CN114054239A

CN114054239A - Solution spraying equipment is used in production of fiber reinforcement silicate board

Info

Publication number: CN114054239A
Application number: CN202111423135.5A
Authority: CN
Inventors: 李芳明; 彭锋; 刘小庆
Original assignee: Yichun Jinte Building Material Industry Co ltd
Current assignee: Yichun Jinte Building Material Industry Co ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-02-18

Abstract

The invention relates to solution spraying equipment, in particular to solution spraying equipment for producing fiber reinforced silicate plates. The solution spraying equipment for producing the fiber reinforced silicate board is convenient for people to spray the silicate board, does not affect physical and psychological health, and is time-saving and labor-saving. The utility model provides a production of fibre reinforcement silicate board is with solution spraying equipment, is including installation under casing, supporting baseplate and sealed roof, and installation under casing bottom rigid coupling has supporting baseplate, and the mode that installation under casing upper portion passes through the bolt is connected with sealed roof. According to the invention, a plate is put in from the right side of the sealing top plate, the servo motor is started to work, the first material conveying wheel rotates reversely to drive the plate to move leftwards, and meanwhile, the water pump discharges the solution into the buffer cylinder through the liquid guide pipe, so that the atomizing spray pipe works to spray the plate, and the redundant solution is discharged through the liquid discharge pipe, therefore, people can spray the silicate plate conveniently, the physical and mental health is not influenced, and the time and the labor are saved.

Description

Solution spraying equipment is used in production of fiber reinforcement silicate board

Technical Field

The invention relates to solution spraying equipment, in particular to solution spraying equipment for producing fiber reinforced silicate plates.

Background

After the production of fiber reinforced silicate board, for follow-up better use or sale, generally can scribble some colored pigment or waterproof coating to it, at present, mostly manual work cooperation painting tool sprays panel, at first operating personnel is vertical state with panel and fixes, then starts painting tool and carry out comprehensive spraying paint to panel, because solution smell is comparatively sharp, the time is of a specified duration, influences people's physical and mental health, and the hand need incessantly move, the time is of a specified duration, and is harder.

Therefore, the solution spraying equipment for producing the fiber reinforced silicate board is needed to be designed, which is convenient for people to spray the silicate board, does not influence physical and psychological health, and is time-saving and labor-saving, so as to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defects that the smell of the solution is pungent, the body and mind health of people is influenced due to long time, the hands need to move continuously, and the solution spraying equipment for producing the fiber reinforced silicate board is time-saving and labor-saving, and is convenient for people to spray the silicate board, does not influence the body and mind health.

The invention is realized by the following technical approaches:

the utility model provides a production of fibre reinforcement silicate board is with solution spraying equipment, including the installation under casing, supporting baseplate, sealed roof, radiating bottom plate, the start button, stop button, the atomizing spray tube, fortune material mechanism and spraying mechanism, installation under casing bottom rigid coupling has supporting baseplate, the mode that installation under casing upper portion passes through the bolt is connected with sealed roof, sealed roof middle part rotary type is connected with the atomizing spray tube that is used for spraying solution, the anterior radiating bottom plate that is connected with through the mode of bolt of installation under casing, installation under casing leading flank rigid coupling has start button and stop button, stop button is located the start button right side, be equipped with the fortune material mechanism that is used for carrying panel on the installation under casing, be equipped with the spraying mechanism that is used for carrying out the spraying to panel on sealed roof, spraying mechanism rotates with the atomizing spray tube to be connected.

In one embodiment, the conveying mechanism comprises a mounting frame, a servo motor, a driving shaft, a first transmission assembly, a first positioning shaft, a second positioning shaft, a synchronous belt assembly, a first conveying wheel and a second conveying wheel, the mounting frame is fixedly connected to the right part of the front side surface of the mounting bottom box, the servo motor is fixedly connected in the mounting frame, the driving shaft is connected to an output shaft of the servo motor, the first positioning shaft is rotatably arranged on the upper side of the right part of the mounting bottom box, the first transmission assembly is connected between the front part of the first positioning shaft and the front part of the driving shaft and consists of two belt pulleys and a belt, one belt pulley is arranged on the front part of the first positioning shaft, the other belt is arranged on the front part of the driving shaft and wound between the two belt pulleys, the three second positioning shafts are rotatably arranged on the upper part of the mounting bottom box at intervals, the first conveying wheels for conveying plates are fixedly connected to the middle parts of the second positioning shafts and the first positioning shafts, the installation under casing upper portion middle uniform spacing rotary type is equipped with four second fortune material wheels, and two second fortune material wheel front portions in the place ahead are connected with synchronous belt subassembly with between three second location axle front portions and the first location axle front portion, and synchronous belt subassembly comprises six belt pulleys and belt, and wherein three is installed respectively in three second location axle front portions, and two other install respectively in two second fortune material wheel front portions in the place ahead, and remaining one is installed in first location axle front portion, and the belt is around between six belt pulleys.

In one of them embodiment, spraying mechanism is including the liquid reserve tank, photoelectric sensor, a water pump, the catheter, a buffer memory section of thick bamboo, level sensor and drain pipe, the outer top rigid coupling of sealed roof has the liquid reserve tank, top right side rigid coupling has photoelectric sensor in the sealed roof, the liquid reserve tank middle part is connected with the water pump, the outer leading flank middle part rigid coupling of liquid reserve tank has the catheter, catheter and water pump connection, catheter sub-unit connection has a buffer memory section of thick bamboo, a buffer memory section of thick bamboo rotates with the atomizing spray tube to be connected, the antetheca is connected with level sensor through the welded mode in the buffer memory section of thick bamboo, the anterior upper middle side of installation under casing is connected with the drain pipe that is used for the discharge waste liquid.

In one embodiment, the device also comprises a swinging mechanism for driving the atomizing nozzle to swing, the swinging mechanism comprises a protective cover, a first positioning frame, a rotating short column, a second transmission assembly, a second positioning frame, a guide frame, a positioning vertical plate and a limiting spring, the protective cover is fixedly connected to the middle of the rear side surface of the mounting bottom box, the first positioning frame for transmission is fixedly connected to the rear part of the atomizing nozzle, the first positioning frame is positioned in the protective cover, the rotating short column is rotatably arranged at the middle lower side of the rear part of the mounting bottom box, the second transmission assembly is connected between the rear part of the rotating short column and the rear part of the first positioning shaft and consists of two belt pulleys and a belt, one belt pulley is mounted at the rear part of the first positioning shaft, the other belt pulley is mounted at the rear part of the rotating short column, the belt is wound between the two belt pulleys, the second positioning frame is fixedly connected to the rear part of the rotating short column, the guide frame is fixedly connected to the middle of the rear side surface of the mounting bottom box, the guide frame is positioned in the protective cover, a positioning vertical plate is arranged on the guide frame in a sliding mode, the positioning vertical plate is sleeved on the second positioning frame and is connected with the second positioning frame in a sliding mode, the positioning vertical plate is further connected with the first positioning frame in a rotating mode, and limiting springs are symmetrically wound between the left side face of the positioning vertical plate and the left portion of the guide frame in an up-and-down mode.

In one embodiment, the device also comprises a rotating mechanism for driving the plate to rotate, the rotating mechanism comprises a positioning transverse plate, a first reset guide post, a first reset spring, a limit vertical rod, a driving gear, a reversing shaft, a driven gear, a third transmission assembly, a worm, a lifting slide block, a second reset guide post, a second reset spring, a worm gear, a reversing bevel gear, a vertical short shaft, a fourth transmission assembly, a vertical rotating shaft, a volute spring, a rotating chassis, a buffer disc and a flexible glue sucker, the first reset guide posts are symmetrically and fixedly connected with the lower side of the rear part in the installation bottom box in a left-right mode, a positioning transverse plate is arranged between the first reset guide posts on the left side and the right side in a sliding mode, the first reset spring is wound on the first reset guide posts, one end of the first reset spring is connected with the positioning transverse plate, the other end of the first reset spring is connected with the installation bottom box, the left side and the right side of the transverse plate on the top of the positioning transverse plate are fixedly connected with the limit vertical rod for transmission, the front part of the rotary short column is fixedly connected with a driving gear, the middle part of the positioning transverse plate is rotatably provided with a reversing shaft, the front part of the reversing shaft is fixedly connected with a driven gear, the driven gear is matched with the driving gear, the left side of the bottom in the mounting bottom box is fixedly connected with four second reset guide columns at intervals, every two second reset guide columns form a group, a lifting slide block is slidably arranged between the two second reset guide columns, a worm is rotatably arranged between the middle parts of the lifting slide blocks at the front side and the rear side, a third transmission assembly is connected between the rear part of the worm and the front part of the reversing shaft and consists of two belt pulleys and a belt, one belt pulley is mounted at the rear part of the worm, the other belt pulley is mounted at the front part of the reversing shaft, the belt is wound between the two belt pulleys, a second reset spring is wound on the second reset guide columns, one end of the second reset spring is connected with the lifting slide block, and the other end of the second reset spring is connected with the mounting bottom box, a worm wheel is rotatably arranged at the lower middle side of the left part of the mounting bottom box, the worm wheel is matched with the worm, a vertical short shaft is rotatably arranged at the left middle side of the bottom part in the mounting bottom box, reversing bevel gears are fixedly connected to the upper parts of the vertical short shaft and the left part of the worm wheel and are meshed with each other, a vertical rotating shaft is rotatably arranged at the middle part of the bottom part in the mounting bottom box, a fourth transmission assembly is connected between the lower part of the vertical rotating shaft and the lower part of the vertical short shaft and consists of two belt pulleys and a belt, one belt pulley is arranged at the lower part of the vertical rotating shaft, the other belt pulley is arranged at the lower part of the vertical short shaft and is wound between the two belt pulleys, a volute spring is wound between the inner part of the mounting bottom box and the lower part of the vertical rotating shaft, a rotating chassis is slidably arranged at the upper part of the vertical rotating shaft, a buffer disc is slidably arranged on the rotating chassis, three flexible rubber suckers are connected at intervals at the upper part of the buffer disc, and a connecting cover is arranged between the rear part of the worm and the front part of the reversing shaft, the third transmission assembly is located in the connecting cover.

In one embodiment, the lifting mechanism is further provided with a lifting mechanism for driving the plate to lift, the lifting mechanism comprises a positioning circular plate, a strong magnetic ring frame, a fixed vertical cylinder, a third reset spring, a limiting upright post and a positioning threaded sleeve, the middle part in the installation bottom box is fixedly connected with the strong magnetic ring frame for enabling the rotating chassis to slowly rotate, the positioning circular plate is rotatably arranged in the strong magnetic ring frame and sleeved on the lower part of the rotating chassis, the left side and the right side of the top of the positioning circular plate are fixedly connected with the fixed vertical cylinder, the limiting upright post is slidably arranged in the fixed vertical cylinder and fixedly connected with the rotating chassis, the third reset spring is wound on the fixed vertical cylinder, one end of the third reset spring is connected with the rotating chassis, the other end of the third reset spring is connected with the positioning circular plate, the outer wall in the middle part of the vertical rotating shaft is fixedly connected with the positioning threaded sleeve which is connected with the rotating chassis.

In one of them embodiment, still including being used for making the flexible glue sucking disc fixed adsorption apparatus structure to panel, adsorption apparatus constructs including the aspiration pump, the air duct, a sealed cylinder, flexible absorption frame and pressure sensor, the outer right flank middle part rigid coupling of installation under casing has the aspiration pump, the middle part rigid coupling has a sealed cylinder in the installation under casing, be connected with the air duct between sealed cylinder and the aspiration pump, the last interval connection of sealed cylinder has three flexible absorption frame that is used for adsorbing fixed panel, flexible absorption frame is connected with the flexible glue sucking disc, the lower part is equipped with pressure sensor in the fixed stand section of thick bamboo in right side, spacing stand cooperates with pressure sensor.

In one embodiment, the device also comprises an electric cabinet, the electric cabinet is arranged in the middle of the left part of the installation bottom box, a switching power supply, a power supply module and a control module are arranged in the electric cabinet, the switching power supply supplies power to the solution spraying equipment for producing the fiber reinforced silicate plate, the power supply module is connected with a power supply main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting button, the stopping button, the photoelectric sensor, the pressure sensor and the liquid level sensor are electrically connected with the control module, and the servo motor, the water pump, the air suction pump, the atomizing spray pipe and the strong magnetic ring frame are connected with the control module through a peripheral circuit.

Compared with the prior art, the invention has the remarkable improvements that:

1. according to the invention, a plate is put in from the right side of the sealing top plate, the servo motor is started to work, the first material conveying wheel rotates reversely to drive the plate to move leftwards, and meanwhile, the water pump discharges the solution into the buffer cylinder through the liquid guide pipe, so that the atomizing spray pipe works to spray the plate, and the redundant solution is discharged through the liquid discharge pipe, therefore, people can spray the silicate plate conveniently, the physical and mental health is not influenced, and the time and the labor are saved.

2. According to the invention, under the action of the swing mechanism, the first positioning frame swings left and right to drive the atomization spray pipe to swing left and right, so that the atomization spray pipe swings left and right to spray the plates, and thus, the plates can be prevented from being sprayed out of place.

3. Under the action of the rotating mechanism, the vertical rotating shaft drives the buffer disc to rotate reversely and reset through the rotating chassis under the action of the volute spiral spring, the flexible glue sucker also drives the plate to rotate reversely, and the atomizing spray pipe uniformly sprays the plate, so that the plate can be sprayed more uniformly.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of the material conveying mechanism of the present invention.

Fig. 5 is a schematic perspective view of the spraying mechanism of the present invention.

Fig. 6 is an enlarged schematic view of part a of the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

Fig. 8 is a schematic view of a first partial structure of the swing mechanism of the present invention.

Fig. 9 is a schematic view of a second partial structure of the swing mechanism of the present invention.

Fig. 10 is a schematic view of a first partial body structure of the rotating mechanism of the present invention.

Fig. 11 is a schematic view of a second partial body structure of the rotating mechanism of the present invention.

Fig. 12 is a perspective view of a third part of the rotary mechanism of the present invention.

Fig. 13 is a perspective view of a fourth part of the rotating mechanism of the present invention.

Fig. 14 is a perspective view of a fourth embodiment of the present invention.

Fig. 15 is a schematic perspective view of the lifting mechanism of the present invention.

FIG. 16 is a schematic view of a first partial body structure of the adsorption mechanism of the present invention.

FIG. 17 is a schematic view of a second partial body structure of the adsorption mechanism of the present invention.

Fig. 18 is a circuit block diagram of the present invention.

Fig. 19 is a circuit schematic of the present invention.

Reference numerals: 1_ mounting bottom box, 2_ supporting bottom plate, 3_ sealing top plate, 4_ radiating bottom plate, 5_ electric control box, 51_ start button, 52_ stop button, 6_ atomizing spray pipe, 7_ material conveying mechanism, 71_ mounting frame, 72_ servo motor, 73_ driving shaft, 74_ first transmission component, 75_ first positioning shaft, 76_ second positioning shaft, 77_ synchronous belt component, 78_ first material conveying wheel, 79_ second material conveying wheel, 8_ spraying mechanism, 81_ liquid storage box, 82_ photoelectric sensor, 83_ water pump, 84_ liquid guide tube, 85_ buffer tube, 86_ liquid level sensor, 87_ liquid outlet tube, 9_ swinging mechanism, 91_ protective cover, 92_ first positioning frame, 93_ rotating short column, 94_ second transmission component, 95_ second positioning frame, 96_ guide frame, 97_ positioning vertical plate, 98_ limiting spring, 10_ rotating mechanism, 101_ positioning horizontal plate, 102_ first return guide post, 103_ first return spring, 104_ limit vertical rod, 105_ driving gear, 106_ reversing shaft, 107_ driven gear, 108_ third transmission component, 109_ worm, 1010_ lifting slider, 1011_ second return guide post, 1012_ second return spring, 1013_ worm gear, 1014_ reversing bevel gear, 1015_ vertical short shaft, 1016_ fourth transmission component, 1017_ vertical rotating shaft, 1018_ scroll spring, 1019_ rotating chassis, 1020_ buffer disc, 1021_ soft rubber suction cup, 1022_ connecting cover, 11_ lifting mechanism, 111_ positioning circular plate, 112_ strong magnetic ring frame, 113_ fixed vertical cylinder, 114_ third return spring, 115_ limit vertical column, 116_ positioning screw sleeve, 12_ adsorption mechanism, 121_ suction pump, 122_ air guide tube, 123_ sealing cylinder, 124_ telescopic adsorption frame, 125_ pressure sensor.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

A solution spraying device for producing fiber reinforced silicate plates is disclosed, as shown in figures 1-6, and comprises an installation bottom box 1, a supporting bottom plate 2, a sealing top plate 3, a heat dissipation bottom plate 4, a starting button 51, a stopping button 52, an atomizing spray pipe 6, a material conveying mechanism 7 and a spraying mechanism 8, wherein the bottom of the installation bottom box 1 is fixedly connected with the supporting bottom plate 2, the upper part of the installation bottom box 1 is connected with the sealing top plate 3 in a bolt mode, the middle part of the sealing top plate 3 is rotatably connected with the atomizing spray pipe 6, the front part of the installation bottom box 1 is connected with the heat dissipation bottom plate 4 in a bolt mode, the front side surface of the installation bottom box 1 is fixedly connected with the starting button 51 and the stopping button 52, the stopping button 52 is positioned at the right side of the starting button 51, the material conveying mechanism 7 is arranged on the installation bottom box 1, the material conveying mechanism 7 can convey plates, the spraying mechanism 8 is arranged on the sealing top plate 3, the spraying mechanism 8 is rotatably connected with the atomizing spray pipe 6, the spraying mechanism 8 can be matched with the atomizing spray pipe to spray the plates.

The material conveying mechanism 7 comprises a mounting frame 71, a servo motor 72, a driving shaft 73, a first transmission assembly 74, a first positioning shaft 75, a second positioning shaft 76, a synchronous belt assembly 77, a first material conveying wheel 78 and a second material conveying wheel 79, the right part of the front side surface of the mounting bottom box 1 is connected with the mounting frame 71 in a bolt mode, the servo motor 72 is mounted in the mounting frame 71 in a bolt mode, the driving shaft 73 is connected onto an output shaft of the servo motor 72, the first positioning shaft 75 is rotatably arranged on the upper side of the right part of the mounting bottom box 1, the first transmission assembly 74 is connected between the front part of the first positioning shaft 75 and the front part of the driving shaft 73, the first transmission assembly 74 comprises two belt pulleys and a belt, one belt pulley is mounted at the front part of the first positioning shaft 75, the other belt pulley is mounted at the front part of the driving shaft 73, the belt is wound between the two belt pulleys, the three second positioning shafts 76 are rotatably arranged at intervals on the upper part of the mounting bottom box 1, the middle of the second positioning shaft 76 and the middle of the first positioning shaft 75 are fixedly connected with first material conveying wheels 78, the first material conveying wheels 78 can drive plates to move, four second material conveying wheels 79 are uniformly and rotatably arranged in the middle of the upper portion of the bottom case 1 at intervals, synchronous belt components 77 are connected between the front portions of the two front second material conveying wheels 79 and the front portions of the three second positioning shafts 76 and the front portion of the first positioning shaft 75, each synchronous belt component 77 consists of six belt wheels and belts, three of the belt components are respectively installed on the front portions of the three second positioning shafts 76, the other two belt components are respectively installed on the front portions of the two second material conveying wheels 79, the rest one belt component is installed on the front portion of the first positioning shaft 75, and the belts are wound among the six belt wheels.

Spraying mechanism 8 is including liquid reserve tank 81, photoelectric sensor 82, water pump 83, catheter 84, buffer cylinder 85, level sensor 86 and drain pipe 87, sealed roof 3 outer top is connected with liquid reserve tank 81 through the mode of bolt, sealed roof 3 inner top right side is connected with photoelectric sensor 82 through the mode of bolt, liquid reserve tank 81 middle part is connected with water pump 83, the outer leading flank middle part rigid coupling of liquid reserve tank 81 has catheter 84, catheter 84 is connected with water pump 83, catheter 84 sub-unit connection has buffer cylinder 85, buffer cylinder 85 rotates with atomizing spray tube 6 to be connected, the antetheca is connected with level sensor 86 through the welded mode in the buffer cylinder 85, installation under casing 1 front portion goes up the middle side and is connected with drain pipe 87, drain pipe 87 can realize discharging the waste liquid.

People press a power supply main switch to electrify the equipment, firstly, an operator adds a proper amount of solution into a liquid storage tank 81, then a plate is put into the tank from the right side of a sealing top plate 3, a start button 51 is pressed once, the start button 51 sends a signal, a control module receives the signal and then controls a servo motor 72 to work, the servo motor 72 drives a driving shaft 73 to rotate reversely, the driving shaft 73 rotates reversely to drive a first transmission assembly 74 to rotate reversely, the first transmission assembly 74 rotates reversely to drive a first positioning shaft 75 to rotate reversely, the first positioning shaft 75 rotates reversely to drive a rightmost first material conveying wheel 78 to rotate reversely, the first material conveying wheel 78 rotates reversely to drive the plate to move leftwards, meanwhile, the first positioning shaft 75 also drives a synchronous belt assembly 77 to rotate reversely, the synchronous belt assembly 77 rotates reversely to drive a second positioning shaft 76 and a second material conveying wheel 79 to rotate reversely, the control module also controls a water pump 83 to work after receiving the signal, the water pump 83 discharges the solution into a buffer cylinder 85 through a liquid guide tube 84, the liquid level sensor 86 monitors the liquid level in the buffer cylinder 85, when the solution in the buffer cylinder 85 is higher than the rated value of the control module, the liquid level sensor 86 sends a signal, the control module receives the signal and then controls the water pump 83 to stop, so that the plate moves leftwards and corresponds to the photoelectric sensor 82, the photoelectric sensor 82 sends the signal, the control module receives the signal and then controls the atomizing spray pipe 6 to work, the atomizing spray pipe 6 works and sprays the plate, the redundant solution is discharged through the liquid outlet pipe 87, the plate continues to move leftwards and does not correspond to the photoelectric sensor 82, the photoelectric sensor 82 sends the signal again, the control module receives the signal and then controls the atomizing spray pipe 6 to stop, and similarly, when the solution in the buffer cylinder 85 is lower than the rated value of the control module, the liquid level sensor 86 sends a signal, the control module receives the signal and then controls the water pump 83 to work for supplement, and then people take down the plate for subsequent treatment, so relapse, can constantly carry out the spraying to panel, and after the spraying of whole panel was accomplished, press stop button 52 once, stop button 52 signals, control servo motor 72 after the control module received the signal stops, and drive shaft 73 stops to drive first locating shaft 75 reversal through first drive assembly 74, and first material conveying wheel 78 and second material conveying wheel 79 also stop the reversal.

Example 2

On the basis of embodiment 1, as shown in fig. 7-15, the atomizing device further comprises a swing mechanism 9, the swing mechanism 9 comprises a protective cover 91, a first positioning frame 92, a rotary short column 93, a second transmission assembly 94, a second positioning frame 95, a guide frame 96, a positioning vertical plate 97 and a limiting spring 98, the middle part of the rear side surface of the mounting bottom box 1 is connected with the protective cover 91 through a bolt, the rear part of the atomizing nozzle 6 is fixedly connected with the first positioning frame 92, when the first positioning frame 92 swings left and right, the atomizing nozzle 6 can be driven to swing left and right, the rotary short column 93 is rotatably arranged at the middle lower part of the rear part of the mounting bottom box 1, the second transmission assembly 94 is connected between the rear part of the rotary short column 93 and the rear part of the first positioning shaft 75, the second transmission assembly 94 is composed of two belt pulleys and a belt, one belt pulley is mounted at the rear part of the first positioning shaft 75, the other belt pulley is mounted at the rear part of the rotary short column 93, the belt is wound between two belt pulleys, the rear portion of the short rotary column 93 is fixedly connected with a second positioning frame 95, the middle portion of the rear side face of the installation bottom box 1 is connected with a guide frame 96 in a bolt mode, the guide frame 96 is located in the protective cover 91, a positioning vertical plate 97 is arranged on the guide frame 96 in a sliding mode, the positioning vertical plate 97 is sleeved on the second positioning frame 95, the positioning vertical plate 97 is connected with the second positioning frame 95 in a sliding mode, the positioning vertical plate 97 is further connected with the first positioning frame 92 in a rotating mode, and limiting springs 98 are wound between the left side face of the positioning vertical plate 97 and the left portion of the guide frame 96 in an up-and-down symmetrical mode.

The rotary mechanism 10 comprises a positioning transverse plate 101, a first reset guide post 102, a first reset spring 103, a limiting vertical rod 104, a driving gear 105, a reversing shaft 106, a driven gear 107, a third transmission assembly 108, a worm 109, a lifting slide block 1010, a second reset guide post 1011, a second reset spring 1012, a worm wheel 1013, a reversing bevel gear 1014, a vertical short shaft 1015, a fourth transmission assembly 1016, a vertical rotating shaft 1017, a volute spring 1018, a rotary chassis 1019, a buffer disc 1020 and a soft rubber sucker 1021, wherein the first reset guide post 102 is symmetrically and fixedly connected with the lower side of the rear part in the installation bottom box 1, the positioning transverse plate 101 is arranged between the first reset guide posts 102 on the left side and the right side in a sliding manner, the first reset spring 103 is wound on the first reset guide post 102, one end of the first reset spring 103 is connected with the positioning transverse plate 101, the other end of the first reset spring 103 is connected with the installation bottom box 1, the left side and the right side of the top of the positioning transverse plate 101 are connected with the limiting vertical rod 104 in a welding manner, when a plate moves leftwards to be contacted with the limiting vertical rod 104, the plate drives the positioning transverse plate 101 to move downwards through the limiting vertical rod 104 under the action of gravity, a driving gear 105 is fixedly connected to the front part of the rotating short column 93, a reversing shaft 106 is rotatably arranged in the middle of the positioning transverse plate 101, a driven gear 107 is fixedly connected to the front part of the reversing shaft 106, four second reset guide columns 1011 are fixedly connected to the left side of the bottom in the bottom box 1 at intervals, every two second reset guide columns 1011 form a group, a lifting slide block 1010 is slidably arranged between the two second reset guide columns 1011, a worm 109 is rotatably arranged between the middle parts of the lifting slide blocks 1010 at the front side and the rear side, a third transmission assembly 108 is connected between the rear part of the worm 109 and the front part of the reversing shaft 106, the third transmission assembly 108 consists of two belt pulleys and a belt, one belt pulley is arranged at the rear part of the worm 109, the other belt pulley is arranged at the front part of the reversing shaft 106, a belt is wound between two belt pulleys, a second return spring 1012 is wound on a second return guide post 1011, one end of the second return spring 1012 is connected with a lifting slider 1010, the other end of the second return spring 1012 is connected with the installation bottom box 1, a worm wheel 1013 is rotatably arranged at the lower middle side of the left part of the installation bottom box 1, the worm wheel 1013 is matched with the worm 109, a vertical short shaft 1015 is rotatably arranged at the left middle side of the bottom in the installation bottom box 1, reversing bevel gears 1014 are fixedly connected at the upper part of the vertical short shaft 1015 and the left part of the worm wheel 1013, the two reversing bevel gears 1014 are engaged, a vertical rotating shaft 1017 is rotatably arranged at the middle part of the bottom in the installation bottom box 1, a fourth transmission assembly 1016 is connected between the lower part of the vertical rotating shaft 1017 and the lower part of the vertical short shaft 1015, the fourth transmission assembly 1016 consists of two belt pulleys and the belt, one belt pulley is installed at the lower part of the vertical rotating shaft 1017, the other belt is installed at the lower part of the vertical short shaft 1015, the belt is wound between the two belt pulleys, a volute spring 1018 is wound between the inside of the installation bottom box 1 and the lower part of the vertical rotating shaft 1017, a rotating chassis 1019 is arranged on the upper part of the vertical rotating shaft 1017 in a sliding manner, a buffer disc 1020 is arranged on the rotating chassis 1019 in a sliding manner, three soft rubber suction cups 1021 are connected to the upper part of the buffer disc 1020 at intervals, the soft rubber suction cups 1021 are made of rubber, a connecting cover 1022 is rotatably arranged between the rear part of the worm 109 and the front part of the reversing shaft 106, and the third transmission assembly 108 is located in the connecting cover 1022.

When the servo motor 72 works, the first positioning shaft 75 rotates reversely to drive the second transmission assembly 94 to rotate reversely, the second transmission assembly 94 rotates reversely to drive the short rotating column 93 to rotate reversely, the short rotating column 93 rotates reversely to drive the second positioning frame 95 to rotate reversely, the second positioning frame 95 rotates reversely to drive the positioning vertical plate 97 to move left and right through the limiting spring 98, the positioning vertical plate 97 moves left and right to drive the first positioning frame 92 to swing left and right, the first positioning frame 92 swings left and right to drive the atomizing spray pipe 6 to swing left and right, thereby atomizing spray tube 6 horizontal hunting just sprays panel, and after the spraying of whole panel was accomplished, press stop button 52 once, stop button 52 signals, control servo motor 72 after the control module received signal stops, and first locating shaft 75 stops to drive the reversal of short rotating column 93 through second drive assembly 94, and atomizing spray tube 6 just also stops horizontal hunting, so, can avoid the panel spraying not in place.

When the servo motor 72 works, the plate moves leftwards to contact with the limit vertical rod 104, the plate makes the limit vertical rod 104 move downwards due to the action of gravity, the limit vertical rod 104 moves downwards to drive the positioning transverse plate 101 to move downwards, the first return spring 103 is compressed, the positioning transverse plate 101 moves downwards to drive the reversing shaft 106 to move downwards, the reversing shaft 106 moves downwards to drive the driven gear 107 to move downwards, the driven gear 107 moves downwards to be meshed with the driving gear 105, meanwhile, the reversing shaft 106 moves downwards to drive the connecting cover 1022 to move downwards, the connecting cover 1022 moves downwards to drive the third transmission assembly 108 and the worm 109 to move downwards, the second return spring 1012 is compressed, the worm 109 moves downwards to be meshed with the worm wheel 1013, so that the rotating stub 93 rotates reversely to drive the driving gear 105 to rotate reversely, the driving gear 105 rotates reversely to drive the driven gear 107 to rotate normally, the driven gear 107 drives the reverse rotation reversing shaft 106 to rotate normally, the reversing shaft 106 rotates forward to drive the third transmission assembly 108 to rotate forward, the third transmission assembly 108 rotates forward to drive the worm 109 to rotate forward, the worm 109 rotates forward to drive the worm wheel 1013 to rotate forward, the worm wheel 1013 rotates forward through the reversing bevel gear 1014 to drive the vertical short shaft 1015 to rotate forward, the vertical short shaft 1015 rotates forward to drive the fourth transmission assembly 1016 to rotate forward, the fourth transmission assembly 1016 rotates forward to drive the vertical rotating shaft 1017 to rotate forward, the volute spring 1018 is compressed, the vertical rotating shaft 1017 rotates forward to drive the rotating chassis 1019 to rotate forward, the rotating chassis 1019 rotates forward to drive the buffer disc 1020 to rotate forward, the buffer disc 1020 rotates forward to drive the soft rubber sucker 1021, the plate moves leftward and contacts with the soft rubber sucker 1021 directly above the buffer disc 1020, the plate is separated from the limiting upright rod 104, the positioning horizontal plate 101 drives the driven gear 107 to move upward through the reversing shaft 106 to reset due to the action of the first reset spring 103, and the driven gear 107 is separated from the driving gear 105, because of the effect of second reset spring 1012, worm 109 also upwards moves and breaks away from with worm wheel 1013, thereby because of volute spiral spring 1018's effect, vertical pivot 1017 drives buffering disc 1020 through rotating chassis 1019 and reverses and resets, flexible glue sucking disc 1021 also drives the panel reversal, atomizing spray tube 6 carries out the even spraying to panel, after flexible glue sucking disc 1021 reverses and resets to the biggest stroke, first fortune material wheel 78 and second fortune material wheel 79 reversal cooperation continue to drive panel and move left, it can to take off panel and carry out subsequent processing, so, can make the more even of panel spraying.

Example 3

On the basis of the

embodiments

1 and 2, as shown in fig. 15-17, the present invention further comprises a lifting mechanism 11, the lifting mechanism 11 comprises a positioning circular plate 111, a strong magnetic ring frame 112, a fixed vertical cylinder 113, a third return spring 114, a limiting upright column 115 and a positioning threaded sleeve 116, the middle part of the installation bottom box 1 is fixedly connected with the strong magnetic ring frame 112, the strong magnetic ring frame 112 is rotatably provided with the positioning circular plate 111, the positioning circular plate 111 is sleeved on the lower part of the rotating chassis 1019, the left and right sides of the top of the positioning circular plate 111 are fixedly connected with the fixed vertical cylinder 113, the fixed vertical cylinder 113 is internally provided with the limiting upright column 115 in a sliding manner, the limiting upright column 115 is fixedly connected with the rotating chassis 1019, the third return spring 114 is wound on the fixed vertical cylinder 113, one end of the third return spring 114 is connected with the rotating chassis 1019, the other end of the third return spring 114 is connected with the positioning circular plate 111, the outer wall of the middle part of the vertical rotating shaft 1017 is fixedly connected with the positioning threaded sleeve 116, the positioning threaded sleeve 116 is in threaded connection with the rotating base plate 1019, and the strong magnetic ring frame 112 can limit the speed of the positioning threaded sleeve 116 through the positioning circular plate 111.

Still including adsorption apparatus 12, adsorption apparatus 12 is including aspiration pump 121, the air duct 122, sealed barrel 123, flexible absorption frame 124 and pressure sensor 125, installation under casing 1 outer right flank middle part rigid coupling has aspiration pump 121, the middle part rigid coupling has sealed barrel 123 in the installation under casing 1, be connected with air duct 122 between sealed barrel 123 and the aspiration pump 121, the last interval connection of sealed barrel 123 has three flexible absorption frame 124, flexible absorption frame 124 is connected with flexible glue sucking disc 1021, when aspiration pump 121 begins to breathe in sealed barrel 123 through air duct 122, flexible absorption frame 124 also adsorbs panel through flexible glue sucking disc 1021, the fixed lower part is equipped with pressure sensor 125 in the upright 113 of right side, spacing stand 115 and the cooperation of pressure sensor 125.

After the device is powered on, the control module controls the strong magnetic ring frame 112 to start working, the vertical rotating shaft 1017 rotates forward to drive the positioning threaded sleeve 116 to rotate forward, so that the strong magnetic ring frame 112 limits the speed of the positioning threaded sleeve 116 through the positioning circular plate 111, the positioning threaded sleeve 116 rotates forward slowly, the positioning threaded sleeve 116 rotates forward to drive the rotating chassis 1019 to move downwards, the rotating chassis 1019 moves downwards to drive the limiting upright post 115 to move downwards, the third return spring 114 is compressed, and similarly, the vertical rotating shaft 1017 rotates reversely to drive the rotating chassis 1019 to move upwards to return through the positioning threaded sleeve 116, and the rotating chassis 1019 moves upwards to return to the maximum stroke, so that the vertical rotating shaft 1017 drives the buffer disk 1020 to rotate reversely to return through the rotating chassis 1019 under the action of the scroll spring 1018, the plate begins to rotate reversely in a buffering manner, and the plate can be prevented from rotating too fast; when the power of the device is cut off, the control module controls the strong magnetic ring frame 112 to stop working.

When the rotating chassis 1019 moves upwards to reset, the limiting upright post 115 moves upwards and is not in contact with the pressure sensor 125 any more, the pressure sensor 125 sends a signal, the control module receives the signal and then controls the air suction pump 121 to work for 3 seconds, the air suction pump 121 starts to suck air into the sealing barrel 123 through the air duct 122, the telescopic adsorption frame 124 also adsorbs the plate through the soft rubber sucker 1021, and after 3 seconds, the control module controls the air suction pump 121 to stop, so that the plate is prevented from being thrown out of the rotating chassis 1019.

As shown in fig. 2, 18 and 19, the device further comprises an electric cabinet 5, wherein the electric cabinet 5 is installed in the middle of the left part of the installation bottom box 1, a switching power supply, a power supply module and a control module are arranged in the electric cabinet 5, the switching power supply supplies power to the solution spraying equipment for producing the fiber reinforced silicate plate, the power supply module is connected with a power supply main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the start button 51, the stop button 52, the photoelectric sensor 82, the pressure sensor 125 and the liquid level sensor 86 are electrically connected with the control module, and the servo motor 72, the water pump 83, the suction pump 121, the atomizing nozzle 6 and the strong magnetic ring frame 112 are connected with the control module through peripheral circuits.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims

1. A solution spraying device for producing a fiber reinforced silicate plate comprises an installation bottom box (1), a supporting bottom plate (2), a sealing top plate (3), a heat dissipation bottom plate (4), a starting button (51), a stopping button (52), wherein the supporting bottom plate (2) is fixedly connected to the bottom of the installation bottom box (1), the sealing top plate (3) is connected to the upper portion of the installation bottom box (1) in a bolt mode, the heat dissipation bottom plate (4) is connected to the front portion of the installation bottom box (1) in a bolt mode, the starting button (51) and the stopping button (52) are fixedly connected to the front side face of the installation bottom box (1), the stopping button (52) is positioned on the right side of the starting button (51), and the solution spraying device is characterized by further comprising an atomization spray pipe (6), a material conveying mechanism (7) and a spraying mechanism (8), the material conveying mechanism (7) for conveying the plate is arranged on the installation bottom box (1), the middle part of the sealing top plate (3) is rotatably connected with an atomizing spray pipe (6) used for spraying solution, a spraying mechanism (8) used for spraying the plates is arranged on the sealing top plate (3), and the spraying mechanism (8) is rotatably connected with the atomizing spray pipe (6).

2. The solution spraying equipment for producing the fiber-reinforced silicate board as claimed in claim 1, wherein the material conveying mechanism (7) comprises a mounting frame (71), a servo motor (72), a driving shaft (73), a first transmission assembly (74), a first positioning shaft (75), a second positioning shaft (76), a synchronous belt assembly (77), a first material conveying wheel (78) and a second material conveying wheel (79), the mounting frame (71) is fixedly connected to the right part of the front side of the mounting bottom box (1), the servo motor (72) is fixedly connected in the mounting frame (71), the driving shaft (73) is connected to the output shaft of the servo motor (72), the first positioning shaft (75) is rotatably arranged on the upper right part of the mounting bottom box (1), the first transmission assembly (74) is connected between the front part of the first positioning shaft (75) and the front part of the driving shaft (73), and the first transmission assembly (74) consists of two belt pulleys and a belt, a belt pulley is arranged in the front of the first positioning shaft (75), another belt pulley is arranged in the front of the driving shaft (73), a belt is wound between the two belt pulleys, three second positioning shafts (76) are arranged on the upper part of the installation bottom box (1) in a rotating mode at intervals, the middle parts of the second positioning shafts (76) and the middle part of the first positioning shaft (75) are fixedly connected with a first material conveying wheel (78) used for conveying plates, four second material conveying wheels (79) are arranged on the upper part of the installation bottom box (1) in a rotating mode at even intervals, a synchronous belt component (77) is connected between the front parts of the two front second material conveying wheels (79) and the front parts of the three second positioning shafts (76) and the first positioning shaft (75), the synchronous belt component (77) is composed of six belt pulleys and the belt, three belt components are respectively arranged on the front parts of the three second positioning shafts (76), the other two belt components are respectively arranged on the front parts of the two second material conveying wheels (79), the remaining one is mounted forward of the first positioning shaft (75) with the belt wound between six pulleys.

3. The solution spraying equipment for producing the fiber-reinforced silicate board as claimed in claim 2, wherein the spraying mechanism (8) comprises a liquid storage tank (81), a photoelectric sensor (82), a water pump (83), a liquid guide pipe (84), a buffer cylinder (85), a liquid level sensor (86) and a liquid outlet pipe (87), the liquid storage tank (81) is fixedly connected to the outer top of the sealing top plate (3), the photoelectric sensor (82) is fixedly connected to the right side of the inner top of the sealing top plate (3), the water pump (83) is connected to the middle of the liquid storage tank (81), the liquid guide pipe (84) is fixedly connected to the middle of the outer front side of the liquid storage tank (81), the liquid guide pipe (84) is connected to the water pump (83), the buffer cylinder (85) is connected to the lower portion of the liquid guide pipe (84), the buffer cylinder (85) is rotatably connected to the atomizing nozzle (6), and the liquid level sensor (86) is connected to the inner front wall of the buffer cylinder (85) in a welding manner, the upper middle side of the front part of the installation bottom box (1) is connected with a liquid outlet pipe (87) for discharging waste liquid.

4. The solution spraying equipment for producing the fiber-reinforced silicate board as claimed in claim 3, further comprising a swing mechanism (9) for driving the atomization nozzle (6) to swing, wherein the swing mechanism (9) comprises a protective cover (91), a first positioning frame (92), a rotary short column (93), a second transmission assembly (94), a second positioning frame (95), a guide frame (96), a positioning vertical plate (97) and a limit spring (98), the protective cover (91) is fixedly connected to the middle of the rear side surface of the installation bottom box (1), the first positioning frame (92) for transmission is fixedly connected to the rear part of the atomization nozzle (6), the first positioning frame (92) is positioned in the protective cover (91), the rotary short column (93) is rotatably arranged at the lower middle of the rear part of the installation bottom box (1), the second transmission assembly (94) is connected between the rear part of the rotary short column (93) and the rear part of the first positioning shaft (75), second drive assembly (94) comprises two belt pulleys and belt, a belt pulley is installed in first locating shaft (75) rear portion, another belt pulley is installed in short rotating column (93) rear portion, the belt is around between two belt pulleys, short rotating column (93) rear portion rigid coupling has second locating rack (95), installation under casing (1) trailing flank middle part rigid coupling has leading truck (96), leading truck (96) are located protection casing (91), the gliding style is equipped with location riser (97) on leading truck (96), location riser (97) cover is on second locating rack (95), location riser (97) and second locating rack (95) sliding connection, location riser (97) still with first locating rack (92) rotate to be connected, location riser (97) left surface and leading truck (96) left part between the symmetry has around having connect spacing spring (98) from top to bottom.

5. The solution spraying equipment for producing the fiber reinforced silicate board as claimed in claim 4, further comprising a rotating mechanism (10) for driving the board to rotate, wherein the rotating mechanism (10) comprises a positioning transverse plate (101), a first reset guide post (102), a first reset spring (103), a limiting vertical rod (104), a driving gear (105), a reversing shaft (106), a driven gear (107), a third transmission assembly (108), a worm (109), a lifting slider (1010), a second reset guide post (1011), a second reset spring (1012), a worm gear (1013), a reversing bevel gear (1014), a vertical short shaft (1015), a fourth transmission assembly (1016), a vertical rotating shaft (1017), a volute spring (1018), a rotating chassis (1019), a buffer disc (1020) and a soft rubber suction cup (1021), the first reset guide posts (102) are fixedly connected to the lower side of the inner rear part of the installation bottom box (1) in a left-right symmetrical manner, a positioning transverse plate (101) is arranged between first reset guide columns (102) on the left side and the right side in a sliding manner, a first reset spring (103) is wound on the first reset guide columns (102), one end of the first reset spring (103) is connected with the positioning transverse plate (101), the other end of the first reset spring (103) is connected with an installation bottom box (1), limiting vertical rods (104) for transmission are fixedly connected on the left side and the right side of the top of the positioning transverse plate (101), a driving gear (105) is fixedly connected on the front portion of a short rotating column (93), a reversing shaft (106) is rotatably arranged in the middle of the positioning transverse plate (101), a driven gear (107) is fixedly connected on the front portion of the reversing shaft (106), the driven gear (107) is matched with the driving gear (105), four second reset guide columns (1011) are fixedly connected on the left side of the bottom in the installation bottom box (1) at intervals, every two second reset guide columns (1011) form a group, and a lifting slide block (1010) is arranged between the two second reset guide columns (1011) in a sliding manner, a worm (109) is rotatably arranged between the middle parts of the lifting sliding blocks (1010) at the front side and the rear side, a third transmission assembly (108) is connected between the rear part of the worm (109) and the front part of the reversing shaft (106), the third transmission assembly (108) consists of two belt pulleys and a belt, one belt pulley is arranged at the rear part of the worm (109), the other belt pulley is arranged at the front part of the reversing shaft (106), the belt is wound between the two belt pulleys, a second reset spring (1012) is wound on a second reset guide pillar (1011), one end of the second reset spring (1012) is connected with the lifting sliding block (1010), the other end of the second reset spring (1012) is connected with the mounting bottom box (1), a worm wheel (1013) is rotatably arranged at the lower middle side of the left part of the mounting bottom box (1), the worm wheel (1013) is matched with the worm (109), a vertical short shaft (1015) is rotatably arranged at the left middle side of the bottom part in the mounting bottom box (1), the upper part of the vertical short shaft (1015) is fixedly connected with a reversing bevel gear (1014), two reversing bevel gears (1014) are meshed with each other, a vertical rotating shaft (1017) is rotatably arranged in the middle of the bottom in the installation bottom box (1), a fourth transmission assembly (1016) is connected between the lower part of the vertical rotating shaft (1017) and the lower part of a vertical short shaft (1015), the fourth transmission assembly (1016) is composed of two belt pulleys and a belt, one belt pulley is arranged at the lower part of the vertical rotating shaft (1017), the other belt pulley is arranged at the lower part of the vertical short shaft (1015), the belt is wound between the two belt pulleys, a volute spring (1018) is wound between the interior of the installation bottom box (1) and the lower part of the vertical rotating shaft (1017), a rotating chassis (1019) is slidably arranged at the upper part of the vertical rotating shaft (1017), a buffer disc (1020) is slidably arranged on the rotating chassis (1019), three soft rubber suckers (1021) are connected at the upper part of the buffer disc (1020) at intervals, a connecting cover (1022) is rotatably arranged between the rear part of the worm (109) and the front part of the reversing shaft (106), the third transmission assembly (108) is positioned in the connecting cover (1022).

6. The solution spraying equipment for producing the fiber-reinforced silicate board as claimed in claim 5, further comprising a lifting mechanism (11) for driving the board to lift, wherein the lifting mechanism (11) comprises a positioning circular plate (111), a strong magnetic ring frame (112), a fixed vertical cylinder (113), a third return spring (114), a limiting upright post (115) and a positioning screw sleeve (116), the middle part in the installation bottom box (1) is fixedly connected with the strong magnetic ring frame (112) for slowly rotating the rotating chassis (1019), the positioning circular plate (111) is rotatably arranged in the strong magnetic ring frame (112), the positioning circular plate (111) is sleeved on the lower part of the rotating chassis (1019), the fixed vertical cylinder (113) is fixedly connected to the left side and the right side of the top of the positioning circular plate (111), the limiting upright post (115) is slidably arranged in the fixed vertical cylinder (113), and the limiting upright post (115) is fixedly connected with the rotating chassis (1019), a third return spring (114) is wound on the fixed vertical cylinder (113), one end of the third return spring (114) is connected with the rotary chassis (1019), the other end of the third return spring (114) is connected with the positioning circular plate (111), the outer wall of the middle part of the vertical rotating shaft (1017) is fixedly connected with a positioning threaded sleeve (116), and the positioning threaded sleeve (116) is in threaded connection with the rotary chassis (1019).

7. The solution spraying equipment for producing the fiber-reinforced silicate board according to claim 6, further comprising an adsorption mechanism (12) for fixing the soft rubber sucker (1021) to the board, wherein the adsorption mechanism (12) comprises an air suction pump (121), an air duct (122), a sealing cylinder (123), a telescopic adsorption frame (124) and a pressure sensor (125), the air suction pump (121) is fixedly connected to the middle of the outer right side surface of the installation bottom box (1), the sealing cylinder (123) is fixedly connected to the middle of the inner part of the installation bottom box (1), the air duct (122) is connected between the sealing cylinder (123) and the air suction pump (121), the sealing cylinder (123) is connected with three telescopic adsorption frames (124) for adsorbing and fixing the board at intervals, the telescopic adsorption frame (124) is connected with the soft rubber sucker (1021), the pressure sensor (125) is arranged at the lower part of the right fixing vertical cylinder (113), the limiting upright column (115) is matched with the pressure sensor (125).

8. The solution spraying equipment for producing the fiber-reinforced silicate board as claimed in claim 7, further comprising an electric cabinet (5), wherein the electric cabinet (5) is installed in the middle of the left part of the installation bottom box (1), the electric cabinet (5) internally comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the solution spraying equipment for producing the fiber-reinforced silicate board, the power supply module is connected with a main power switch through a line, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting button (51), the stopping button (52), the photoelectric sensor (82), the pressure sensor (125) and the liquid level sensor (86) are electrically connected with the control module, and the servo motor (72), the water pump (83), the air suction pump (121), the atomizing spray pipe (6) and the strong magnetic ring frame (112) are connected with the control module through peripheral circuits.