CN220461083U - Spraying machine for processing heat insulation plate - Google Patents

Abstract

The utility model discloses a spraying machine for processing a heat insulation plate, which comprises a workbench, a spraying mechanism and a coating drying mechanism, wherein the workbench comprises: the spraying mechanism is a U-shaped stainless steel workbench and comprises: the coating drying mechanism is arranged at the rear side of the inside of the workbench, and is respectively arranged at the left side and the right side of the front end of the workbench, wherein: still include conveying roller and conveyer belt, the conveying roller rotates respectively and connects in the inside of workstation, and the conveying roller of foremost and the conveying roller of rearmost pass through the conveyer belt transmission and connect, and the surface of the conveying roller in middle part contacts with the medial surface of conveyer belt, and the left end rear side of workstation is equipped with the transmission motor, and the output shaft right-hand member of transmission motor and the left end fixed connection of the conveying roller of rearmost, this flush coater for heat insulating board processing have reduced the phenomenon emergence that the hourglass of coating spraying or spraying are uneven, and the suitability is stronger, and it is wider to use.

Description

Spraying machine for processing heat insulation plate

Technical Field

The utility model relates to the technical field of heat insulation plate processing, in particular to a spraying machine for heat insulation plate processing.

Background

The traditional heat insulation plate spraying technology is mostly carried out manually, but the work load is large, the work intensity of people is also improved, and along with the development of the technology, some factories gradually adopt automatic spraying, so that the production efficiency is greatly improved, and the automatic spraying needs to use a special spraying machine for heat insulation plate processing;

the traditional spraying machine for processing part of the heat insulation boards mainly uses a spray head to spray paint on the heat insulation boards, and then dries the sprayed heat insulation boards;

there are some problems, the shower nozzle is immovable, when spraying once, the coating can't spray on the heat insulating board completely or spray uneven, cause the phenomenon that has the hourglass to spout or spray uneven to take place on the heat insulating board easily, inconvenient carry out the secondary spraying to the heat insulating board, the suitability is relatively poor, when spraying the heat insulating board of different model sizes, the phenomenon that the coating is extravagant or can't spray completely takes place easily, the gas is direct weathers the heat insulating board, cause the gas to spray the coating on the heat insulating board weather the in-process, the phenomenon that destroys the roughness, the degree of consistency of coating on the heat insulating board appears, for this reason, we propose a flush coater for heat insulating board processing.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the spraying machine for processing the heat insulation plate, which reduces the phenomenon of missing spraying or uneven spraying of coating spraying in the spraying process of facing the heat insulation plate, has stronger suitability and wider application, and can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a spraying machine for processing a heat insulation plate comprises a workbench, a spraying mechanism and a coating drying mechanism;

a working table: the device is a U-shaped stainless steel workbench;

and (3) a spraying mechanism: the device is arranged at the rear side of the interior of the workbench;

the coating drying mechanisms are respectively arranged at the left side and the right side of the front end of the workbench;

wherein: still include conveying roller and conveyer belt, the conveying roller rotates respectively and connects in the inside of workstation, the conveying roller of forefront side and the conveying roller of rearmost pass through the conveyer belt transmission and connect, the surface of the conveying roller at middle part and the medial surface contact of conveyer belt, the left end rear side of workstation is equipped with the transmission motor, the output shaft right-hand member of transmission motor and the left end fixed connection of the conveying roller of rearmost, the coating can evenly spray on the heat insulating board, the emergence of the unable complete spraying of messenger's coating on the heat insulating board or spraying unevenness condition has been avoided once spraying, in time dry, and avoid gas directly weather the heat insulating board, prevent gas to spray the coating on the heat insulating board weather the in-process to the coating on the heat insulating board the roughness degree of consistency of coating and destroy the appearance.

Further, spraying mechanism includes first lead screw, connecting block, pipeline and shower nozzle, first lead screw rotates respectively and connects in the recess of the upper surface rear end of workstation, and sliding connection has the connecting block respectively in the recess, rotates respectively in the recess and is connected with first lead screw, and the middle part of connecting block respectively with be located a screw threaded connection of lead screw in same recess, pipeline fixed connection is between two connecting blocks, and the spout department that pipeline's surface evenly set up all is provided with the shower nozzle, pipeline's front end and the output tube fixed connection of outside heat insulating board processing with the coating, control pipeline back-and-forth movement.

Further, the spraying mechanism further comprises a first motor, the first motor is fixedly connected to the rear end of the workbench respectively, an output shaft of the first motor is fixedly connected with the rear end of the first screw rod, and an input end of the first motor is electrically connected with an output end of the single-chip microcomputer to provide driving force.

Furthermore, the second rotating shaft is respectively and rotatably connected to the inside of the mounting groove at the left side and the right side of the workbench, the outer surface of the second rotating shaft is respectively and uniformly fixedly connected with fan blades, and hot air is blown out through the rotation of the fan blades.

Further, coating stoving mechanism still includes motor two, rotation axis one, worm and worm wheel, worm wheel is fixed connection in the rear end of rotation axis two respectively, and motor two sets up in the workstation left and right sides through the mount pad respectively, and motor two's output shaft bottom all is equipped with rotation axis one, and rotation axis one's bottom all is equipped with the worm, and the worm wheel is connected with the meshing of horizontal adjacent worm, and single chip microcomputer's output is connected to motor two's input electricity, provides driving force.

Further, the coating drying mechanism further comprises air inlets which are respectively and fixedly connected to the front ends of the left side and the right side of the workbench, air inlets are respectively arranged at the left end of the left air inlet and the right end of the right air inlet, and the air inlets are respectively communicated with air outlets of the external fan heaters to provide an external air source.

Further, the automatic lifting device also comprises a supporting frame, wherein the supporting frames are respectively and fixedly connected to four corners of the lower surface of the bottom of the workbench, so that the stability of the workbench is improved.

Compared with the prior art, the utility model has the beneficial effects that: the spraying machine for processing the heat insulation plate has the following advantages:

1. firstly, the operation of a motor I is regulated and controlled through a singlechip, an output shaft of the motor I drives a screw rod I to rotate, a connecting block drives a conveying pipeline to move back and forth under the transmission effect of the screw rod I, paint for processing the heat insulation board is uniformly sprayed out through a spray head, after the heat insulation board is uniformly sprayed twice, the paint can move back and forth, the secondary spraying is convenient, the suitability is higher, the phenomenon that the paint is wasted or cannot be completely sprayed when the heat insulation boards of different types and sizes are sprayed is avoided, the paint can be uniformly and smoothly sprayed on the heat insulation board, and the condition that the paint cannot be completely sprayed on the heat insulation board or is sprayed unevenly is avoided by one-time spraying.

2. The air inlet pipe through the air inlet is connected with an external air pump in advance, the heat insulation plate enters a coating drying area through the regulation and control of the single-chip microcomputer, the motor II is operated, the output shaft of the motor II drives the rotary shaft I to rotate, the worm drives the worm wheel to rotate under the rotation action of the rotary shaft I, the rotary shaft II rotates under the transmission action of the worm wheel to drive the fan blade to rotate and blow out hot air, the coating on the heat insulation plate is dried, the hot air is blown out through the rotation of the fan blade to dry, the heat insulation plate is prevented from being directly dried by air, and the phenomenon that the evenness of the coating on the heat insulation plate is damaged by air in the drying process of the coating sprayed on the heat insulation plate is prevented.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a conveyor belt according to the present utility model;

FIG. 3 is a schematic view of the structure of the spraying mechanism of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of the present utility model A;

FIG. 5 is a schematic view of the structure of the coating material drying mechanism of the present utility model;

fig. 6 is an enlarged schematic view of the structure of the present utility model at B.

In the figure: the spraying device comprises a workbench 1, a supporting frame 2, a conveying belt 3, a conveying roller 4, a single chip microcomputer 5, a conveying motor 6, a spraying mechanism 7, a motor I, a screw rod I72, a connecting block 73, a conveying pipeline 74, a spray head 75, a coating drying mechanism 8, a motor II, a rotating shaft I82, a worm 83, a worm wheel 84, a rotating shaft II 85, a fan blade 86 and an air inlet 87.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present embodiment provides a technical solution: a spraying machine for processing a heat insulation plate comprises a workbench 1, a spraying mechanism 7 and a coating drying mechanism 8;

work table 1: the device is a U-shaped stainless steel workbench;

spraying mechanism 7: the spraying mechanism 7 comprises a first lead screw 72, a connecting block 73, a conveying pipeline 74 and a spray head 75, wherein the first lead screw 72 is respectively and rotationally connected in a groove at the rear end of the upper surface of the workbench 1, the connecting block 73 is respectively and slidingly connected in the groove, the first lead screw 72 is respectively and rotationally connected in the groove, the middle part of the connecting block 73 is respectively and rotationally connected with the first lead screw 72 in the same groove, the conveying pipeline 74 is fixedly connected between the two connecting blocks 73, spray nozzles uniformly arranged at the outer surfaces of the conveying pipeline 74 are respectively provided with the spray heads 75, the front ends of the conveying pipeline 74 are fixedly connected with an output pipe of coating for processing an external heat insulation board, the spraying mechanism 7 also comprises a first motor 71, the first motor 71 is respectively and fixedly connected with the rear end of the first lead screw 72 adjacent to the front side, the input end of the first motor 71 is electrically connected with the output end of the single chip microcomputer 5, the first motor 71 is controlled by the single chip microcomputer 5 to operate, the output shaft of the first motor 71 drives the first lead screw 72 to rotate, the connecting block 73 drives the conveying pipeline 74 to move forwards and backwards under the transmission effect of the first lead screw 72, the heat insulation board 74 is uniformly sprayed or unevenly and repeatedly sprayed on the heat insulation board, the heat insulation board is not even or evenly sprayed or unevenly sprayed on the heat insulation board, the heat insulation board is not even or has a high quality and cannot be completely and smoothly sprayed on the heat insulation board;

coating stoving mechanism 8: the paint drying mechanism 8 which is respectively arranged at the left side and the right side of the front end of the workbench 1 comprises a second rotating shaft 85 and fan blades 86, the second rotating shaft 85 is respectively and rotatably connected in a mounting groove at the left side and the right side of the workbench 1, the fan blades 86 are respectively and uniformly and fixedly connected with the outer surface of the second rotating shaft 85, the paint drying mechanism 8 also comprises a second motor 81, a first rotating shaft 82, a worm 83 and a worm gear 84, the worm gear 84 is respectively and fixedly connected with the rear end of the second rotating shaft 85, the second motor 81 is respectively arranged at the left side and the right side of the workbench 1 through a mounting seat, the bottom end of an output shaft of the second motor 81 is respectively provided with the first rotating shaft 82, the bottom end of the first rotating shaft 82 is respectively provided with a worm 83, the worm gear 84 is meshed and connected with the transversely adjacent worm 83, the input end of the second motor 81 is electrically connected with the output end of the single chip microcomputer 5, the paint drying mechanism 8 also comprises an air inlet 87, the air inlets 87 are respectively and fixedly connected to the front ends of the left side and the right side of the workbench 1, the left end of the left air inlet 87 and the right end of the right air inlet 87 are respectively provided with air inlets, the air inlets are respectively communicated with the air outlets of an external fan heater, the air inlets are connected with an external air pump in advance through the air inlets of the air inlets 87, the transmission motor 6 is regulated and controlled to continue to operate through the single chip microcomputer 5, the heat insulation board enters a coating drying area, the motor 81 is regulated and controlled to operate through the single chip microcomputer 5, the output shaft of the motor 81 drives the first rotating shaft 82 to rotate, the worm 83 drives the worm gear 84 to rotate under the rotation of the first rotating shaft 82, the second rotating shaft 85 rotates under the transmission of the worm gear 84 to drive the fan blade 86 to rotate to blow out hot air, the coating on the heat insulation board is dried, the hot air is blown out through the rotation of the fan blade 86 to dry, and the heat insulation board is prevented from being directly dried, the phenomenon that the evenness of the flatness of the coating on the heat insulation plate is damaged in the process of blowing the coating sprayed on the heat insulation plate by gas is prevented;

wherein: the conveying device comprises a workbench 1, a conveying roller 4 and a conveying belt 3, wherein the conveying roller 4 is respectively and rotatably connected to the inside of the workbench 1, the conveying roller 4 at the foremost side and the conveying roller 4 at the rearmost side are in transmission connection through the conveying belt 3, the outer surface of the conveying roller 4 at the middle part is in contact with the inner side surface of the conveying belt 3, a conveying motor 6 is arranged at the rear side of the left end of the workbench 1, and the right end of an output shaft of the conveying motor 6 is fixedly connected with the left end of the conveying roller 4 at the rearmost side;

wherein: the automatic feeding device also comprises a singlechip 5, wherein the singlechip 5 is arranged on the left side surface of the workbench 1, the input end of the singlechip 5 is electrically connected with an external power supply, and the output end of the singlechip 5 is electrically connected with the input end of the transmission motor 6

Wherein: still include support frame 2, support frame 2 fixed connection realizes bottom sprag in the bottom lower surface of workstation 1.

The working principle of the spraying machine for processing the heat insulation plate provided by the utility model is as follows: the conveying pipeline 74 is communicated with an output pipe of coating for processing an external heat insulation plate in advance, the heat insulation plate is placed in from the left side of the inside of the workbench 1, meanwhile, the single chip microcomputer 5 regulates and controls the conveying motor 6 to operate, the output shaft of the conveying motor 6 drives the leftmost conveying roller 4 to rotate, under the transmission effect of the conveying belt 3, the other two conveying rollers 2 are driven to synchronously rotate, the heat insulation plate is stably conveyed from left to right on the conveying belt 3, after the heat insulation plate reaches the lower part of the spraying mechanism 7, the single chip microcomputer 5 regulates and controls the conveying motor 6 to stop operating, firstly, the single chip microcomputer 5 regulates and controls the motor I71 to operate, the output shaft of the motor I71 drives the screw rod I72 to rotate, the connecting block 73 drives the conveying pipeline 74 to move back and forth under the transmission effect of the screw rod I72, the coating for processing the heat insulation plate is uniformly sprayed out through the spray head 75, after the heat insulation plate is uniformly sprayed on the heat insulation plate for two times, the spraying can move back and forth, is convenient for secondary spraying, has higher suitability, avoids the phenomenon that the coating is wasted or can not be completely sprayed when spraying the heat insulation boards with different types and sizes, and the secondary spraying realizes the uniform and smooth spraying of the coating on the heat insulation boards, avoids the phenomenon that the coating can not be completely sprayed on the heat insulation boards or is uneven, the heat insulation boards are in missed spraying or uneven spraying, is connected with an external air pump through an air inlet 87 in advance, and continuously operates by regulating and controlling a transmission motor 6 through a singlechip 5, the heat insulation boards enter a coating drying area, the singlechip 5 regulates and controls the motor II 81 to operate, an output shaft of the motor II 81 drives a rotation shaft I82 to rotate, a worm 83 drives a worm wheel 84 to rotate under the rotation action of the rotation shaft I82, and a fan blade 86 is driven to rotate to blow hot air under the transmission action of the worm wheel 84, the paint on the heat insulating plate is dried, hot air is blown out through the fan blades 86 in a rotating mode to dry the heat insulating plate, the phenomenon that the flatness uniformity of the paint on the heat insulating plate is damaged in the process that the paint sprayed on the heat insulating plate is dried by the air is prevented, and then the heat insulating plate after the spraying is finished is led out from the left side.

It should be noted that the single-chip microcomputer 5 disclosed in the above embodiment adopts S7-200, the first motor 71 adopts SGMJV-A5ADA21 motor, the second motor 81 adopts 7IK400GU-S3MF motor, and the single-chip microcomputer 5 controls the first motor 71, the second motor 81 and the transmission motor 6 to work by the method commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. A flush coater is used in heat insulating board processing, its characterized in that: comprises a workbench (1), a spraying mechanism (7) and a coating drying mechanism (8);

workbench (1): the device is a U-shaped stainless steel workbench;

spraying mechanism (7): the device is arranged at the rear side of the inside of the workbench (1);

the paint drying mechanisms (8) are respectively arranged at the left side and the right side of the front end of the workbench (1);

wherein: the automatic feeding device is characterized by further comprising conveying rollers (4) and a conveying belt (3), wherein the conveying rollers (4) are respectively and rotatably connected to the inside of the workbench (1), the conveying rollers (4) at the forefront side and the conveying rollers (4) at the rearmost side are in transmission connection through the conveying belt (3), the outer surface of the conveying rollers (4) at the middle part is in contact with the inner side surface of the conveying belt (3), a conveying motor (6) is arranged at the rear side of the left end of the workbench (1), and the right end of an output shaft of the conveying motor (6) is fixedly connected with the left end of the conveying roller (4) at the rearmost side;

wherein: the automatic feeding device is characterized by further comprising a single chip microcomputer (5), wherein the single chip microcomputer (5) is arranged on the left side face of the workbench (1), the input end of the single chip microcomputer (5) is electrically connected with an external power supply, and the output end of the single chip microcomputer (5) is electrically connected with the input end of the transmission motor (6).

2. The heat shield processing applicator of claim 1, wherein: the spraying mechanism (7) comprises a first screw rod (72), connecting blocks (73), conveying pipelines (74) and spray heads (75), the first screw rod (72) is respectively connected in grooves at the rear end of the upper surface of the workbench (1) in a rotating mode, the connecting blocks (73) are respectively connected in the grooves in a sliding mode, the first screw rod (72) is respectively connected in the grooves in a rotating mode, the middle portions of the connecting blocks (73) are respectively connected with the first screw rod (72) located in the same groove in a threaded mode, the conveying pipelines (74) are fixedly connected between the two connecting blocks (73), spray heads (75) are respectively arranged at spray openings evenly formed in the outer surfaces of the conveying pipelines (74), and the front ends of the conveying pipelines (74) are fixedly connected with an output pipe of coating for processing an external heat insulating plate.

3. The heat shield processing applicator of claim 2, wherein: the spraying mechanism (7) further comprises a first motor (71), the first motor (71) is fixedly connected to the rear end of the workbench (1) respectively, an output shaft of the first motor (71) is fixedly connected with the rear end of a first screw rod (72) adjacent to the front side, and the input end of the first motor (71) is electrically connected with the output end of the single chip microcomputer (5).

4. The heat shield processing applicator of claim 1, wherein: the coating drying mechanism (8) comprises a second rotating shaft (85) and fan blades (86), the second rotating shaft (85) is respectively and rotatably connected to the inside of the mounting groove on the left side and the right side of the workbench (1), and the fan blades (86) are uniformly and fixedly connected to the outer surface of the second rotating shaft (85).

5. The heat shield processing applicator of claim 4 wherein: coating stoving mechanism (8) still include motor two (81), rotation axis one (82), worm (83) and worm wheel (84), worm wheel (84) are fixed connection in the rear end of rotation axis two (85) respectively, and motor two (81) are set up in workstation (1) left and right sides through the mount pad respectively, and the output shaft bottom of motor two (81) all is equipped with rotation axis one (82), and the bottom of rotation axis one (82) all is equipped with worm (83), and worm wheel (84) are connected with the meshing of horizontal adjacent worm (83), and the output of singlechip (5) is connected to the input electricity of motor two (81).

6. The heat shield processing applicator of claim 1, wherein: the coating drying mechanism (8) further comprises an air inlet (87), the air inlet (87) is fixedly connected to the front ends of the left side and the right side of the workbench (1), the left end of the left air inlet (87) and the right end of the right air inlet (87) are respectively provided with an air inlet pipe, and the air inlet pipes are respectively communicated with the air outlets of the external fan heaters.

7. The heat shield processing applicator of claim 1, wherein: the automatic lifting device is characterized by further comprising a supporting frame (2), wherein the supporting frames (2) are respectively and fixedly connected to four corners of the lower surface of the bottom of the workbench (1).