CN114515670B - Full-automatic aluminum foil veneering nano spraying device and using method thereof - Google Patents

Abstract

The invention discloses a full-automatic aluminum foil veneering nano spraying device which comprises an operating platform and an oven, wherein the top of the operating platform is provided with a chute, and a moving block is slidably arranged in the chute; the top of the moving block is provided with an L-shaped connecting support rod, the tail end of the connecting support rod is connected with a sliding rod in a sliding mode, the tail end of the sliding rod is connected with a spray head, the surface of the top of the tail end of the connecting support rod is provided with a C-shaped scale marking frame, and the surface of the scale marking frame is provided with scale marking lines; the front and the back of the operating table are both provided with first supporting columns, and the top of each first supporting column is provided with an oven. According to the invention, the connecting support rod, the sliding rod, the spray head and the scale mark frame are arranged, the distance between the sliding rod and the connecting support rod is moved according to the size of the spraying area required, and the distance that the spray head needs to be moved along the scale mark frame is calculated under the action of an equal ratio relational expression, so that the size of the spraying area when the device is used for spraying is adjusted.

Description

Full-automatic aluminum foil veneering nano spraying device and using method thereof

Technical Field

The invention relates to the technical field of nano spraying, in particular to a full-automatic nano spraying device for an aluminum foil veneer and a using method thereof.

Background

The nano spraying replaces plating by spraying, and the high-efficiency surface treatment work can be realized by a simple spraying and plating mode, and in addition, the nano spraying does not contain cyanide, harmful heavy metal, pollute the environment and damage the human health, and is an environment-friendly and safe coating process, so the nano spraying device is widely applied to the coating treatment of metal surfaces, wherein in the aluminum foil veneering industry, the nano spraying device is greatly applied.

The existing nanometer spraying equipment has the defects that:

1. patent document CN211420539U discloses a spraying equipment for nanometer photocatalysis for textile fabric, "including crossbeam and commentaries on classics board, the inboard of crossbeam is connected with removes the seat, and the inboard lower extreme that removes the seat is provided with and turns to the shower nozzle, the left and right sides lower extreme of crossbeam is connected with the side frame, and the lower extreme of side frame is connected with the board, the middle part upper end of board is provided with the spraying district, and the inside in spraying district is provided with the embedded groove, the commentaries on classics board sets up in the inside of embedded groove, and the below of changeing the board is provided with the fixed plate, the right-hand member of board is fixed with the control panel, and the lower extreme of board is connected with the rack. The spraying equipment for the nano photocatalysis for the textile fabric is provided with the rotating plate, the design of the rotating plate can enable a rotating structure to be more flexible in the spraying process, and the rotating plate can enable the fabric to rotate in a horizontal plane mode by matching with the rotating structure of the steering spray head, so that the condition that the spraying effect is influenced by angle limitation cannot occur when the fabric is sprayed, and the spraying operation is relatively single because the spraying area cannot be adjusted when the device is used for spraying;

2. patent document CN211420538U discloses a nanometer photocatalysis is with spraying equipment that can dismantle butt joint fast for textile fabric, "including support column, direction inclined plane and atomizer, the top of support column is provided with the organism, and the organism inboard is provided with the direction inclined plane, the top on direction inclined plane is provided with band conveyer, and band conveyer's top is provided with the atomizer, the top of atomizer is provided with the discharging pipe, and the top of discharging pipe is provided with the hose, the left and right sides of hose is provided with the dead lever, the left end of organism is provided with the feed inlet, and the right-hand member of organism is provided with the discharge gate, the downside of organism is provided with the ball valve. Compared with the existing common spraying equipment, the spraying equipment for the nano photocatalysis capable of being quickly disassembled and butted for the textile fabric has the advantages that the pipeline and the equipment are convenient to disassemble and connect, liquid flowing into the atomizing nozzle is filtered, the atomizing nozzle is prevented from being blocked, sprayed medicaments are collected and are convenient to reuse, resources are saved, and the device only adopts photocatalysis treatment during spraying, so that the curing and drying speed and quality of a sprayed coating are difficult to guarantee;

3. patent document CN111266226A discloses a high uniformity spraying device inside a nanotube, "including a main frame, the center of the main frame is rotatably connected with a retractable frame, the surface of the retractable frame is wound with a conveying device, the front end of the conveying device is provided with a spraying device, the inlet of the spraying device is communicated with a spraying liquid pump, the front end of the main frame is provided with a traction integration device, the top of the main frame is fixedly connected with a control panel, the conveying device comprises a conveying pipe, and two sides of the conveying pipe are respectively connected with a cable and a steel wire in a buckling manner. The spraying device for the high uniformity of the inner side of the nano tube solves the problems that the existing spraying device is mainly used for spraying the inner wall of a short tube, the spraying of the inner wall of the long tube is difficult, the spraying uniformity is poor, the spraying effect is poor, and the quality and the service life of a finished tube are influenced, and the spraying device cannot realize targeted air cooling treatment during spraying so as to accelerate the solidification of a sprayed coating and ensure the retention effect of the sprayed coating;

4. patent document CN111215278B discloses a boot surface nano-coating spraying device, "including setting up spraying mechanism and advancing mechanism in the organism, be provided with the spraying chamber in the organism, be provided with the motor in the wall behind the spraying chamber, install first pivot on the motor, install first gear and second gear in the first pivot, this equipment is to the device that carries out the spraying to shoes, only need to put the shoes of treating the spraying to the assigned position, the device just can send into shoes in a spraying chamber all-round spraying to the vamp, can shorten the used time of spraying, and the spraying is more even", the device fails to realize the replacement of mould when the spraying, and then conveniently adjusts the spraying shape for the spraying operation has the limitation.

Disclosure of Invention

The invention aims to provide a full-automatic nano spraying device for aluminum foil veneers and a using method thereof, which are used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic aluminum foil veneering nano spraying device comprises an operating platform and an oven, wherein a sliding groove is formed in the top of the operating platform, and a moving block is slidably mounted inside the sliding groove;

the top of the moving block is provided with an L-shaped connecting support rod, the tail end of the connecting support rod is connected with a sliding rod in a sliding mode, the tail end of the sliding rod is connected with a spray head, the surface of the top of the tail end of the connecting support rod is provided with a C-shaped scale marking frame, and the surface of the scale marking frame is provided with scale marking lines;

first support column is all installed at the front and the back of operation panel, the second support column is all installed at the front and the back of operation panel, and second support column position is located one side of first support column, the oven is installed at the top of first support column.

Preferably, the activated carbon plate is installed to the inner wall of oven, preheating drying plate, operation drying plate and cooling drying plate are installed to the inner wall of oven, and the operation drying plate is located the centre of preheating drying plate and cooling drying plate, preheating drying plate is close to the second support column, cooling drying plate is close to first support column, preheating drying plate, operation drying plate and cooling drying plate are located the below of activated carbon plate, the ultraviolet curing lamp is installed to the inner wall equidistance of oven, and ultraviolet curing lamp and preheating drying plate, operation drying plate and cooling drying plate interval arrangement.

Preferably, the bottom of operation panel is installed the fan box, the internally mounted of fan box has cooling fan, the bottom of fan box is run through and is installed out the tuber pipe, and goes out the tuber pipe matrix and arrange, the surface mounting who goes out the tuber pipe has the electronic control switch, the bottom four corners of fan box all installs the temperature-sensing ware, and temperature-sensing ware and electronic control switch electric connection, the surface of fan box is run through and is installed the blast pipe.

Preferably, the tail end of the scale mark frame is connected with a frustum-shaped mold hopper, a rectangular groove is formed in the surface of one side, away from the spray head, of the mold hopper, an embedded block is embedded in the rectangular groove, a circular groove is formed in the embedded block, and a material collecting frame is installed at the bottom of the mold hopper.

Preferably, the inside of operation panel is equipped with the logical groove that runs through, and leads to the groove and be located the spout and be close to one side of second support column, the bottom slidable mounting of operation panel has the slip to draw the frame, and slides and draw the frame to be located one side of fan box, the slip draws the surface that the frame is close to each other to be equipped with the recess, the inside slidable mounting of recess has the gomphosis slider, the surface of gomphosis slider is installed through the bearing and is placed the roller, and places the roller and be located under leading to the groove.

Preferably, ink tank is installed at the top of operation panel, ink tank's front is installed the suction pump, the output of suction pump is connected with the conveying pipe, and the tail end and the shower nozzle through connection of conveying pipe, the input of suction pump is connected with the hose, and the tail end of hose extends into ink tank's inside.

Preferably, one side surface mounting that the second support column was kept away from to the operation panel has the rolling frame, the winding rod is installed through the bearing in the surface that the rolling frame is close to each other, the surface mounting of rolling frame has rolling motor, and rolling motor's output runs through the rolling frame and is connected with the one end of winding rod.

Preferably, the distance of second support column and spout is less than the distance between first support column and the spout, the surface mounting that the second support column was kept away from to first support column has a roller frame and No. two roller frames of arranging from top to bottom, the surface mounting that the first support column was kept away from to the second support column has No. three roller frames, and the inner wall of a roller frame, no. two roller frames and No. three roller frames all installs the bull stick through the bearing, no. three roller frames are located the coiling pole under.

Preferably, the second is changeed the roller through the bearing installation on the surface that first support column is close to each other, the first roller that changes is installed through the bearing on the surface that the second support column is close to each other, and just first commentaries on classics roller and second change the below that the roller all is located the oven, the second is changeed the side top that the roller is located a roller frame.

Preferably, the using method of the device comprises the following steps:

s1, before the device is used for carrying out aluminum foil veneering nano spraying operation, firstly sleeving an aluminum foil roll on the surface of a placement roller, then sliding and buckling an embedded sliding block into the groove, then pushing a sliding pull frame inwards to enable the placement roller to be positioned under a through groove, then enabling one end of the aluminum foil to penetrate through the through groove and sequentially pass through the surfaces of a first rotating roller, a second rotating roller, a first roller frame, a second roller frame, a third roller frame and a winding rod to form a complete traction winding mechanism, and realizing automatic operation of the device through the driving of a winding motor;

s2, starting a preheating drying plate inside the drying oven, operating the drying plate and a cooling drying plate to enable the temperature below the drying oven to be in a normal distribution state so as to form stage-type temperature change treatment on the surface of the aluminum foil passing through the drying oven, and further avoiding the situation that the surface of an ink coating sprayed on the surface of the aluminum foil is considered due to rapid temperature rise, so that the drying treatment of the ink coating inside the ink coating is prevented, and in addition, after the normal drying of the operating drying plate, the cooling drying plate provides a drying temperature lower than that of the operating drying plate, so that the aluminum foil cannot form a quenching state due to the fact that the aluminum foil is exposed to air after leaving the lower part of the drying oven due to heat accumulation, and further the ink coating on the surface of the aluminum foil cannot generate a corresponding shrinkage phenomenon, and the quality constancy of the ink coating is guaranteed;

s3, before spraying, moving the moving block to a position corresponding to the through groove according to the position needing spraying, then buckling the embedded block into the rectangular groove when the spraying shape is circular according to the shape needing spraying, so that the ink sprayed out by the spray head can only pass through the circular groove, taking down the embedded block when the spraying shape is rectangular, and then the ink sprayed out by the spray head can only be sprayed out through the rectangular groove;

s4, moving the distance between the sliding rod and the connecting support rod according to the size of the spraying area required, and calculating the distance that the spray head needs to be moved along the scale mark frame under the action of an equal ratio relational expression so as to adjust the size of the spraying area when the device is used for spraying;

s5, after the drying treatment of the oven, the aluminum foil moves to the lower part of the fan box, the air above the aluminum foil is heated by the residual temperature on the surface of the aluminum foil, the temperature on the surface of the aluminum foil is detected by the temperature sensor, the opening quantity of the electronic control switches is controlled, the size of the wind power output inside the fan box is adjusted, the targeted cooling treatment is formed on the surface of the aluminum foil, the aluminum foil is ensured to rotate along with the winding rod to realize the winding operation and then reduce the heat accumulation, and the aluminum foil surface spraying coating is ensured to be stably kept on the surface of the aluminum foil.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the connecting support rod, the sliding rod, the spray head and the scale mark frame are arranged, the distance between the sliding rod and the connecting support rod is moved according to the size of the spraying area required, and the distance that the spray head needs to be moved along the scale mark frame is calculated under the action of an equal ratio relation, so that the size of the spraying area when the device is used for spraying is adjusted.

2. According to the invention, the drying oven is arranged, the preheating drying plate, the operation drying plate and the cooling drying plate in the drying oven are started, so that the temperature below the drying oven is in a normal distribution state, the subsequent passing aluminum foil surface is subjected to stage-type temperature change treatment, and the phenomenon that the surface of an ink coating sprayed on the aluminum foil is provided with a film due to rapid temperature rise is avoided, so that the drying treatment of the ink coating in the ink coating is prevented.

3. According to the invention, the fan box, the air supply pipe, the air outlet pipe, the temperature sensor and the electronic control switch are arranged, the aluminum foil moves to the lower part of the fan box, the temperature of the surface of the aluminum foil is detected by the temperature sensor, the opening number of the electronic control switch is further controlled, the surface of the aluminum foil is subjected to targeted cooling treatment, the aluminum foil is ensured to rotate along with the winding rod to realize winding operation, the heat accumulation effect can be reduced, and the sprayed coating on the surface of the aluminum foil is ensured to be stably kept on the surface of the aluminum foil.

4. According to the invention, the die hopper, the rectangular groove, the embedded block, the circular groove and the material collecting frame are arranged, then the embedded block is selectively used according to the shape to be sprayed, in the spraying process, the ink splashed around is intercepted by the inner wall of the die hopper, and then flows to the interior of the material collecting frame through the inner wall with the slope of the die hopper, so that the collection of ink coating is realized, the secondary utilization of the ink is ensured, and the cleanness of the table top of the operation table can be considered.

Drawings

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

FIG. 2 is a schematic view of the mounting structure of the first support column, the second support column, the first roller frame, the second roller frame and the third roller frame of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 4 is a schematic view of a partial installation structure of the mold bucket and the connecting brace rod of the present invention;

FIG. 5 is a schematic view of a mold bucket mounting structure of the present invention;

FIG. 6 is a schematic view of the oven mounting structure of the present invention;

FIG. 7 is a schematic view of the sliding frame mounting structure of the present invention;

FIG. 8 is a schematic view of a fan box mounting configuration of the present invention.

In the figure: 1. an operation table; 101. a first support column; 102. a second support column; 103. a first rotating roller; 104. a second rotating roller; 105. a through groove; 2. a first roller frame; 3. a second roller frame; 4. a third roller frame; 5. an ink tank; 501. a suction pump; 6. an oven; 601. an activated carbon plate; 602. pre-heating the drying plate; 603. operating the drying plate; 604. cooling and drying the plate; 605. an ultraviolet curing lamp; 7. a winding frame; 701. winding the rod; 702. a winding motor; 8. a chute; 801. a moving block; 9. connecting a support rod; 901. a slide bar; 902. a spray head; 903. a scale mark frame; 10. a mould hopper; 1001. a rectangular groove; 1002. an engagement block; 1003. a circular groove; 1004. a material collecting frame; 11. sliding the pull frame; 1101. embedding the sliding block; 1102. placing a roller; 12. a fan box; 1201. an air supply pipe; 1202. an air outlet pipe; 1203. a temperature sensor; 1204. an electronic control switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example one

Referring to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 7, an embodiment of the present invention: a full-automatic nanometer spraying device for aluminum foil veneers comprises an operating platform 1 and a connecting support rod 9, wherein the top of the operating platform 1 is provided with a chute 8, and a moving block 801 is slidably mounted inside the chute 8;

an L-shaped connecting support rod 9 is installed at the top of the moving block 801, the tail end of the connecting support rod 9 is connected with a sliding rod 901 in a sliding mode, the tail end of the sliding rod 901 is connected with a spray head 902, a C-shaped scale mark frame 903 is installed on the surface of the top of the tail end of the connecting support rod 9, and scale mark lines are arranged on the surface of the scale mark frame 903;

ink tank 5 is installed at the top of operation panel 1, and suction pump 501 is installed in ink tank 5's front, and suction pump 501's output is connected with the conveying pipe, and the tail end and the shower nozzle 902 through connection of conveying pipe, and suction pump 501's input is connected with the hose, and the tail end of hose extends into the inside of ink tank 5.

The inside of operation panel 1 is equipped with logical groove 105 that runs through, and lead to groove 105 and be located the one side that spout 8 is close to second support column 102, the bottom slidable mounting of operation panel 1 has the slip to draw frame 11, and slip and draw frame 11 to be located one side of fan box 12, the surface that the slip draws frame 11 to be close to each other is equipped with the recess, the inside slidable mounting of recess has gomphosis slider 1101, the surface of gomphosis slider 1101 is installed through the bearing and is placed roller 1102, and place roller 1102 and be located logical groove 105 under, the surface that first support column 101 is close to each other is installed the second through the bearing and is changeed roller 104, the surface that second support column 102 is close to each other is installed first commentaries on classics roller 103 through the bearing, and first commentaries on classics roller 103 and second commentaries on classics roller 104 all is located oven 6's the below, second changes roller 104 and is located the side top of a roller frame 2.

First support columns 101 are installed on the front side and the back side of an operating platform 1, second support columns 102 are installed on the front side and the back side of the operating platform 1, the second support columns 102 are located on one sides of the first support columns 101, the distance between the second support columns 102 and a sliding groove 8 is smaller than the distance between the first support columns 101 and the sliding groove 8, a first roller frame 2 and a second roller frame 3 which are arranged up and down are installed on the surface, away from the second support columns 102, of the first support columns 101, a third roller frame 4 is installed on the surface, away from the first support columns 101, of the second support columns 102, the inner walls of the first roller frame 2, the second roller frame 3 and the third roller frame 4 are provided with rotating rods through bearings, the third roller frame 4 is located under the winding rods 701, a winding frame 7 is installed on the surface, away from the second support columns 102, the winding rods 701 are installed on the surface, close to the winding frames 7, winding rods 701 are installed on the surface of the winding frames 7, a winding motor 702 is installed on the surface, and the output end, penetrating through the winding rods 7, of the winding rods 701, is connected with the winding rods 701.

Specifically, the aluminum foil roll is sleeved on the surface of the placing roller 1102, then the sliding pull frame 11 is connected with the placing roller 1102 by using the embedded slider 1101, then the sliding pull frame 11 is pushed inwards, so that the placing roller 1102 is positioned under the through groove 105, then one end of the aluminum foil is pulled upwards to penetrate through the inside of the through groove 105, then one end of the aluminum foil is wound around the surfaces of the first rotating roller 103, the second rotating roller 104, the first roller frame 2, the second roller frame 3, the third roller frame 4 and the winding rod 701 to form a complete traction winding mechanism, and the winding rod 701 is driven to rotate by the winding motor 702, so that automatic winding operation is realized.

The ink stored in the ink tank 5 is pumped by the suction pump 501 and then is conveyed to the spray head 902 through the feeding pipe, so that raw material supply is provided for the spray head 902 to perform spraying treatment;

during spraying, the spray head slides in the chute 8 to change the position relation of the moving block 801 according to the position to be sprayed, so as to adjust the spraying position of the spray head 902;

according to the relation of equal magnification, according to the proportional relation between the spraying area and the rectangular groove 1001, under the condition that the distance between the rectangular groove 1001 and the surface of the aluminum foil is fixed and the distance between the rectangular groove 1001 and the spraying area is fixed, the distance value between the spray head 902 and the rectangular groove 1001 can be calculated to meet the spraying area, at this moment, the distance between the sliding rod 901 and the connecting support rod 9 is adjusted along the scale mark on the surface of the scale mark frame 903, and then the distance between the spray head 902 and the rectangular groove 1001 is adjusted, and further the requirement of diversified spraying area adjustment of the device is met.

Example two

Referring to fig. 1 and fig. 6, an embodiment of the present invention: the utility model provides a full-automatic aluminium foil wainscot nanometer spraying device, including operation panel 1 and oven 6, oven 6 is installed at the top of first support column 101, activated carbon plate 601 is installed to the inner wall of oven 6, preheat drying plate 602 is installed to the inner wall of oven 6, operation drying plate 603 and cooling drying plate 604, and operation drying plate 603 is located the centre of preheat drying plate 602 and cooling drying plate 604, preheat drying plate 602 and be close to second support column 102, cooling drying plate 604 is close to first support column 101, preheat drying plate 602, operation drying plate 603 and cooling drying plate 604 are located the below of activated carbon plate 601, ultraviolet curing lamp 605 is installed to the inner wall equidistance of oven 6, and ultraviolet curing lamp 605 and preheat drying plate 602, operation drying plate 603 and cooling drying plate 604 interval arrangement.

Specifically, the use of the activated carbon plate 601 can absorb substances such as solvents and the like emitted by the printing ink in the drying process, thereby reducing the environmental pollution;

the drying and curing speed of the ink coating on the surface of the aluminum foil can be accelerated by light emitted by the ultraviolet curing lamp 605;

the heating temperature provided by the preheating drying plate 602 is lower than that of the operation drying plate 603, the heating temperature provided by the cooling drying plate 604 is lower than that of the operation drying plate 603, so that the temperature in the drying oven 6 is in a normal distribution state, after the sprayed aluminum foil enters the lower part of the drying oven 6, the aluminum foil passes through the preheating drying plate 602 to preheat an ink spraying area and the aluminum foil, and the problem that the surface of an ink coating sprayed on the surface of the aluminum foil is conjunctiva due to rapid temperature rise is avoided, so that the smooth drying treatment of the ink coating in the ink coating is ensured;

then, the heating and drying treatment is realized through the operation below the drying plate 603, and then the aluminum foil is moved to the lower part of the cooling and drying plate 604, so that the heat supply to the aluminum foil is reduced, the aluminum foil can utilize the residual heat and a small amount of heat provided by the cooling and drying plate 604 after receiving the heat supply of the operation and drying plate 603 to be transferred out of the lower part of the drying oven 6, so that the temperature difference between the surface of the aluminum foil and the air is not too large, the aluminum foil is prevented from forming an quenching state due to the heat accumulation action after leaving the lower part of the drying oven 6, and the ink coating on the surface of the aluminum foil is prevented from generating a corresponding shrinkage phenomenon, thereby ensuring the constancy of the quality of the ink coating.

EXAMPLE III

Referring to fig. 1 and 8, an embodiment of the present invention: the utility model provides a full-automatic aluminium foil wainscot nanometer spraying device, including operation panel 1 and fan box 12, fan box 12 is installed to the bottom of operation panel 1, the internally mounted of fan box 12 has radiator fan, the bottom of fan box 12 is run through and is installed out tuber pipe 1202, and go out the matrix arrangement of tuber pipe 1202, the surface mounting who goes out tuber pipe 1202 has electronic control switch 1204, temperature-sensing ware 1203 is all installed in the bottom four corners of fan box 12, and temperature-sensing ware 1203 and electronic control switch 1204 electric connection, the surface of fan box 12 is run through and is installed blast pipe 1201.

Specifically, the electronic control switch 1204 is in a matrix arrangement state along with the air outlet pipe 1202, so that the ventilation state of the air outlet pipe 1202 can be controlled by turning off and turning on the electronic control switch 1204, and the replacement of the air cooling and cooling area on the surface of the aluminum foil by the fan box 12 is further controlled;

when the aluminum foil moves to the lower part of the fan box 12, the residual temperature on the surface of the aluminum foil heats the air above the aluminum foil, the temperature distribution state on the surface of the aluminum foil is detected by the temperature sensor 1203, the opening quantity of the electronic control switches 1204 is controlled, the size of the wind power output inside the fan box 12 is adjusted, the targeted cooling treatment is formed on the surface of the aluminum foil, the surface temperature of the aluminum foil can be reduced to the same value, the heat difference inside the aluminum foil is avoided, the aluminum foil can be guaranteed to reduce the heat accumulation effect after the aluminum foil rotates along with the winding rod 701 to realize the winding operation, the stable retention of the coating on the surface of the aluminum foil is guaranteed, and meanwhile, the wind power blown out by the air supply pipe 1201 can also accelerate the cooling speed of the aluminum foil on the surface of the winding rod 701 synchronously.

Example four

Referring to fig. 1, 4 and 5, an embodiment of the present invention is shown: the utility model provides a full-automatic aluminium foil wainscot nanometer spraying device, includes operation panel 1 and mould fill 10, and the end connection of scale mark frame 903 has the mould fill 10 of frustum form, and rectangular channel 1001 has been seted up on the mould fill 10 one side surface far away from shower nozzle 902, and the gomphosis piece 1002 is installed in the inside gomphosis of rectangular channel 1001, and the inside of gomphosis piece 1002 is equipped with circular recess 1003, and the bottom that the mould was fought 10 is installed and is expected frame 1004 that gathers materials.

Concretely, according to the position of needs spraying, move movable block 801 to logical groove 105 corresponding position department, the shape of spraying as required afterwards, when the spraying shape is circular, with gomphosis piece 1002 lock to the inside of rectangular channel 1001, make shower nozzle 902 spun printing ink only can pass through circular groove 1003, when the spraying shape is the rectangle, take off gomphosis piece 1002, shower nozzle 902 spun printing ink only can spout through rectangular channel 1001 afterwards, in the spraying process, the printing ink that spatters is intercepted by the inner wall of mould fill 10, have the inside of slope through mould fill 10 subsequently and trickle to the frame 1004 that gathers materials, realize the collection of printing ink coating, can also compromise the clean and tidy of operation panel 1 mesa when guaranteeing the printing ink reutilization.

The using method of the device comprises the following steps:

s1, before the device is used for carrying out aluminum foil veneering nano spraying operation, an aluminum foil roll is sleeved on the surface of a placing roller 1102, then an embedded sliding block 1101 is buckled into the inside of a groove in a sliding mode, then a sliding pull frame 11 is pushed inwards, the placing roller 1102 is located right below a through groove 105, then one end of the aluminum foil penetrates through the through groove 105 and sequentially passes through the surfaces of a first rotating roller 103, a second rotating roller 104, a first roller frame 2, a second roller frame 3, a third roller frame 4 and a winding rod 701 to form a complete traction winding mechanism, and automatic operation of the device is achieved through driving of a winding motor 702;

s2, starting a preheating drying plate 602, an operating drying plate 603 and a cooling drying plate 604 in the oven 6 to enable the temperature below the oven 6 to be in a normal distribution state so as to form stage-type temperature change treatment on the surface of the aluminum foil passing through the follow-up process, and further avoid the situation that the surface of an ink coating sprayed on the surface of the aluminum foil is coated with a film due to quick temperature rise, so that the drying treatment of the ink coating in the ink coating is prevented, and in addition, after the normal drying of the operating drying plate 603, the cooling drying plate 604 provides a drying temperature lower than that of the operating drying plate 603, so that the aluminum foil cannot be in a quenching state due to the fact that the aluminum foil is exposed to the air after leaving the oven 6 due to heat accumulation, and further the ink coating on the surface of the aluminum foil cannot be correspondingly shrunk, and the quality of the ink coating is guaranteed to be constant;

s3, before spraying, moving the moving block 801 to a position corresponding to the through groove 105 according to the position needing spraying, then buckling the embedded block 1002 into the rectangular groove 1001 when the spraying shape is circular according to the shape needing spraying, so that the ink sprayed by the spray head 902 can only pass through the circular groove 1003, taking down the embedded block 1002 when the spraying shape is rectangular, and then the ink sprayed by the spray head 902 can only be sprayed out through the rectangular groove 1001, wherein in the spraying process, the four splashed ink is intercepted by the inner wall of the mold bucket 10 and flows into the inner part of the aggregate frame 1004 through the inner wall with the slope of the mold bucket 10, so that the collection of ink paint is realized, the secondary utilization of the ink is ensured, and the cleanness and tidiness of the table top of the operation table 1 are also considered;

s4, moving the distance between the sliding rod 901 and the connecting support rod 9 according to the size of the area to be sprayed, and calculating the distance that the spray head 902 needs to move along the scale mark frame 903 under the action of an equal ratio relation so as to adjust the size of the spraying area when the device is used for spraying;

s5, after the spraying is finished and the drying treatment is carried out through the drying oven 6, the aluminum foil moves to the position below the fan box 12, the air above the aluminum foil is heated by the residual temperature on the surface of the aluminum foil at the moment, the temperature on the surface of the aluminum foil is detected through the temperature sensor 1203, the opening number of the electronic control switches 1204 is controlled, the size of the wind power output inside the fan box 12 is adjusted, the targeted cooling treatment is formed on the surface of the aluminum foil, the aluminum foil is guaranteed to rotate along with the winding rod 701 to achieve the winding operation, the heat accumulation effect can be reduced, and the situation that the sprayed coating on the surface of the aluminum foil is stably reserved on the surface of the aluminum foil is guaranteed.

The working principle is as follows: before the device is used for carrying out aluminum foil veneering nano spraying operation, the placing roller 1102 sleeved with an aluminum foil roll is connected with the sliding pulling frame 11 by using the embedded sliding block 1101, then the sliding pulling frame 11 is pushed inwards, and then one end of the aluminum foil passes through the through groove 105 and sequentially passes through the surfaces of the first rotating roller 103, the second rotating roller 104, the first roller frame 2, the second roller frame 3, the third roller frame 4 and the winding rod 701 to form a complete traction winding mechanism;

then, a preheating drying plate 602, an operation drying plate 603 and a cooling drying plate 604 in the oven 6 are started, so that the temperature below the oven 6 is in a normal distribution state, and a stage-type temperature change treatment is formed on the surface of the aluminum foil passing through the subsequent process, and further, the situation that the surface of an ink coating sprayed on the surface of the aluminum foil is coated with a film due to rapid heating is avoided, and the drying treatment of the ink coating in the ink coating is prevented;

before spraying, moving a moving block 801 according to the position to be sprayed, and then selectively using an embedded block 1002 according to the shape to be sprayed, wherein in the spraying process, ink splashed around is intercepted by the inner wall of a mold hopper 10, and then flows to the inside of an aggregate frame 1004 through the inner wall with slope of the mold hopper 10, so that ink paint is collected, the cleanness of the table top of an operation table 1 can be considered while secondary utilization of the ink is ensured, and the distance between a sliding rod 901 and a connecting support rod 9 is moved according to the size of the area to be sprayed, and the distance that a spray head 902 needs to be moved along a scale mark frame 903 is calculated under the action of an equal ratio relational expression so as to adjust the size of the spraying area of the device during spraying;

the aluminium foil moves to fan box 12's below, detects the temperature on aluminium foil surface through temperature-sensing ware 1203, and then control electronic control switch 1204 open quantity, forms the pertinence cooling to the aluminium foil surface and handles, guarantees that the aluminium foil can reduce the emergence of heat accumulation effect after following winding rod 701 rotation realization rolling operation, and then guarantees that aluminium foil surface spraying coating stably remains the surface at the aluminium foil.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a full-automatic aluminium foil wainscot nanometer spraying device, includes operation panel (1) and oven (6), its characterized in that: a sliding groove (8) is formed in the top of the operating platform (1), and a moving block (801) is installed in the sliding groove (8) in a sliding mode;

an L-shaped connecting support rod (9) is installed at the top of the moving block (801), the tail end of the connecting support rod (9) is connected with a sliding rod (901) in a sliding mode, the tail end of the sliding rod (901) is connected with a spray head (902), a C-shaped scale marking frame (903) is installed on the surface of the top of the tail end of the connecting support rod (9), and scale marking lines are arranged on the surface of the scale marking frame (903);

the front and the back of the operating platform (1) are both provided with first supporting columns (101), the front and the back of the operating platform (1) are both provided with second supporting columns (102), the second supporting columns (102) are positioned on one sides of the first supporting columns (101), and the tops of the first supporting columns (101) are provided with ovens (6);

the tail end of the scale mark frame (903) is connected with a frustum-shaped mold bucket (10), a rectangular groove (1001) is formed in the surface of one side, away from the spray head (902), of the mold bucket (10), an embedded block (1002) is embedded in the rectangular groove (1001), a circular groove (1003) is formed in the embedded block (1002), and a material collecting frame (1004) is installed at the bottom of the mold bucket (10);

the inside of operation panel (1) is equipped with logical groove (105) that runs through, and leads to groove (105) and is located spout (8) and be close to one side of second support column (102), the bottom slidable mounting of operation panel (1) has the slip to draw frame (11), and slides and draw frame (11) to be located one side of fan box (12), the slip draws the surface that frame (11) is close to each other to be equipped with the recess, the inside slidable mounting of recess has gomphosis slider (1101), the surface of gomphosis slider (1101) is installed through the bearing and is placed roller (1102), and places roller (1102) and is located under leading to groove (105).

2. The full-automatic nanometer spraying device for the aluminum foil veneers as recited in claim 1, wherein the device comprises: activated carbon plate (601) is installed to the inner wall of oven (6), preheating drying plate (602), operation drying plate (603) and cooling drying plate (604) are installed to the inner wall of oven (6), and operation drying plate (603) are located the centre of preheating drying plate (602) and cooling drying plate (604), preheating drying plate (602) are close to second support column (102), cooling drying plate (604) are close to first support column (101), preheating drying plate (602), operation drying plate (603) and cooling drying plate (604) are located the below of activated carbon plate (601), ultraviolet curing lamp (605) are installed to the inner wall equidistance of oven (6), and ultraviolet curing lamp (605) and preheating drying plate (602), operation drying plate (603) and cooling drying plate (604) interval arrangement.

3. The full-automatic aluminum foil facing nano-spraying device according to claim 2, characterized in that: fan box (12) are installed to the bottom of operation panel (1), the internally mounted of fan box (12) has cooling fan, the bottom of fan box (12) is run through and is installed out tuber pipe (1202), and goes out tuber pipe (1202) matrix and arrange, the surface mounting who goes out tuber pipe (1202) has electronic control switch (1204), temperature-sensing ware (1203) are all installed in the bottom four corners of fan box (12), and temperature-sensing ware (1203) and electronic control switch (1204) electric connection, the surface of fan box (12) is run through and is installed blast pipe (1201).

4. The full-automatic aluminum foil facing nano-spraying device according to claim 1, characterized in that: ink tank (5) are installed at the top of operation panel (1), suction pump (501) are installed in the front of ink tank (5), the output of suction pump (501) is connected with the conveying pipe, and the tail end and shower nozzle (902) through connection of conveying pipe, the input of suction pump (501) is connected with the hose, and the tail end of hose extends the inside of oil feed ink tank (5).

5. The full-automatic aluminum foil facing nano-spraying device according to claim 4, characterized in that: one side surface mounting that second support column (102) was kept away from in operation panel (1) has rolling frame (7), rolling frame (7) are close to each other the surface through the bearing install winding rod (701), the surface mounting of rolling frame (7) has rolling motor (702), and the output of rolling motor (702) runs through rolling frame (7) and is connected with the one end of winding rod (701).

6. The full-automatic aluminum foil facing nano-spraying device according to claim 5, characterized in that: second support column (102) and spout (8) apart from being less than the distance between first support column (101) and spout (8), the surface mounting that second support column (102) was kept away from in first support column (101) has a roller frame (2) and No. two roller frames (3) of arranging from top to bottom, the surface mounting that first support column (101) was kept away from in second support column (102) has No. three roller frames (4), and the bull stick is all installed through the bearing to the inner wall of a roller frame (2), no. two roller frames (3) and No. three roller frames (4), no. three roller frames (4) are located and receive coil rod (701) under.

7. The full-automatic aluminum foil facing nano-spraying device according to claim 6, characterized in that: the surface that first support column (101) are close to each other installs the second through the bearing and changes roller (104), the surface that second support column (102) are close to each other installs first commentaries on classics roller (103) through the bearing, and first commentaries on classics roller (103) and second commentaries on classics roller (104) all are located the below of oven (6), the second changes roller (104) and is located the side top of a roller frame (2).

8. The full-automatic aluminum foil facing nano spraying device as claimed in claim 7, wherein the using method of the device comprises the following steps:

s1, before the device is used for carrying out aluminum foil veneering nano spraying operation, an aluminum foil coil is sleeved on the surface of a placement roller (1102), then an embedded sliding block (1101) is buckled into the inside of a groove in a sliding mode, then a sliding pull frame (11) is pushed inwards, the placement roller (1102) is located under a through groove (105), then one end of the aluminum foil penetrates through the through groove (105) and sequentially passes through the surfaces of a first rotating roller (103), a second rotating roller (104), a first roller frame (2), a second roller frame (3), a third roller frame (4) and a winding rod (701), a complete traction winding mechanism is formed, and automatic operation of the device is achieved through driving of a winding motor (702);

s2, then starting a preheating drying plate (602), an operation drying plate (603) and a cooling drying plate (604) in the oven (6) to enable the temperature below the oven (6) to be in a normal distribution state so as to form stage-type temperature change treatment on the surface of the aluminum foil passing through subsequently, further avoiding fast temperature rise to cause consideration of a film on the surface of an ink coating sprayed on the surface of the aluminum foil, thereby preventing drying treatment of the ink coating in the ink coating, and further after normal drying of the operation drying plate (603), providing a drying temperature lower than that of the operation drying plate (603) by the cooling drying plate (604), so that the aluminum foil cannot be in a quenching state due to the fact that the aluminum foil is exposed to air after leaving the oven (6) due to heat accumulation effect, further preventing the ink coating on the surface of the aluminum foil from generating corresponding shrinkage phenomenon, and further ensuring the constant quality of the ink coating;

s3, before spraying, moving a moving block (801) to a position corresponding to the through groove (105) according to a position needing spraying, then buckling the embedding block (1002) into the rectangular groove (1001) according to a shape needing spraying when the spraying shape is circular, so that ink sprayed by the spray head (902) can only pass through the circular groove (1003), taking down the embedding block (1002) when the spraying shape is rectangular, then spraying the ink sprayed by the spray head (902) only through the rectangular groove (1001), intercepting the ink splashed by the inner wall of the mold hopper (10) in the spraying process, and then flowing into the inside of the aggregate frame (1004) through the inner wall with slope of the mold hopper (10), so that the collection of ink paint is realized, the secondary utilization of the ink is ensured, and the neatness of the table top of the operation table (1) is also considered;

s4, moving the distance between the sliding rod (901) and the connecting stay bar (9) according to the size of the area needing to be sprayed, and calculating the distance that the spray head (902) needs to move along the scale mark rack (903) under the action of an equal ratio relation so as to adjust the size of the spraying area when the device is used for spraying;

s5, after the spraying is finished and the drying treatment is carried out through the drying oven (6), the aluminum foil moves to the position below the fan box (12), at the moment, the air above the aluminum foil is heated by the residual temperature on the surface of the aluminum foil, the temperature on the surface of the aluminum foil is detected through the temperature sensor (1203), the opening number of the electronic control switches (1204) is further controlled, the size of the wind power output inside the fan box (12) is adjusted, the targeted cooling treatment is formed on the surface of the aluminum foil, the aluminum foil is guaranteed to rotate along with the winding rod (701) to achieve the winding operation, the heat accumulation effect can be reduced, and the sprayed coating on the surface of the aluminum foil is guaranteed to be stably kept on the surface of the aluminum foil.

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