CN113198701B

CN113198701B - Method for coating paint on metal surface

Info

Publication number: CN113198701B
Application number: CN202110485854.3A
Authority: CN
Inventors: 沈辉; 沈娟
Original assignee: Ningbo Jishi Metal New Material Co ltd
Current assignee: Ningbo Jishi Metal New Material Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2022-09-27
Anticipated expiration: 2041-04-30
Also published as: CN113198701A

Abstract

The invention discloses a method for coating paint on a metal surface, which comprises the following steps: a pretreatment procedure: thoroughly cleaning the metal surface and keeping the metal surface dry; a coating procedure: placing the cleaned metal in a paint container for soaking and painting; a spin-drying process: the metal after painting is placed in and is got rid of the paint incasement and get rid of excessive paint on it fast, specifically carries out quick rotation after pressing from both sides the metal clamp with the painting to throw away the excessive paint fast with metal surface adhesion. According to the invention, the paint is thrown off, so that the metal soaked in the paint is clamped and then rapidly rotated, and the excessive paint attached to the surface of the metal can be rapidly thrown off, so that the thickness of the paint on the surface of the metal is thinner and more uniform, the metal paint is particularly suitable for metals with irregular shapes, and the paint coating efficiency and effect on the surface of the metal are improved.

Description

Method for coating paint on metal surface

Technical Field

The invention relates to the technical field of metal surface treatment, in particular to a method for coating paint on a metal surface.

Background

In order to quickly coat paint on a metal surface, particularly for irregularly-shaped metals, the prior art generally immerses the metals in a paint container for painting, although the paint is completely and quickly attached to the metal surface after immersion painting, excessive paint is often attached to the metal surface, so that the paint is very difficult to dry, and the subsequent removal of the excessive paint is troublesome, and in addition, the uniformity of the paint finally attached to the metal surface cannot be ensured.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a method for coating paint on a metal surface, so as to solve the technical problem in the background technology.

In order to solve the problems, the invention adopts the following technical scheme:

the invention relates to a method for coating paint on a metal surface, which comprises the following steps:

a pretreatment procedure: thoroughly cleaning the metal surface and keeping the metal surface dry;

a coating procedure: placing the cleaned metal in a paint container for soaking and painting;

a spin-drying process: the metal after painting is placed in and is got rid of the paint incasement and get rid of excessive paint on it fast, specifically carries out quick rotation after pressing from both sides the metal clamp with the painting to throw away the excessive paint fast with metal surface adhesion.

Further, the spin-drying process comprises a primary clamping stage, a primary spin-drying stage, a secondary clamping stage and a secondary spin-drying stage.

Further, the primary clamping stage includes: and starting a motor and utilizing the meshing transmission of the power gear and the gear ring to drive the clamping blocks at the two sides to mutually approach and clamp the metal placed in the paint throwing cavity.

Further, the primary clamping stage specifically includes: put into the metal that will soak paint and get rid of the lacquer intracavity and carry out the bearing, thereby the starter motor drives the motor shaft and rotates, thereby the rotation through the motor shaft drives the revolving rack and rotates, thereby it rotates to drive the gear shaft to drive the meshing transmission through power gear and ring gear, thereby it rotates to drive the screw rod through the rotation of gear shaft and the meshing transmission of bevel gear pair, thereby the rotation through the screw rod drives being close to each other of both sides connecting block through the threaded connection between screw rod and the both sides connecting block, thereby it is close to each other to drive both sides through being close to each other of both sides connecting block and erase the box, thereby it presss from both sides tightly to drive the metal that the tight piece of both sides clamp is close to each other and will put into and get rid of the lacquer intracavity.

Furthermore, after metal is clamped in the primary clamping stage, the annular electromagnet is started to adsorb the magnetic ring while the motor is turned off, so that the gear ring is disengaged from the power gear, and the primary clamping stage is completed.

Further, the primary spin-drying stage comprises: the motor is started again, the clamping blocks on the two sides and the metal are driven to rotate rapidly through the motor shaft, so that the excessive paint attached to the surface of the metal can be quickly thrown away, and the motor is started for a preset time and then is stopped.

Further, the secondary clamping stage comprises: the unclamped end face of the metal is clamped to expose the clamped end face through the meshing transmission of the motor and the power gear with the gear ring.

Further, the secondary clamping stage further comprises: the workpiece is supported, the annular electromagnet is powered off, the power gear and the gear ring are enabled to be meshed again, the power gear and the gear ring are meshed again, the motor shaft is driven by the starting motor to rotate reversely, so that metal is loosened, then the motor is turned off, after the workpiece rotates in one direction, two end faces of the workpiece are made to rotate in the spin-drying direction and face towards the clamping blocks respectively, the two side clamping motors are started, so that the two side clamping block shafts are driven to rotate one hundred and eighty degrees, the end faces of the two sides of the clamping blocks, which are not clamped, are turned over, then the motor is turned off after the two end faces of the workpiece are made to rotate in the spin-drying direction and are clamped again, and then the annular electromagnet is turned off, so that the gear ring is disengaged from the power gear.

Further, the secondary spin-drying stage comprises: and the motor is started again to drive the metal to rotate, so that the residual paint is thrown away.

Further, the secondary spin-drying stage further comprises: thereby start screw rod motor and drive reciprocating screw and rotate, thereby through the rotation of reciprocating screw rod and the threaded connection drive reciprocating moving block between the reciprocating screw rod and the reciprocating moving block carry out the reciprocating motion of horizontal direction to the axle is being erased in the drive and is carrying out reciprocating motion, thereby rotates when driving through the meshing transmission between rotation gear and the rack and erasing wheel reciprocating motion this moment, thereby clears up the terminal surface that the clamp block presss from both sides tightly.

According to the invention, the paint is thrown off, so that the metal soaked in the paint is clamped and then rapidly rotated, and the excessive paint attached to the surface of the metal can be rapidly thrown off, so that the thickness of the paint on the surface of the metal is thinner and more uniform, the metal paint is particularly suitable for metals with irregular shapes, and the paint coating efficiency and effect on the surface of the metal are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a paint slinger box according to an embodiment of the invention;

FIG. 2 is an enlarged view of the point A in FIG. 1;

FIG. 3 is an enlarged view of the point B in FIG. 1;

FIG. 4 is a schematic view of the structure at C-C in FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 3 at D-D;

fig. 6 is a schematic diagram of the method for applying paint on the metal surface according to the embodiment.

In the figure: 11. throwing paint box; 12. a paint throwing cavity; 13. a motor; 14. a motor shaft; 15. rotating the frame; 16. a ring gear; 17. a screw cavity; 18. a screw; 19. connecting blocks; 20. opening and closing the door; 21. a transmission cavity; 22. a power gear; 23. a gear shaft; 24. a magnetic ring; 25. a spring; 26. an annular electromagnet; 27. an erasing box; 28. clamping the motor; 29. erasing the box cavity; 30. an erasing wheel; 31. erasing the shaft; 32. a sliding cavity; 33. a slider; 34. a clamping block; 35. a clamp block shaft; 36. a rack cavity; 37. a reciprocating moving block; 38. a reciprocating screw; 39. a rotating gear; 40. a rack; 41. a screw motor; 42. a bevel gear pair.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention will be more clearly and clearly defined.

The paint spraying box that gets rid of this embodiment is applicable to paint coating process, and the metal that aims at soaking the paint presss from both sides after tight quick rotation that carries on to can get rid of metal surface adhesion excess paint fast, make the paint thickness attenuation and more even of metal surface, the metal of some specially adapted irregular shapes, so improved metal surface paint coating's efficiency and effect.

As shown in fig. 1 to 5, the paint throwing box 11 of this embodiment is provided therein with a paint throwing cavity 12, a door 20 capable of switching a communication state between the paint throwing cavity 12 and the outside is fixedly provided on one side wall of the paint throwing cavity 12, a motor 13 is fixedly provided on an upper wall of the paint throwing cavity 12, a rotating stand 15 is fixedly connected to a rear end of a motor shaft 14 of the motor 13 extending into the paint throwing cavity 12, the rotating stand 15 can be driven to rotate around the motor shaft 14 by the motor 13, a transmission cavity 21 is provided on one side of the rotating stand 15, a screw cavity 17 with a downward opening is provided in the rotating stand 15, a screw 18 extending into the transmission cavity 21 and rotatably connected to one side wall of the transmission cavity 21 is rotatably provided in the screw cavity 17, a gear shaft 23 extending upward to an upper side of the rotating stand 15 is rotatably provided on an upper wall of the transmission cavity 21, a bevel gear pair 42 capable of mutual meshing transmission is fixedly connected to an outer circumferential surface of one side of the gear shaft 23 located in the transmission cavity 21 and an outer circumferential surface of one side of the screw 18 located in the transmission cavity 21, the top end of the inner wall of the paint throwing cavity 12 is fixedly provided with a gear ring 16, the inner circular surface of the gear ring 16 is a gear surface, the top end of the outer circular surface of the gear shaft 23 is in key connection with a power gear 22 which can be in meshing transmission with the gear surface of the gear ring 16, the bottom end of the power gear 22 is fixedly connected with a magnetic ring 24, the top end of the rotating frame 15 is fixedly provided with an annular electromagnet 26 corresponding to the magnetic ring 24, the outer circular surface of the gear shaft 23, which is positioned on the upper side of the rotating frame 15, is sleeved with a spring 25, and two ends of the spring 25 are abutted against the bottom end of the power gear 22 and the top end of the rotating frame 15.

Connecting blocks 19 which extend downwards into the paint throwing cavity 12 are connected in the screw cavity 17 in a sliding mode, the number of the connecting blocks 19 is two, the two connecting blocks 19 are arranged on two opposite sides, the thread directions of two sides of the screw 18 are opposite, the thread connection is arranged between the outer circular surface of the screw 18 and the connecting blocks 19 on the two sides, the thread directions of the two connecting blocks 19 and the screw 18 on the two sides are opposite, an erasing box 27 is fixedly arranged at the bottom end of the connecting blocks 19 on the two sides, a through erasing box cavity 29 is formed in the erasing box 27 on the two sides, a clamping block shaft 35 is arranged between the upper wall and the lower wall of the erasing box cavity 29 in a rotating mode, clamping blocks 34 are fixedly connected to the outer circular surface of the clamping block shaft 35 on the two sides, clamping motors 28 fixedly arranged on the upper wall of the erasing box cavity 29 on the two sides, the lower end faces of the clamping motors 28 are in power connection with the top ends of the clamping block shafts 35, and the metal needing clamping can be clamped through the mutual approaching of the clamping blocks 34 on the two sides.

The upper wall of the erasing box cavities 29 at two sides is communicated with a rack cavity 36 positioned at one side of the clamping block 34, the lower wall of the erasing box cavities 29 at two sides is communicated with a sliding cavity 32 corresponding to the rack cavity 36, an erasing device capable of erasing one side end face of the clamping block 34 is arranged between the rack cavity 36 and the sliding cavity 32, the erasing device comprises a screw motor 41 fixedly connected with one side wall of the rack cavity 36, a reciprocating screw 38 is rotatably arranged between the rack cavities 36, one end of the reciprocating screw 38 is in power connection with one side end face of the screw motor 41, a reciprocating moving block 37 is in threaded connection with the outer circular face of the reciprocating screw 38, the bottom end of the reciprocating moving block 37 is rotatably connected with an erasing shaft sliding block 31 extending downwards into the sliding cavity 32, a sliding block 33 is slidably connected in the sliding cavity 32, the bottom end of the erasing shaft 31 is rotatably connected with the top end of the sliding block 33, and an erasing wheel 30 is fixedly connected with the outer circular face of one side of the erasing shaft 31 positioned in the erasing box cavity 29, a rotating gear 39 is fixedly connected to the outer circular surface of one side of the erasing shaft 31 positioned in the rack cavity 36, and a rack 40 in meshing transmission with the rotating gear 39 is fixedly arranged on one side wall of the rack cavity 36.

The method for applying paint on metal surface of the embodiment specifically includes the following steps as shown in fig. 6:

a pretreatment procedure: the metal surface was thoroughly cleaned and kept dry.

A coating procedure: and placing the cleaned metal in a paint container for soaking and painting.

A spin-drying process: and putting the painted metal into a paint throwing box to quickly throw off the excessive paint on the metal. In this process, carry out quick rotation after pressing from both sides the metal that will go up the paint tight to can get rid of the excessive paint of metal surface adhesion fast, make the paint thickness attenuation of metal surface and more even, specially adapted some irregularly shaped metal, specifically, this process of spin-drying includes once centre gripping stage, once spin-dries stage, secondary centre gripping stage and secondary spin-drying stage. Wherein a clamping stage includes: starting the motor 13 and utilizing the meshing transmission of the power gear 22 and the gear ring 16 to drive the clamping blocks 34 at the two sides to approach each other and clamp the metal put into the paint throwing cavity 12, specifically, opening the opening and closing door 20 to put the metal soaked with the paint into the paint throwing cavity 12 and support, starting the motor 13 to drive the motor shaft 14 to rotate, driving the rotating frame 15 to rotate through the rotation of the motor shaft 14, driving the gear shaft 23 to rotate through the meshing transmission of the power gear 22 and the gear ring 16, driving the screw rod 18 to rotate through the rotation of the gear shaft 23 and the meshing transmission of the bevel gear pair 42, driving the connecting blocks 19 at the two sides to approach each other through the threaded connection between the screw rod 18 and the connecting blocks 19 at the two sides through the rotation of the screw rod 18, driving the erasing boxes 27 at the two sides to approach each other through the mutual approach of the connecting blocks 19 at the two sides, thereby driving the clamping blocks 34 at the two sides to approach each other and clamping the workpiece placed in the paint throwing cavity 12, after clamping the workpiece, turning off the motor 13, then turning off the opening and closing door 20 and starting the annular electromagnet 26 to adsorb the magnetic ring 24, thereby driving the power gear 22 to overcome the thrust of the spring 25 and move downwards, thereby driving the gear ring 16 to be disengaged from the power gear 22. Wherein the primary spin-drying stage comprises: the motor 13 is started again, the clamping blocks 34 on the two sides and the metal are driven to rotate rapidly through the motor shaft 14, so that excessive paint attached to the metal surface can be thrown away rapidly, the thickness of the paint on the metal surface is reduced and more uniform, and the motor 13 is started for a preset time and then stops. Wherein the secondary clamping stage comprises: the clamped end faces of the metal are clamped by the meshing transmission of the motor and the power gear 22 with the gear ring 16 so as to expose the clamped end faces, because the paint on the clamped end faces of the two sides of the metal is not processed, specifically, the opening and closing door 20 is opened to support the workpiece, the annular electromagnet 26 is powered off, so that the power gear 22 and the gear ring 16 are meshed again, at this time, the motor shaft 14 is driven by the meshing of the power gear 22 and the gear ring 16 and the starting motor 13 to rotate reversely, so that the metal is loosened, then the motor 13 is closed, after the workpiece rotates in one direction so that the two end faces of the workpiece after being dried face to the clamping block 34 respectively, the clamping motors 28 on the two sides are started so as to drive the clamping block shafts 35 on the two sides to rotate by one hundred and eighty degrees, so that the end faces of the clamping block 34 which are not clamped are overturned, and then the motor shaft 14 is driven by the starting motor 13 to rotate forwardly so as to clamp the two end faces of the workpiece after being dried, then the opening and closing door 20 is closed and the ring electromagnet 26 is closed so that the ring gear 16 is disengaged from the power gear 22. Wherein the secondary spin-drying stage comprises: the motor 13 is started again to drive the metal to rotate, so that the residual paint is thrown away, at the stage, the end faces of the two sides of the clamped workpiece are stained with the paint and are tightly attached to the two side erasing wheels 30, at the moment, the screw motor 41 is started to drive the reciprocating screw 38 to rotate, the reciprocating movable block 37 is driven to do reciprocating motion in the horizontal direction through the rotation of the reciprocating screw 38 and the threaded connection between the reciprocating screw 38 and the reciprocating movable block 37, so that the erasing shaft 31 is driven to do reciprocating motion in the erasing box cavity 29, at the moment, the erasing wheels 30 are driven to do reciprocating motion and rotate through the meshing transmission between the rotating gear 39 and the rack 40, so that the end faces clamped by the clamping blocks 34 are cleaned, and after the erasing wheels 30 do reciprocating motion for a preset number of times or a preset time, the screw motor 41 is automatically turned off.

In conclusion, the metal soaked with the paint is clamped and then rapidly rotated, so that the paint excessively adhered to the metal surface can be rapidly thrown away, the paint thickness on the metal surface is thinned and more uniform, the clamping device is particularly suitable for metals with irregular shapes, the paint coating efficiency and effect on the metal surface are improved, the end face, on one side, of the clamping block, stained with the paint can be timely cleaned, the paint on the metal clamping face can be treated by replacing the metal clamping face, and the paint can be thrown away more comprehensively.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A method of applying paint to a metal surface, comprising the steps of:

a spin-drying process: placing the painted metal in a paint throwing box to quickly throw off excessive paint on the painted metal, specifically, clamping the painted metal and then quickly rotating the painted metal so as to quickly throw off the excessive paint attached to the surface of the metal; the spin-drying procedure comprises a primary clamping stage, a primary spin-drying stage, a secondary clamping stage and a secondary spin-drying stage; the primary clamping stage comprises: starting a motor and utilizing the meshing transmission of a power gear and a gear ring so as to drive the clamping blocks at the two sides to mutually approach and clamp the metal placed in the paint throwing cavity; the primary spin-drying stage comprises: the motor is started again, the clamping blocks on the two sides and the metal are driven to rotate rapidly through the motor shaft, so that excessive paint attached to the surface of the metal can be quickly thrown away, and the motor is stopped after being started for a preset time; the secondary clamping stage comprises: clamping the unclamped end face of the metal to expose the clamped end face through the meshing transmission of the motor and the power gear with the gear ring; the secondary spin-drying stage comprises: the motor is started again to drive the metal to rotate, so that the residual paint is thrown off; the secondary spin-drying stage also comprises: the screw motor is started to drive the reciprocating screw to rotate, the reciprocating movable block is driven to do reciprocating motion in the horizontal direction through threaded connection between the reciprocating screw and the reciprocating movable block through rotation of the reciprocating screw, so that the erasing shaft is driven to do reciprocating motion in the erasing box cavity, and at the moment, the erasing wheel is driven to do reciprocating motion and rotate through meshing transmission between the rotating gear and the rack, so that the end face clamped by the clamping block is cleaned; wherein, once centre gripping stage specifically includes: putting the metal soaked with the paint into a paint throwing cavity and carrying the metal, starting a motor to drive a motor shaft to rotate, driving a rotating frame to rotate through the rotation of the motor shaft, driving a gear shaft to rotate through the meshing transmission of a power gear and a gear ring, driving a screw to rotate through the rotation of the gear shaft and the meshing transmission of a bevel gear pair, driving connecting blocks at two sides to be close to each other through the threaded connection between the screw and the connecting blocks at two sides through the rotation of the screw, driving erasing boxes at two sides to be close to each other through the mutual approaching of the connecting blocks at two sides, and driving clamping blocks at two sides to be close to each other and clamping the metal put into the paint throwing cavity; the bottom end of the connecting block at two sides is fixedly provided with an erasing box, the erasing box at two sides is internally provided with a through erasing box cavity, a clamping block shaft is rotatably arranged between the upper wall and the lower wall of the erasing box cavity, the outer circular surface of the clamping block shaft at two sides is fixedly connected with a clamping block, the upper wall of the erasing box cavity at two sides is fixedly provided with a clamping motor, the lower end surface of the clamping motor at two sides is in power connection with the top end of the clamping block shaft, metal to be clamped can be clamped by the mutual approach of the clamping blocks at two sides, the upper wall of the erasing box cavity at two sides is communicated with a rack cavity positioned at one side of the clamping block, the lower wall of the erasing box cavity at two sides is communicated with a sliding cavity corresponding to the rack cavity, an erasing device capable of erasing one end surface of the clamping block is arranged between the rack cavity and the sliding cavity, the erasing device comprises a screw motor fixedly connected with one side wall of the rack cavity, a reciprocating screw is rotatably arranged between the rack cavities, one end of the reciprocating screw is in power connection with one side end surface of the screw motor, the outer disc of reciprocating screw rod threaded connection has the reciprocating motion piece, reciprocating motion piece bottom rotates to be connected with the axle of erasing that extends downwards to the slip intracavity, and the slip intracavity sliding connection has the sliding block, erases rotating between axle bottom and the sliding block top and is connected, erases the axle and is located to erase the outer disc fixedly connected with of one side of box intracavity and erases the wheel, erases the axle and is located the outer disc fixedly connected with rotating gear of one side of rack intracavity, and a lateral wall in rack chamber is fixed be equipped with rotating gear meshing driven rack.

2. The method of claim 1, wherein after the metal is clamped in the primary clamping stage, the motor is turned off and the ring-shaped electromagnet is activated to attract the magnetic ring so that the gear ring is disengaged from the power gear, and the primary clamping stage is completed.

3. A method of applying paint to a metal surface according to claim 2, wherein the secondary clamping stage further comprises: the workpiece is supported, the annular electromagnet is powered off, the power gear and the gear ring are enabled to be meshed again, the power gear and the gear ring are meshed again, the motor shaft is driven by the starting motor to rotate reversely, so that metal is loosened, then the motor is turned off, after the workpiece rotates in one direction, two end faces of the workpiece are made to rotate in the spin-drying direction and face towards the clamping blocks respectively, the two side clamping motors are started, so that the two side clamping block shafts are driven to rotate one hundred and eighty degrees, the end faces of the two sides of the clamping blocks, which are not clamped, are turned over, then the motor is turned off after the two end faces of the workpiece are made to rotate in the spin-drying direction and are clamped again, and then the annular electromagnet is turned off, so that the gear ring is disengaged from the power gear.