CN114260124A - Coating device for water pump production line and coating method thereof - Google Patents
Coating device for water pump production line and coating method thereof Download PDFInfo
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- CN114260124A CN114260124A CN202210039299.6A CN202210039299A CN114260124A CN 114260124 A CN114260124 A CN 114260124A CN 202210039299 A CN202210039299 A CN 202210039299A CN 114260124 A CN114260124 A CN 114260124A
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Abstract
The invention discloses a coating device for a water pump production line, which comprises a base, wherein a first bidirectional screw and a second bidirectional screw are respectively and rotatably connected in a first upright post and a second upright post, the first bidirectional screw and the second bidirectional screw are respectively and threadedly connected with a sliding block, sliding chutes for the sliding of the sliding blocks are respectively arranged on the first upright post and the second upright post, a spraying mechanism is arranged on the sliding block, a support is arranged on the base, a rotating column is arranged on the support, a hoisting piece is arranged at the bottom of the rotating column, nozzles of the spraying mechanisms on the two sliding blocks are oppositely arranged, the hoisting piece at the bottom of the rotating column is positioned between the two nozzles, and the coating device also comprises a driving part for driving the first bidirectional screw and the second bidirectional screw to rotate; according to the invention, the workpiece is hoisted at the hollow position of the support by the hoisting piece, then the two atomizing nozzles are controlled to spray vertically and alternately on two sides of the workpiece, and the rotating column is driven to perform circumferential operation and dry the surface, so that the uniformity of spraying on the surface of the part can be improved, and the phenomenon of pothole can be reduced.
Description
Technical Field
The invention relates to the technical field of water pumps, in particular to a coating device for a water pump production line and a coating method thereof.
Background
The automobile water pump is arranged in a cylinder body of an automobile engine, a plurality of water channels for cooling water circulation are formed in the automobile water pump and are connected with a radiator arranged in the front of an automobile through water pipes to form a large water circulation system, and in order to improve the safety use performance of the automobile water pump, the automobile water pump is generally subjected to spraying treatment so as to improve the use energy efficiency of the automobile water pump.
The existing water pump spraying device mostly prevents water pump parts on a workbench, then a worker uses a spray gun to spray the surfaces of the parts, however, the spraying mode needs to rotate a workpiece for many times or manually move an apparatus to the other side of the parts for spraying, and the surface of the water pump parts is easy to be sprayed unevenly due to the fact that the spray gun is held by hand, so that the defects are overcome by the aid of the coating device for the water pump production line and the coating method of the coating device.
Disclosure of Invention
The invention aims to solve the problems of complexity in the existing manual spraying process and uneven spraying, and provides a coating device for a water pump production line.
In order to achieve the purpose, the invention adopts the following technical scheme:
the utility model provides a water pump is coating device for production line, includes the base, install first stand and second stand on the base, it is connected with first bidirectional screw and the bidirectional screw of second to rotate respectively in first stand and the second stand, equal threaded connection has the slider on first bidirectional screw and the bidirectional screw of second, all be equipped with the confession on first stand and the second stand the gliding spout of slider, be equipped with spraying mechanism on the slider, install the support on the base, install the column spinner on the support, the column spinner bottom is equipped with hoist and mount piece, two spraying mechanism's on the slider nozzle sets up relatively, just the hoist and mount piece of column spinner bottom is located between two nozzles, coating device is still including being used for the drive the rotatory drive division of first bidirectional screw and the bidirectional screw of second.
Preferably, the driving part comprises a driving source installed at the top of the first and second columns, and the output end of the driving part is fixedly connected with the first and second bidirectional screws.
Preferably, the top wall of the support is rotatably connected with a first driving gear, the top of the rotating column is fixedly connected with a first driven gear meshed with the first driving gear, the diameter of the first driven gear is twice that of the first driving gear, and the top wall of the support further comprises a driving part for driving the first driving gear to rotate.
Preferably, the box is all installed at the top of first stand and second stand, be connected with first band pulley group on the first bidirectional screw in the box at first stand top, the support top rotates and is connected with first pivot, first driving gear fixed connection be in the first pivot, install the second band pulley group in the first pivot, first band pulley group with through belt transmission between the second band pulley group.
Preferably, the top of the bracket is rotatably connected with a second rotating shaft, the top of the second rotating shaft is fixedly connected with a second driving gear, the top of the bracket is rotatably connected with a shaft sleeve through a bearing, the rotating column is rotatably connected in the shaft sleeve through a bearing, the outer wall of the shaft sleeve is connected with a second driven gear meshed with the second driving gear, the drying mechanism further comprises a driving part for driving the second driving gear to rotate, and the bottom of the shaft sleeve is connected with a drying mechanism.
Preferably, a third pulley group is fixedly connected to the second bidirectional screw, a fourth pulley group is connected to the second rotating shaft, and the third pulley group and the fourth pulley group are connected through a belt.
Preferably, a fifth belt pulley group is connected to the first bidirectional screw, a sixth belt pulley group is connected to the second bidirectional screw, and a belt is sleeved between the fifth belt pulley group and the sixth belt pulley group.
Preferably, the spraying mechanism is including installing one or more spraying liquid tanks on the base, the lateral wall of spraying liquid tank has feed inlet and bin outlet, be connected with atomizer on the slider, the pump body is installed at the top of spraying liquid tank, the input of the pump body pass through the extension pipe with the spraying liquid tank is connected, the import of extension pipe is close to the bottom surface of spraying liquid tank, the output of the pump body with atomizer intercommunication.
Preferably, the motion tracks of the two sliders are staggered up and down.
A spraying method of a coating device for a water pump production line comprises the following steps: firstly, hoisting one or more water pump parts at the hollow position of the bracket through a hoisting piece; then, the driving part drives the first bidirectional screw and the second bidirectional screw to synchronously run, the first bidirectional screw and the second bidirectional screw respectively drive the sliding block and the atomizing nozzles on the sliding block to spray parts, and the motion tracks of the two atomizing nozzles are in up-and-down staggered motion; make the column spinner make rotary motion drive water pump part and do the circumference rotation when the spraying, change the contact surface with atomizer, dry the water pump part surface through drying mechanism simultaneously.
Compared with the prior art, the invention provides a coating device for a water pump production line, which has the following beneficial effects:
according to the invention, the workpiece is hoisted at the hollow position of the support by the hoisting piece, then the two atomizing nozzles are controlled to spray vertically and alternately on two sides of the workpiece, and the rotating column is driven to perform circumferential operation and dry the surface, so that the uniformity of spraying on the surface of the part can be improved, and the phenomenon of pothole can be reduced.
Drawings
FIG. 1 is a schematic structural diagram of a coating device for a water pump production line according to the present invention;
FIG. 2 is a schematic view of a part of the structure of a coating device for a water pump production line according to the present invention;
FIG. 3 is a schematic structural view of a portion A of FIG. 1 of a coating apparatus for a water pump production line according to the present invention;
FIG. 4 is a schematic structural view of a portion B of a coating apparatus for a water pump production line according to the present invention;
fig. 5 is a schematic structural diagram of a part C in fig. 2 of a coating device for a water pump production line according to the present invention.
In the figure: 1. a base; 101. a support; 2. a first upright post; 201. a drive source; 203. a first bidirectional screw; 204. a chute; 205. a slider; 206. an atomizing spray head; 207. a box body; 208. A fifth pulley set; 209. a first pulley set; 210. a second pulley set; 3. a second upright post; 301. a second bidirectional screw; 302. a sixth pulley set; 303. a third pulley set; 304. a fourth pulley set; 4. a spraying liquid tank; 401. a feed inlet; 402. a discharge outlet; 403. an extension pipe; 404. a pump body; 5. a second rotating shaft; 501. a second driving gear; 502. a shaft sleeve; 503. a spin column; 504. a first driven gear; 505. a first rotating shaft; 506. a first drive gear; 507. And a drying mechanism.
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.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
Referring to fig. 1-5, a coating device for a water pump production line comprises a base 1, a first upright 2 and a second upright 3 are mounted on the base 1, a first bidirectional screw 203 and a second bidirectional screw 301 are respectively connected in the first upright 2 and the second upright 3 in a rotating manner, a sliding block 205 is respectively connected on the first bidirectional screw 203 and the second bidirectional screw 301 in a threaded manner, sliding grooves 204 for the sliding block 205 to slide are respectively arranged on the first upright 2 and the second upright 3, a spraying mechanism is arranged on the sliding block 205, a support 101 is mounted on the base 1, a rotating column 503 is mounted on the support 101, a hoisting part is arranged at the bottom of the rotating column 503, nozzles of the spraying mechanisms on the two sliding blocks 205 are oppositely arranged, the hoisting piece at the bottom of the rotating column 503 is positioned between the two nozzles, the coating device further comprises a driving part for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, and one or more water pump parts are hoisted at the hollow position of the support 101 through the hoisting piece; then, the driving part drives the first bidirectional screw 203 and the second bidirectional screw 301 to synchronously run, the sliding block 205 and the atomizing nozzles 206 on the sliding block 205 are respectively driven to spray parts, and the motion tracks of the two atomizing nozzles 206 are in up-and-down staggered motion; when spraying, the rotating column 503 rotates to drive the water pump part to rotate circumferentially, so as to change the contact surface with the atomizing nozzle 206, and the surface of the water pump part is dried by the drying mechanism 507.
Referring to fig. 1-5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, a first bidirectional screw 203 and a second bidirectional screw 301 are respectively rotatably connected in the first upright 2 and the second upright 3, a slider 205 is respectively connected on the first bidirectional screw 203 and the second bidirectional screw 301 in a threaded manner, a sliding slot 204 for the slider 205 to slide is respectively installed on the first upright 2 and the second upright 3, a spraying mechanism is installed on the slider 205, a bracket 101 is installed on the base 1, a rotary column 503 is installed on the bracket 101, a hanging piece is installed at the bottom of the rotary column 503, nozzles of the spraying mechanisms on the two sliders 205 are oppositely arranged, and the hanging piece at the bottom of the rotary column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, the driving part comprises a driving source 201 installed on the top of the first upright 2 and the second upright 3, the output end of the driving part is fixedly connected with the first bidirectional screw 203 and the second bidirectional screw 301, the driving source 201 can be composed of a motor, a reducer and other components, and other driving sources 201 capable of driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate can be applied to the invention.
Referring to fig. 1-5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, a first bidirectional screw 203 and a second bidirectional screw 301 are respectively rotatably connected in the first upright 2 and the second upright 3, a slider 205 is respectively connected on the first bidirectional screw 203 and the second bidirectional screw 301 in a threaded manner, a sliding slot 204 for the slider 205 to slide is respectively installed on the first upright 2 and the second upright 3, a spraying mechanism is installed on the slider 205, a bracket 101 is installed on the base 1, a rotary column 503 is installed on the bracket 101, a hanging piece is installed at the bottom of the rotary column 503, nozzles of the spraying mechanisms on the two sliders 205 are oppositely arranged, and the hanging piece at the bottom of the rotary column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, the top wall of the support 101 is rotatably connected with a first driving gear 506, the top of the rotary column 503 is fixedly connected with a first driven gear 504 meshed with the first driving gear 506, the diameter of the first driven gear 504 is twice the diameter of the first driving gear 506, the rotary column further comprises a driving part used for driving the first driving gear 506 to rotate, the first driving gear 506 is additionally arranged on the support 101, the diameter of the first driven gear 504 is twice the diameter of the first driving gear 506, therefore, the speed reduction effect is achieved, the water pump part is driven by the rotary column 503 to rotate slowly, and the surface spraying is more uniform.
Optionally, referring to fig. 1-5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, a first bidirectional screw 203 and a second bidirectional screw 301 are respectively rotatably connected in the first upright 2 and the second upright 3, a sliding block 205 is respectively connected on the first bidirectional screw 203 and the second bidirectional screw 301 in a threaded manner, sliding grooves 204 for the sliding block 205 to slide are respectively arranged on the first upright 2 and the second upright 3, a spraying mechanism is arranged on the sliding block 205, a support 101 is installed on the base 1, a rotating column 503 is installed on the support 101, a hanging piece is arranged at the bottom of the rotating column 503, nozzles of the spraying mechanisms on the two sliding blocks 205 are oppositely arranged, and the hanging piece at the bottom of the rotating column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, in this embodiment, the top of the first upright 2 and the second upright 3 are both provided with a box 207, the first bidirectional screw 203 in the box 207 at the top of the first upright 2 is connected with a first pulley set 209, the top of the bracket 101 is rotatably connected with a first rotating shaft 505, the first driving gear 506 is fixedly connected to the first rotating shaft 505, the first rotating shaft 505 is provided with a second pulley set 210, the first pulley set 209 and the second pulley set 210 are driven by a belt, since the diameter of the first driven gear 504 is twice the diameter of the first driving gear 506, while the first bidirectional screw 203 rotates, the second pulley set 210 is driven to rotate by the first pulley set 209, so that the first rotating shaft 505 keeps rotating at the same speed with the first bidirectional screw 203, then, the first driving gear 506 and the first driven gear 504 are matched with each other to realize speed reduction, and kinetic energy is transferred to the rotary column 503 to drive the workpiece to rotate.
Referring to fig. 1-5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, a first bidirectional screw 203 and a second bidirectional screw 301 are respectively rotatably connected in the first upright 2 and the second upright 3, a slider 205 is respectively connected on the first bidirectional screw 203 and the second bidirectional screw 301 in a threaded manner, a sliding slot 204 for the slider 205 to slide is respectively installed on the first upright 2 and the second upright 3, a spraying mechanism is installed on the slider 205, a bracket 101 is installed on the base 1, a rotary column 503 is installed on the bracket 101, a hanging piece is installed at the bottom of the rotary column 503, nozzles of the spraying mechanisms on the two sliders 205 are oppositely arranged, and the hanging piece at the bottom of the rotary column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, the top of the bracket 101 is rotatably connected with a second rotating shaft 5, the top of the second rotating shaft 5 is fixedly connected with a second driving gear 501, the top of the bracket 101 is rotatably connected with a shaft sleeve 502 through a bearing, a rotary column 503 is rotatably connected in the shaft sleeve 502 through a bearing, the outer wall of the shaft sleeve 502 is connected with a second driven gear meshed with the second driving gear 501, the drying device is further provided with a driving part for driving the second driving gear 501 to rotate, the bottom of the shaft sleeve 502 is connected with a drying mechanism 507, the fourth pulley set 304 is driven to rotate through the third pulley set 303 while the second bidirectional screw 301 rotates, so that the second rotating shaft 5 rotates, the second driven gear is driven to rotate through the second driving gear 501, the shaft sleeve 502 is driven to rotate, the drying mechanism 507 at the bottom is rotated to uniformly dry the workpiece, it should be pointed out that the drying mechanism 507 may include an air nozzle installed at the bottom of the shaft sleeve 502, the sleeve 502 is communicated with the air delivery pipe through the existing rotary joint.
Optionally, referring to fig. 1-5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, a first bidirectional screw 203 and a second bidirectional screw 301 are respectively rotatably connected in the first upright 2 and the second upright 3, a sliding block 205 is respectively connected on the first bidirectional screw 203 and the second bidirectional screw 301 in a threaded manner, sliding grooves 204 for the sliding block 205 to slide are respectively arranged on the first upright 2 and the second upright 3, a spraying mechanism is arranged on the sliding block 205, a support 101 is installed on the base 1, a rotating column 503 is installed on the support 101, a hanging piece is arranged at the bottom of the rotating column 503, nozzles of the spraying mechanisms on the two sliding blocks 205 are oppositely arranged, and the hanging piece at the bottom of the rotating column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, in this embodiment, the second bidirectional screw 301 is fixedly connected with a third pulley set 303, the second rotating shaft 5 is connected with a fourth pulley set 304, and the third pulley set 303 and the fourth pulley set 304 are connected through a belt.
Optionally, referring to fig. 1 to 5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, the first upright 2 and the second upright 3 are respectively connected with a first bidirectional screw 203 and a second bidirectional screw 301 in a rotating manner, the first bidirectional screw 203 and the second bidirectional screw 301 are both connected with a sliding block 205 in a threaded manner, the first upright 2 and the second upright 3 are both provided with a sliding slot 204 for the sliding block 205 to slide, the sliding block 205 is provided with a spraying mechanism, the base 1 is provided with a support 101, the support 101 is provided with a rotating column 503, the bottom of the rotating column 503 is provided with a hoisting member, nozzles of the spraying mechanisms on the two sliding blocks 205 are arranged oppositely, and the hoisting member at the bottom of the rotating column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, in this embodiment, the first bidirectional screw 203 is connected to the fifth pulley set 208, the second bidirectional screw 301 is connected to the sixth pulley set 302, and a belt is sleeved between the fifth pulley set 208 and the sixth pulley set 302, so that one driving source 201 or two driving sources 201 can be selectively used and used synchronously.
Optionally, referring to fig. 1 to 5, a coating apparatus for a water pump production line includes a base 1, a first upright 2 and a second upright 3 are installed on the base 1, the first upright 2 and the second upright 3 are respectively connected with a first bidirectional screw 203 and a second bidirectional screw 301 in a rotating manner, the first bidirectional screw 203 and the second bidirectional screw 301 are both connected with a sliding block 205 in a threaded manner, the first upright 2 and the second upright 3 are both provided with a sliding slot 204 for the sliding block 205 to slide, the sliding block 205 is provided with a spraying mechanism, the base 1 is provided with a support 101, the support 101 is provided with a rotating column 503, the bottom of the rotating column 503 is provided with a hoisting member, nozzles of the spraying mechanisms on the two sliding blocks 205 are arranged oppositely, and the hoisting member at the bottom of the rotating column 503 is located between the two nozzles, the coating apparatus further includes a driving portion for driving the first bidirectional screw 203 and the second bidirectional screw 301 to rotate, in this embodiment, the spraying mechanism includes one or more spraying liquid tanks 4 installed on the base 1, the side wall of the spraying liquid tank 4 has a feed inlet 401 and a discharge outlet 402, the slider 205 is connected with the atomizer 206, the top of the spraying liquid tank 4 is installed with a pump body 404, the input end of the pump body 404 is connected with the spraying liquid tank 4 through an extension pipe 403, the inlet of the extension pipe 403 is close to the bottom surface of the spraying liquid tank 4, the output end of the pump body 404 is communicated with the atomizer 206, and the motion tracks of the two sliders 205 are in staggered up-and-down motion.
When the water pump is used, one or more water pump parts are hoisted at the hollow position of the bracket 101 through the hoisting piece; then, the driving part drives the first bidirectional screw 203 and the second bidirectional screw 301 to synchronously run, the sliding block 205 and the atomizing nozzles 206 on the sliding block 205 are respectively driven to spray parts, and the motion tracks of the two atomizing nozzles 206 are in up-and-down staggered motion; the rotary column 503 is rotated to drive the water pump part to rotate circularly while spraying, the contact surface with the atomizing nozzle 206 is changed, meanwhile, the surface of the water pump part is dried by the drying mechanism 507, the first driving gear 506 is added on the bracket 101, and the diameter of the first driven gear 504 is twice of the diameter of the first driving gear 506, so that the speed reduction effect is realized, the water pump part is driven by the rotary column 503 to rotate slowly, the surface spraying is more uniform, because the diameter of the first driven gear 504 is twice of the diameter of the first driving gear 506, when the first bidirectional screw 203 rotates, the first pulley set 209 drives the second pulley set 210 to rotate, further the first rotating shaft 505 is kept rotating with the first bidirectional screw 203 at a constant speed, and then the first driving gear 506 and the first driven gear 504 are matched to realize speed reduction to transmit kinetic energy to the rotary column 503 to drive the workpiece to rotate, the second bidirectional screw 301 rotates and simultaneously drives the fourth pulley set 304 to rotate through the third pulley set 303, so that the second rotating shaft 5 rotates, the second driving gear 501 drives the second driven gear to rotate, the shaft sleeve 502 is driven to rotate, and the drying mechanism 507 at the bottom rotates to uniformly dry the workpiece.
According to the invention, the workpiece is hoisted in the hollow position of the bracket 101 by the hoisting piece, then the two atomizing nozzles 206 are controlled to spray vertically and alternately on two sides of the workpiece, and the rotating column 503 is driven to perform circumferential operation and dry the surface, so that the uniformity of spraying on the surface of the workpiece can be improved, and the phenomenon of pothole can be reduced.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.
Claims (10)
1. The coating device for the water pump production line is characterized by comprising a base (1), wherein a first upright post (2) and a second upright post (3) are mounted on the base (1), a first bidirectional screw (203) and a second bidirectional screw (301) are respectively connected in the first upright post (2) and the second upright post (3) in a rotating manner, a sliding block (205) is in threaded connection with each of the first bidirectional screw (203) and the second bidirectional screw (301), sliding grooves (204) for the sliding of the sliding block (205) are formed in the first upright post (2) and the second upright post (3), a spraying mechanism is arranged on the sliding block (205), a support (101) is mounted on the base (1), a rotating column (503) is mounted on the support (101), a hoisting piece is arranged at the bottom of the rotating column (503), and two nozzles of the spraying mechanism on the sliding block (205) are oppositely arranged, and the hoisting piece at the bottom of the rotating column (503) is positioned between the two nozzles, and the coating device further comprises a driving part for driving the first bidirectional screw (203) and the second bidirectional screw (301) to rotate.
2. The coating device for the water pump production line as recited in claim 1, wherein the driving part comprises a driving source (201) installed on the top of the first upright (2) and the second upright (3), and the output end of the driving part is fixedly connected with the first bidirectional screw (203) and the second bidirectional screw (301).
3. The coating device for the water pump production line as claimed in claim 2, wherein a first driving gear (506) is rotatably connected to the top wall of the bracket (101), a first driven gear (504) engaged with the first driving gear (506) is fixedly connected to the top of the rotating column (503), the diameter of the first driven gear (504) is twice as large as that of the first driving gear (506), and the coating device further comprises a driving part for driving the first driving gear (506) to rotate.
4. The coating device for the water pump production line according to claim 3, wherein the top of each of the first upright (2) and the second upright (3) is provided with a box (207), a first pulley group (209) is connected to a first bidirectional screw (203) in the box (207) at the top of the first upright (2), the top of the bracket (101) is rotatably connected with a first rotating shaft (505), the first driving gear (506) is fixedly connected to the first rotating shaft (505), the first rotating shaft (505) is provided with a second pulley group (210), and the first pulley group (209) and the second pulley group (210) are in belt transmission.
5. The coating device for the water pump production line as recited in claim 4, wherein a second rotating shaft (5) is rotatably connected to the top of the support (101), a second driving gear (501) is fixedly connected to the top of the second rotating shaft (5), a shaft sleeve (502) is rotatably connected to the top of the support (101) through a bearing, the rotating column (503) is rotatably connected to the inside of the shaft sleeve (502) through a bearing, a second driven gear meshed with the second driving gear (501) is connected to the outer wall of the shaft sleeve (502), the coating device further comprises a driving portion for driving the second driving gear (501) to rotate, and a drying mechanism (507) is connected to the bottom of the shaft sleeve (502).
6. The coating device for the water pump production line as claimed in claim 5, wherein a third pulley set (303) is fixedly connected to the second bidirectional screw (301), a fourth pulley set (304) is connected to the second rotating shaft (5), and the third pulley set (303) and the fourth pulley set (304) are connected through a belt.
7. The coating device for the water pump production line as claimed in any one of claims 4 to 6, wherein a fifth pulley set (208) is connected to the first bidirectional screw (203), a sixth pulley set (302) is connected to the second bidirectional screw (301), and a belt is sleeved between the fifth pulley set (208) and the sixth pulley set (302).
8. The coating device for the water pump production line is characterized in that the coating mechanism comprises one or more coating liquid tanks (4) mounted on a base (1), the side walls of the coating liquid tanks (4) are provided with a feed inlet (401) and a discharge outlet (402), atomizing nozzles (206) are connected onto a sliding block (205), a pump body (404) is mounted at the top of each coating liquid tank (4), the input end of the pump body (404) is connected with each coating liquid tank (4) through an extension pipe (403), the inlet of each extension pipe (403) is close to the bottom surface of each coating liquid tank (4), and the output end of each pump body (404) is communicated with each atomizing nozzle (206).
9. The coating device for the water pump production line as recited in claim 8, wherein the motion tracks of the two sliding blocks (205) are staggered up and down.
10. A coating method of a coating device for a water pump production line is characterized by comprising the following steps:
s1: firstly, hoisting one or more water pump parts at the hollow position of a bracket (101) through a hoisting piece;
s2: then, the driving part drives the first bidirectional screw (203) and the second bidirectional screw (301) to synchronously run, the sliding block (205) and the atomizing nozzles (206) on the sliding block (205) are respectively driven to spray parts, and the motion tracks of the two atomizing nozzles (206) are in up-and-down staggered motion;
s3: the rotary column (503) rotates to drive the water pump part to rotate circularly during spraying, the contact surface with the atomizing nozzle (206) is changed, and meanwhile, the surface of the water pump part is dried through the drying mechanism (507).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
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| CN202210039299.6A CN114260124A (en) | 2022-01-13 | 2022-01-13 | Coating device for water pump production line and coating method thereof |
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| CN202210039299.6A CN114260124A (en) | 2022-01-13 | 2022-01-13 | Coating device for water pump production line and coating method thereof |
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| CN112246488A (en) * | 2020-10-27 | 2021-01-22 | 嘉兴学院 | Spraying and painting device for machining automobile interior decoration parts |
| CN113318884A (en) * | 2021-06-04 | 2021-08-31 | 广西科林伟业科技有限公司 | Industrial robot paint spraying apparatus for research and development |
| CN214600004U (en) * | 2020-12-10 | 2021-11-05 | 青岛奥晶工贸有限公司 | Powder coating spraying and drying device |
-
2022
- 2022-01-13 CN CN202210039299.6A patent/CN114260124A/en not_active Withdrawn
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB1390441A (en) * | 1971-05-10 | 1975-04-09 | Ransburg Corp | Coating of articles |
| CN107899810A (en) * | 2017-11-26 | 2018-04-13 | 林安益 | A kind of rotary type timber frame paint spraying apparatus |
| CN110420788A (en) * | 2019-09-12 | 2019-11-08 | 临朐浩伟电子设备有限公司 | A kind of radiator spray-painting production line |
| CN211070585U (en) * | 2019-11-22 | 2020-07-24 | 马晓明 | Hydraulic support surface spraying device |
| CN211563434U (en) * | 2019-12-11 | 2020-09-25 | 湖北信易达自动化设备有限公司 | Spraying device is used in automobile parts processing |
| CN112170083A (en) * | 2020-10-19 | 2021-01-05 | 张远珍 | Paint spraying device for furniture board |
| CN112246488A (en) * | 2020-10-27 | 2021-01-22 | 嘉兴学院 | Spraying and painting device for machining automobile interior decoration parts |
| CN214600004U (en) * | 2020-12-10 | 2021-11-05 | 青岛奥晶工贸有限公司 | Powder coating spraying and drying device |
| CN113318884A (en) * | 2021-06-04 | 2021-08-31 | 广西科林伟业科技有限公司 | Industrial robot paint spraying apparatus for research and development |
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Application publication date: 20220401 |