Copper door coloring equipment and coloring method
Technical Field
The invention relates to a coloring device and a coloring method, in particular to a copper door coloring device and a coloring method, and belongs to the technical field of copper door coloring.
Background
Copper door, magnificent, heavy and steady, give people often is a sensation of solemn magical saint, copper door, formerly often used often in deep residence local both be the symbol of identity and protect the safe firm barrier in the door, copper door begin now to be introduced the splendid outward appearance of apartment, villa in house now, firm durable characteristic is enough for owner to prop face, copper door more durable than ordinary door, not only do not have the deformation, the fracture problem, generally speaking, modern wire drawing copper door's colour can accomplish nearly ten kinds, through brushing the paint and coloring to copper door, better increase copper door's appreciation degree and its nature itself.
The existing copper door coloring equipment and the existing copper door coloring method have poor coloring effect, and coloring solution is easy to splash and inconvenient to observe the coloring effect.
Disclosure of Invention
The invention mainly aims to solve the problems of poor coloring effect, easy splashing of coloring solution and inconvenience in observing the coloring effect, and provides copper door coloring equipment and a coloring method.
The purpose of the invention can be achieved by adopting the following technical scheme:
a copper door coloring device comprises a first supporting seat, wherein a charging box is arranged on one side of the first supporting seat, the front and the back of the charging box are respectively provided with an inclined table, the top of the inclined table is provided with a ball, the other side of the charging box is provided with a second supporting seat, a filter material net is arranged inside the charging box, a supporting column penetrates through the filter material net, the top of the supporting column is provided with a first sliding wheel, the top of the first supporting seat is provided with a first storage box, the top of the second supporting seat is provided with a second storage box, the tops of the first storage box and the second storage box are respectively provided with a first sliding rail column, the top of the first sliding rail column is provided with a second sliding rail column, the side of the second sliding rail column is provided with a supporting frame, and the first sliding rail column is in sliding connection with the supporting frame through a second sliding wheel at the top, the inboard of second slide rail post is provided with a supporting bench, be provided with electric telescopic handle on the supporting bench, electric telescopic handle's output is connected with annotates the material device, the side of annotating the material device is provided with the catheter, swing joint has the film pressing device on the first slide rail post, the film pressing device includes pressure membrane piece and fixed mounting in the play membrane case at pressure membrane piece both ends, the inside that goes out the membrane case is provided with the membrane roller, the inside of pressure membrane piece is provided with the pressure membrane spring, the other end of pressure membrane spring is connected with the pressure membrane wheel, the other end of pressure membrane piece is provided with the spliced pole that climbs, the other end of climbing the spliced pole is provided with the gear shaft and is used for the drive gear shaft moving driving motor, first slide rail post with the inboard of second slide rail post all be provided with gear shaft intermeshing's rack.
Preferably, a drawer is arranged inside the second storage box, an operation panel is arranged on the front surface of the second storage box, and a power socket is arranged below the operation panel.
Preferably, the bottom of the second storage box is provided with a fourth sliding wheel, a threaded column is arranged on the front face of the fourth sliding wheel, and a fastening screw cap is arranged at the other end of the threaded column.
Preferably, the top of the second support seat is provided with a sliding groove for the fourth sliding wheel to slide, and the front of the second support seat is provided with a second sliding groove for the threaded column to slide.
Preferably, the outer end of the film outlet box is provided with a sealing cover, and one side of the film outlet box, which is close to the film pressing wheel, is provided with a film outlet.
Preferably, a power supply connecting wire penetrates through the first slide rail column, and a third sliding wheel used for the climbing connecting column to slide is arranged between the climbing connecting column and the first slide rail column.
Preferably, a plurality of hexagonal clamping columns are arranged on the film pressing wheel.
Preferably, the material injection device comprises a material injection shell, a material injection pipe is arranged inside the material injection shell, a material injection head is arranged at the bottom end of the material injection pipe, the other end of the material injection pipe is connected with the material injection shell through a compression spring, and the material injection pipe is connected with the liquid guide pipe through a connecting pipe.
A coloring method of a copper door coloring device comprises the following steps:
step 1: the film pressing device is connected with an external material conveying pump through the liquid guide pipe, then a copper door is pushed onto the first sliding wheel through the inclined table and the ball on the inclined table, after the film pressing device is completed, a film on the film roller is pulled out through the film outlet and clamped between the copper door and the film pressing wheel, the film pressing device is driven to be close to the copper door by pushing the second storage box, the film is pressed on the copper door through the film pressing wheel, and then the device is started through the operation panel;
step 2: the film pressing device is driven by the gear shaft to climb along the first slide rail column, and in the climbing process, a film is pressed on the copper door through the film pressing wheel, then moves along the second slide rail column, moves to the other section of the first slide rail column, and is pasted with a film on the other side of the copper door;
and step 3: after the film is pasted, the film pressing device moves to the top of the first storage box, then a worker seals the edge of the copper door after the film is pasted, the bottom of the copper door is not sealed, after the film is pasted, the electric telescopic rod is started to drive the material injection device to descend, the material injection pipe and the material injection head are pressed on the copper door after the film is pasted and penetrate through the film on the surface of the copper door, then coloring solution is injected to the surfaces of the film and the copper door, under the action of gravity, the coloring solution is soaked to the outer surface of the copper door, and the liquid injection is stopped after the coloring solution is soaked to the bottom of the copper door and drips;
and 4, step 4: after the injection of the coloring solution is finished, the injection opening is not sealed, the solution is kept stand, the coloring solution is fully contacted with the copper door, and the coloring condition of the copper door is observed.
Preferably, in the step of the first slide rail column, the coloring solution dropped from the bottom of the copper door is collected through the filter material net.
The invention has the beneficial technical effects that: according to the copper door coloring equipment and the coloring method, the copper door can move under the assistance of the first sliding rail column and the second sliding rail column, the copper door placed between the first storage box and the second storage box is pasted with the film, after the film pasting is completed, the coloring solution is injected through the injection device, the solution is locked between the copper door and the film through the film seal, the solution can be effectively prevented from splashing, the copper door can be conveniently colored through the dip dyeing of the solution in the later period, the coloring condition of the copper door can be conveniently observed through the film, the coloring condition of the copper door can be monitored in real time, the copper door coloring equipment is more convenient to use, the consumption of the coloring solution can be effectively saved through the injection of the coloring solution between the copper door and the film, meanwhile, the coloring effect of the copper door can be increased, and the copper door can be colored more attractive.
Drawings
FIG. 1 is a schematic view showing the overall structure of a preferred embodiment of a copper door coloring apparatus and a coloring method according to the present invention;
FIG. 2 is a schematic view of a connection structure of a first sliding rail column and a supporting frame of a preferred embodiment of the coloring apparatus and the coloring method for copper doors according to the invention;
FIG. 3 is a schematic structural diagram of a film pressing device according to a preferred embodiment of the coloring apparatus and the coloring method for copper doors of the present invention;
FIG. 4 is a schematic view of the inner structure of a squeeze film block according to a preferred embodiment of the coloring apparatus and method for copper door of the present invention;
FIG. 5 is a schematic view of a connection structure of a first sliding rail column and a climbing connection column of a preferred embodiment of the coloring apparatus and the coloring method for copper doors according to the invention;
FIG. 6 is a schematic view of a film pressing wheel structure of a preferred embodiment of the copper door coloring apparatus and the coloring method according to the present invention;
FIG. 7 is a schematic structural view of an electric telescopic rod of a preferred embodiment of the coloring apparatus and the coloring method for copper doors according to the present invention;
FIG. 8 is a schematic structural view of a material injection device of a preferred embodiment of the coloring apparatus and the coloring method for copper doors according to the present invention;
FIG. 9 is a schematic view of the internal structure of a second supporting seat of the preferred embodiment of the coloring apparatus and method for copper door according to the present invention;
fig. 10 is a schematic view showing the internal structure of the cartridge in accordance with a preferred embodiment of the coloring apparatus and the coloring method for a copper door according to the present invention.
In the figure: 1-a first supporting seat, 2-a first storage box, 3-a first sliding rail column, 4-an electric telescopic rod, 5-a liquid guide pipe, 6-a film pressing device, 601-a sealing cover, 602-a film discharging box, 603-a film roller, 604-a climbing connecting column, 605-a film pressing block, 606-a film discharging port, 607-a film pressing wheel, 608-a film pressing spring, 7-a second storage box, 8-a drawer, 9-a second supporting seat, 10-a sliding chute, 11-a power supply socket, 12-an operation panel, 13-a fastening nut, 14-a sloping platform, 15-a ball, 16-a filter material net, 17-a first sliding wheel, 18-a second sliding rail column, 19-a supporting platform, 20-a supporting frame, 21-a second sliding wheel and 22-a power supply connecting line, 23-gear shaft, 24-third sliding wheel, 25-material injection device, 251-material injection shell, 252-compacting and dyeing yellow, 253-material injection pipe, 254-material injection head, 255-material connection pipe, 26-threaded column, 27-support column, 28-material charging box, 29-second sliding chute and 30-fourth sliding wheel.
Detailed Description
In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.
As shown in fig. 1 to 10, the copper door coloring apparatus provided by this embodiment includes a first supporting seat 1, a loading box 28 is disposed on one side of the first supporting seat 1, an inclined table 14 is disposed on both the front and back of the loading box 28, a ball 15 is disposed on the top of the inclined table 14, a second supporting seat 9 is disposed on the other side of the loading box 28, a filter material net 16 is disposed inside the loading box 28, a supporting column 27 penetrates through the filter material net 16, a first sliding wheel 17 is disposed on the top of the supporting column 27, a first storage box 2 is disposed on the top of the first supporting seat 1, a second storage box 7 is disposed on the top of the second supporting seat 9, a first sliding rail column 3 is disposed on the top of each of the first storage box 2 and the second storage box 7, a second sliding rail column 18 is disposed on the top of the first sliding rail column 3, a supporting frame 20 is disposed on the side of the second sliding rail column 18, the first sliding rail column 3 is slidably connected to the supporting frame 20 through a, the inboard of second slide rail post 18 is provided with brace table 19, be provided with electric telescopic handle 4 on the brace table 19, electric telescopic handle 4's output is connected with annotates material device 25, the side of annotating material device 25 is provided with catheter 5, swing joint has press mold device 6 on the first slide rail post 3, press mold device 6 includes pressing mold block 605 and fixed mounting goes out membrane case 602 at pressing mold block 605 both ends, the inside of going out membrane case 602 is provided with membrane roller 603, the inside of pressing mold block 605 is provided with press mold spring 608, the other end of press mold spring 608 is connected with press mold wheel 607, the other end of press mold block 605 is provided with the spliced pole 604 that climbs, the other end of the spliced pole 604 that climbs is provided with gear shaft 23 and is used for driving gear shaft 23 moving driving motor, the inboard of first slide rail post 3 and second slide rail post 18 all is provided with the rack bar with gear shaft 23 intermeshing. Through setting up press mold device 6, can remove under the assistance of first slide rail post 3 and second slide rail post 18, carry out the pad pasting to the copper door of placing between first bin 2 and second bin 7, the pad pasting is accomplished the back, pour into the solution of coloring into through annotating material device 25, solution is between copper door and membrane, pin solution through the membrane seal, can prevent effectively that solution from splashing, through the dip-dyeing of later stage solution to the copper door, can be convenient color the copper door, and can see through the convenient condition of coloring to the copper door of membrane and observe, the condition of coloring that can real-time control copper door, it is more convenient to use, through pour into the solution of coloring into between copper door and membrane, can effectually save the consumption to the solution of coloring, can also increase the effect of coloring to the copper door simultaneously, make the copper door more pleasing to the eye of coloring.
In the present embodiment, as shown in fig. 1 to 10, a drawer 8 is disposed inside the second storage box 7, an operation panel 12 is disposed on the front surface of the second storage box 7, a power socket 11 is disposed below the operation panel 12, a fourth sliding wheel 30 is disposed at the bottom of the second storage box 7, a threaded post 26 is disposed on the front surface of the fourth sliding wheel 30, a fastening nut 13 is disposed at the other end of the threaded post 26, a sliding slot 10 for sliding the fourth sliding wheel 30 is disposed at the top of the second supporting seat 9, a second sliding slot 29 for sliding the threaded post 26 is disposed on the front surface of the second supporting seat 9, a sealing cover 601 is disposed at the outer end of the film outlet box 602, a film outlet 606 is disposed at a side of the film outlet box 602 close to the film pressing wheel 607, a power connection line 22 penetrates through the inside of the first sliding rail post 3, a third sliding wheel 24 for climbing the connection post 604 and sliding is disposed between the climbing connection post 604 and the, the film pressing wheel 607 is provided with a plurality of hexagonal clamping columns, the material injection device 25 comprises a material injection shell 251, a material injection pipe 253 is arranged inside the material injection shell 251, the bottom end of the material injection pipe 253 is provided with a material injection head 254, the other end of the material injection pipe 253 is connected with the material injection shell 251 through a compression spring 252, and the material injection pipe 253 is connected with a liquid guide pipe 5 through a connecting pipe 255. Through setting up drawer 8, can conveniently store some debris or raw materials, through setting up third movable pulley 24, can conveniently climb the slip of spliced pole 604 more, the slip process is more smooth and easy, through setting up fastening nut 13, can be used for fixing second bin 7, prevent that second bin 7 from sliding, make the stability more of working process, be provided with a plurality of hexagon card posts through pressing mold wheel 607, can be more convenient press the membrane on the copper door, can also reduce the area of contact with the membrane, reduce the adhesion to the membrane, through setting up compression spring 252, can give the certain pressure of notes stub bar 254 and pierce through the membrane on copper door surface, still can not cause the damage to the copper door simultaneously.
As shown in fig. 1 to 10, the coloring method of the copper door coloring apparatus includes the following steps: step 1: the device is connected with an external material delivery pump through a liquid guide pipe 5, then a copper door is pushed to a first sliding wheel 17 through an inclined table 14 and a ball 15 on the inclined table 14, after the completion, a film on a film roller 603 is pulled out through a film outlet 606 and clamped between the copper door and a film pressing wheel 607, a film pressing device 6 is driven to be close to the copper door by pushing a second storage box 7, the film is pressed on the copper door through the film pressing wheel 607, and then the device is started through an operation panel 12; step 2: the film pressing device 6 climbs along the first slide rail column 3 under the driving of the gear shaft 23, presses a film on the copper door through the film pressing wheel 607 in the climbing process, then moves along the second slide rail column 18, moves to the other section of the first slide rail column 3, and pastes a film on the other side of the copper door; and step 3: after the film pasting is finished, the film pressing device 6 moves to the top of the first storage box 2, then a worker seals the edge of the copper door after the film pasting, the bottom of the copper door is not sealed, after the film pasting is finished, the electric telescopic rod 4 is started to drive the material injection device 25 to descend, the copper door after the film pasting is pressed on the copper door through the material injection pipe 253 and the material injection head 254, the film on the surface of the copper door penetrates through the material injection head 254, then the coloring solution is injected into the surfaces of the film and the copper door, under the action of gravity, the coloring solution permeates the outer surface of the copper door, the liquid injection is stopped after the coloring solution permeates the bottom of the copper door and drips, and the coloring solution dripped from the bottom of the copper door is taken through the filter material net 16; and 4, step 4: after the injection of the coloring solution is finished, the injection opening is not sealed, the solution is kept stand, the coloring solution is fully contacted with the copper door, and the coloring condition of the copper door is observed.
In this embodiment, as shown in fig. 1 to fig. 10, the copper door coloring apparatus and the coloring method provided in this embodiment have the following working processes:
step 1: an external power supply is connected through a power socket 11, an external material conveying pump is connected through a liquid guide pipe 5, and then the copper door is pushed to a first sliding wheel 17 through an inclined table 14 and a ball 15 on the inclined table 14;
step 2: after the completion, the film on the film roller 603 is pulled out through the film outlet 606 and clamped between the copper door and the film pressing wheel 607, the film pressing device 6 is driven to be close to the copper door by pushing the second storage box 7, the film is pressed on the copper door through the film pressing wheel 607, then the device is started through the operation panel 12, the film pressing device 6 is driven by the gear shaft 23 to climb along the first slide rail column 3, the film is pressed on the copper door through the film pressing wheel 607 in the climbing process, then the film moves along the second slide rail column 18, the film is moved to the other section of the first slide rail column 3, and the other side of the copper door is pasted with the film;
and step 3: after the pad pasting is accomplished, press mold device 6 removes the top of first bin 2, then the staff carries out sealing process to the edge of the copper door behind the pad pasting, the copper door bottom is not sealed, after the processing is accomplished, start electric telescopic handle 4, it descends to drive notes material device 25, press on the copper door behind the pad pasting through annotating material pipe 253 and annotating stub bar 254, and pierce through the membrane on copper door surface through annotating stub bar 254, then the surface of membrane and copper door is injected into to the solution of will coloring, under the effect of gravity, the surface of copper door is soaked to the solution of coloring, the solution of coloring soaks the copper door bottom and drips the back, stop annotating the liquid, pour into the solution of coloring and accomplish the back, the injection port is not sealed, it stews, let the solution of coloring fully contact with the copper door, observe the condition of coloring of copper door.
To sum up, in the embodiment, according to the copper door coloring apparatus and the coloring method of the embodiment, by providing the film pressing device 6, the copper door can be moved with the assistance of the first sliding rail column 3 and the second sliding rail column 18, the copper door placed between the first storage box 2 and the second storage box 7 is filmed, after the filming is completed, the coloring solution is injected through the injection device 25, the solution is locked between the copper door and the film through the film seal, the solution can be effectively prevented from splashing, the copper door can be conveniently colored through the dip-dyeing of the solution in the later period, the coloring condition of the copper door can be conveniently observed through the film, the coloring condition of the copper door can be monitored in real time, the use is more convenient, the consumption of the coloring solution can be effectively saved by injecting the coloring solution between the copper door and the film, and the coloring effect of the copper door can be increased, the copper door can be colored more beautifully. Through setting up drawer 8, can conveniently store some debris or raw materials, through setting up third movable pulley 24, can conveniently climb the slip of spliced pole 604 more, the slip process is more smooth and easy, through setting up fastening nut 13, can be used for fixing second bin 7, prevent that second bin 7 from sliding, make the stability more of working process, be provided with a plurality of hexagon card posts through pressing mold wheel 607, can be more convenient press the membrane on the copper door, can also reduce the area of contact with the membrane, reduce the adhesion to the membrane, through setting up compression spring 252, can give the certain pressure of notes stub bar 254 and pierce through the membrane on copper door surface, still can not cause the damage to the copper door simultaneously.
The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.