass, regulating spring's one end with the adjustment tank is connected and the other end with adjusting block connects.

Through adopting above-mentioned technical scheme, the elasticity of adjusting the slider promotes to adjust the slider towards non-woven fabrics and glass fiber cloth to make the dancer rools compress tightly on non-woven fabrics and glass fiber cloth, thereby make non-woven fabrics and glass fiber cloth keep taut.

The utility model discloses further set up to: the scraping plate is rotatably connected with the rack, and the rack is provided with a rotation limiting component for limiting the rotation of the scraping plate.

Through adopting above-mentioned technical scheme, the screed rotates in order to adjust the gap between screed and the conveyer belt to the gel on the template is strickleed off according to the actual required thickness of heat insulating board, thereby makes the heat insulating board of producing level and smooth.

The utility model discloses further set up to: the rotation limiting assembly comprises a rotating shaft which is rotatably arranged on the rack, the scraping plate is fixedly connected with the rotating shaft in a rotating mode, a threaded section is arranged on the outer circular surface of the rotating shaft, and a locking nut which is used for abutting against the rack is in threaded connection with the threaded section.

Through adopting above-mentioned technical scheme, rotate lock nut so that lock nut supports and presses in the frame, restrict the rotation of pivot through the frictional force that increases between lock nut and the frame to the realization is to scraping the restriction of flat pivoted.

The utility model discloses further set up to: the driving part comprises at least two conveying rollers which are rotatably arranged on the rack and a conveying motor which drives the conveying rollers to rotate, the conveying rollers are coated with the conveying belts, and the conveying motor is fixedly connected with the rack.

Through adopting above-mentioned technical scheme, conveying motor orders about the conveying roller and rotates in order to drive the conveyer belt and remove to it can take the template to remove to give and make the conveyer belt.

The utility model discloses further set up to: rubberizing mechanism including fixed set up in the hopper of frame, the lower extreme of hopper has the discharge gate, the hopper rotates and is provided with the control the on-off valve that the discharge gate opened and close.

By adopting the technical scheme, the opening and closing valve is rotated to control the opening and closing of the opening and closing valve, so that the gel filling on the conveying belt is controlled.

To sum up, the utility model discloses a beneficial technological effect does:

1. the cloth rack is rotatably provided with at least two cloth placing rollers for installing non-woven fabrics and glass fiber cloth, and during production and processing, the non-woven fabrics and the glass fiber cloth simultaneously bypass the cloth holding roller to be attached to the template added with the gel by the cloth loading roller, so that the processing of the heat insulation plate is completed, and therefore, the heat insulation plate processing equipment has the advantage of simple heat insulation plate processing technology;

2. rotating the lifting screw to drive the lifting slide block so as to drive the upper cloth roller to lift and lower to adjust the size of the fit clearance, and controlling the thickness of the heat insulation plate by adjusting the size of the fit clearance;

3. the adjusting component adjusts the tension of the non-woven fabric and the glass fiber cloth on the cloth rack, so that the non-woven fabric and the glass fiber cloth are kept in a tight state, and the non-woven fabric and the glass fiber cloth are kept flat when being adhered to gel, so that the quality of the heat insulation plate is improved;

4. the scraping plate rotates to adjust the gap between the scraping plate and the conveying belt, so that the gel on the template is scraped according to the actually required thickness of the thermal insulation plate, and the produced thermal insulation plate is flat.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic sectional structure diagram of the present invention.

In the figure, 1, a frame; 2. a conveying mechanism; 21. a conveyor belt; 22. a conveying roller; 23. a conveying motor; 24. a first sprocket; 25. a second sprocket; 26. a drive chain; 3. a cloth feeding mechanism; 31. a cloth holder; 311. a board inlet end; 312. a plate outlet end; 313. an adjustment groove; 32. arranging a cloth roller; 33. a cloth feeding roller; 331. a cloth combining roller; 34. fitting gaps; 35. scraping the plate; 36. a lifting part; 361. a lifting slide block; 362. a lifting screw; 37. an adjustment assembly; 371. adjusting the sliding block; 372. a regulating roller; 373. adjusting the spring; 38. a rotation limiting assembly; 381. a rotating shaft; 382. locking the nut; 4. a gluing mechanism; 41. a hopper; 42. and opening and closing the valve.

Detailed Description

A preferred embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a heat insulation board processing equipment, including frame 1, frame 1 comprises two support bodies. The frame 1 is provided with a conveying mechanism 2, a cloth feeding mechanism 3 and a gluing mechanism 4.

The conveying mechanism 2 is used for conveying the template. Specifically, the conveying mechanism 2 includes a conveying belt 21 for placing the template and a driving portion for driving the conveying belt 21 to move, and the conveying belt 21 is located between two frame bodies. The driving portion includes at least two conveying rollers 22 arranged in parallel and a conveying motor 23 that drives the conveying rollers 22 to rotate. The axis of conveying roller 22 sets up along the horizontal direction, and the both ends of conveying roller 22 rotate respectively and connect in the support body. The conveyor belt 21 is wrapped around the conveyor roller 22 to rotate following the conveyor roller 22. The conveying motor 23 is fixedly connected with one of the frame bodies. Preferably, a first chain wheel 24 is coaxially and fixedly arranged on an output shaft of the conveying motor 23, a second chain wheel 25 is coaxially and fixedly arranged on the conveying roller 22, and a transmission chain 26 is wrapped on the first chain wheel 24 and the second chain wheel 25.

The cloth feeding mechanism 3 is positioned above the conveying mechanism 2 and used for conveying the non-woven fabrics and the glass fiber cloth and coating the non-woven fabrics and the glass fiber cloth on the template. Specifically, the cloth feeding mechanism 3 includes a cloth holder 31 and at least two cloth placing rollers 32 detachably disposed on the cloth holder 31. The cloth holder 31 is composed of two holders, one of which is mounted on one holder body and the other of which is mounted on the other holder body. The axial line of the cloth placing roller 32 is parallel to the axial line of the conveying roller 22, the shelves are provided with placing grooves for assembling and disassembling the end parts of the cloth placing roller 32, and the two ends of the cloth placing roller 32 are respectively and rotatably connected with the placing grooves on the two shelves, so that all the cloth placing rollers 32 are rotatably connected with the cloth shelf 31.

The cloth holder 31 has a board inlet end 311 and a board outlet end 312 in the moving direction of the conveyor belt 21. The plate feeding end 311 of the cloth rack 31 is rotatably provided with an upper cloth roller 33, the axis of the upper cloth roller 33 is parallel to the axis of the cloth placing roller 32, and two ends of the upper cloth roller 33 are respectively rotatably connected with the two racks. All cloth placing rollers 32 are positioned on one side of the upper cloth roller 33 close to the plate outlet end 312. A bonding gap 34 for bonding the template, the gel, the non-woven fabric and the glass fiber fabric is formed between the cloth feeding roller 33 and the conveyor belt 21. Preferably, a cloth combining roller 331 is rotatably disposed on the paper output end of the cloth holder 31, two ends of the cloth combining roller 331 are respectively rotatably connected to the two cloth holders, and all the cloth placing rollers 32 are disposed between the cloth combining roller 331 and the cloth loading roller 33. The nonwoven fabric mounted on one of the cloth-placing rollers 32 and the glass fiber fabric mounted on the other cloth-placing roller 32 simultaneously pass around the cloth-joining roller 331 to be overlapped, and the overlapped nonwoven fabric and glass fiber fabric pass around the upper cloth roller 33 to enter the fitting gap 34 from the board-entering section, and then follow the template to exit from the board-exiting end 312.

It is worth mentioning that the two racks of the cloth rack 31 are respectively provided with a lifting part 36 for driving the upper cloth roller 33 to lift. The lifting part 36 includes a lifting slider 361 slidably disposed on the cloth holder 31, a lifting screw 362 rotatably connected to the lifting slider 361 is threadedly connected to the cloth holder 31, an axis of the lifting screw 362 is disposed along a vertical direction, and the lifting slider 361 is disposed at a lower end of the lifting screw 362. The lifting slide 361 is rotatably connected with one end corresponding to the upper cloth roller 33. The lifting screw 362 is rotated to drive the lifting slide 361, so that the upper cloth roller 33 is driven to lift to adjust the size of the fit clearance 34, and the thickness of the heat insulation plate is controlled by adjusting the size of the fit clearance 34.

Preferably, the adjustment grooves 313 are provided on both shelves, and the adjustment grooves 313 extend in a vertical direction. The adjusting groove 313 is internally provided with an adjusting component 37 for adjusting the tension of the non-woven fabrics and the glass fiber fabrics, and the adjusting component 37 is positioned on one side of the cloth feeding roller 33 close to the plate outlet end 312 of the cloth holder 31 and is positioned on one side of the cloth combining roller 331 close to the cloth feeding roller 33. The adjusting unit 37 includes an adjusting slider 371 slidably disposed in the adjusting groove 313, an adjusting roller 372 rotatably disposed on the adjusting slider 371, and an adjusting spring 373 providing the adjusting slider 371 with an elastic force toward the nonwoven fabric and the fiberglass fabric. The number of the adjusting sliders 371 is two, the two adjusting sliders 371 are respectively positioned in the adjusting grooves 313 of the two shelves, the number of the adjusting rollers 372 is one, and two ends of each adjusting roller 372 are respectively connected with the two adjusting sliders 371 in a rotating manner. Each adjusting slider 371 corresponds to one adjusting spring 373, one end of each adjusting spring 373 is connected with the adjusting groove 313, and the other end is connected with the adjusting slider 371. The elastic force of the adjusting slider 371 pushes the adjusting slider 371 toward the non-woven fabric and the glass fiber cloth to press the adjusting roller 372 against the non-woven fabric and the glass fiber cloth, so that the non-woven fabric and the glass fiber cloth are kept tight.

The outlet end 312 of the cloth holder 31 is provided with a scraping plate 35. Two ends of the scraping plate 35 are respectively connected with the two clamping plates of the frame 1 in a rotating manner, and a rotation limiting component 38 for limiting the rotation of the scraping plate 35 is arranged on one frame body. The leveling plate 35 rotates to adjust a gap between the leveling plate 35 and the conveyor belt 21 to level the gel on the board according to an actually required thickness of the insulation board, thereby leveling the produced insulation board. Specifically, the rotation limiting assembly 38 includes a rotating shaft 381 rotatably disposed on the frame 1, two ends of the rotating shaft 381 are rotatably connected to the two frame bodies, respectively, and the scraping plate 35 is fixedly connected to the rotating shaft. One end of the rotating shaft 381 penetrates through the corresponding frame body, a threaded section is arranged on the outer circular surface of the part, penetrating through the frame body, of the rotating shaft 381, and a locking nut 382 used for abutting against the frame 1 is connected to the threaded section in a threaded mode. The lock nut 382 is rotated to press the lock nut 382 against the frame 1, and the rotation of the rotation shaft 381 is restricted by increasing the friction force between the lock nut 382 and the frame 1, thereby restricting the rotation of the scraping plate 35.

The gluing mechanism 4 is positioned at the plate inlet end 311 of the gluing mechanism 3, and the gluing mechanism 4 is used for adding gel to the template. Specifically, gluing mechanism 4 is including fixed setting up in frame 1's hopper 41, and the lower extreme of hopper 41 has the discharge gate, and hopper 41 rotates and is provided with the on-off valve 42 that controls the discharge gate and open and close. The open-close valve 42 is rotated to control the open and close of the open-close valve 42, so as to realize the control of the gel filling on the conveying belt 21.

The implementation principle of the embodiment is as follows: the non-woven fabric is arranged on one cloth arranging roller 32, the glass fiber cloth is arranged on the other cloth arranging roller 32, the non-woven fabric and the glass fiber cloth simultaneously bypass the cloth combining roller 331 to be overlapped, the opening and closing valve 42 is opened to enable the gel in the hopper 41 to fall on the template, the overlapped non-woven fabric and the glass fiber cloth bypass the cloth upper roller 33 to enter the fitting gap 34 from the plate inlet end 311 and to be fitted on the gel under the action of the cloth upper roller 33, and then the gel and the non-woven fabric leave from the plate outlet end 312 along with the template.

The embodiments of the present invention are the preferred embodiments of the present invention, and not limited to the above, wherein the same reference numerals are used for the same components. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component. Therefore, the method comprises the following steps: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a heat insulating board processing equipment, includes frame (1), its characterized in that, this heat insulating board processing equipment still includes:

the conveying mechanism (2) is arranged on the rack (1) and used for conveying the templates, and the conveying mechanism (2) comprises a conveying belt (21) used for placing the templates and a driving part driving the conveying belt (21) to move;

the cloth feeding mechanism (3) is arranged above the conveying mechanism (2) and arranged on the rack (1), the cloth feeding mechanism (3) comprises a cloth frame (31) and at least two cloth placing rollers (32) detachably arranged on the cloth frame (31), all the cloth placing rollers (32) are rotatably connected with the cloth frame (31), the cloth frame (31) is provided with a plate inlet end (311) and a plate outlet end (312) along the moving direction of the conveying belt (21), the plate inlet end (311) of the cloth frame (31) is rotatably provided with a cloth feeding roller (33), a bonding gap (34) for bonding a template, gel, non-woven fabrics and glass fiber cloth is formed between the cloth feeding roller (33) and the conveying belt (21), and a scraping plate (35) is arranged at the plate outlet end (312) of the cloth frame (31);

rubberizing mechanism (4), set up in frame (1) just is located go up advance board end (311) of cloth mechanism (3), rubberizing mechanism (4) are used for adding gel to the template.

2. The heat insulation board processing equipment according to claim 1, wherein a lifting part (36) for driving the upper cloth roller (33) to lift is installed on the cloth holder (31), the lifting part (36) comprises a lifting slide block (361) which is slidably arranged on the cloth holder (31), a lifting screw (362) which is rotatably connected with the lifting slide block (361) is in threaded connection with the cloth holder (31), and the lifting slide block (361) is rotatably connected with the upper cloth roller (33).

3. The heat insulation board processing equipment according to claim 1, characterized in that the cloth holder (31) is provided with an adjusting component (37) for adjusting the tension of the non-woven fabric and the glass fiber fabric, and the adjusting component (37) is positioned on one side of the cloth feeding roller (33) close to the board outlet end (312) of the cloth holder (31).

4. The heat insulation board processing equipment according to claim 3, characterized in that the cloth holder (31) is provided with an adjusting groove (313) for installing the adjusting component (37), the adjusting component (37) comprises an adjusting slide block (371) slidably arranged in the adjusting groove (313), an adjusting roller (372) rotatably arranged on the adjusting slide block (371), and an adjusting spring (373) providing the adjusting slide block (371) with elastic force towards the non-woven fabric and the fiberglass fabric, one end of the adjusting spring (373) is connected with the adjusting groove (313) and the other end is connected with the adjusting slide block (371).

5. The heat insulation board processing equipment according to the claim 1, characterized in that the scraping plate (35) is rotatably connected with the frame (1), and a rotation limiting component (38) for limiting the rotation of the scraping plate (35) is arranged on the frame (1).

6. The heat insulation board processing equipment according to claim 5, wherein the rotation limiting assembly (38) comprises a rotating shaft (381) rotatably arranged on the frame (1), the scraping plate (35) is fixedly connected with the rotating shaft, a threaded section is arranged on the outer circumferential surface of the rotating shaft (381), and a locking nut (382) used for abutting against the frame (1) is connected with the threaded section in a threaded manner.

7. The heat insulation board processing device according to claim 1, wherein the driving portion comprises at least two conveying rollers (22) rotatably disposed on the frame (1) and a conveying motor (23) for driving the conveying rollers (22) to rotate, the conveying belt (21) is wrapped on the conveying rollers (22), and the conveying motor (23) is fixedly connected with the frame (1).

8. The heat insulation plate processing equipment according to claim 1, wherein the gluing mechanism (4) comprises a hopper (41) fixedly arranged on the frame (1), a discharge port is arranged at the lower end of the hopper (41), and an opening and closing valve (42) for controlling the opening and closing of the discharge port is rotatably arranged on the hopper (41).

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