CN220532051U

CN220532051U - Workpiece paint dipping device

Info

Publication number: CN220532051U
Application number: CN202322092788.0U
Authority: CN
Inventors: 肖建国; 方增; 许志华
Original assignee: China Railway No 2 Engineering Group Co Ltd; Xinyun Emgineering Co Ltd of China Railway No 2 Engineering Group Co Ltd
Current assignee: China Railway No 2 Engineering Group Co Ltd; Xinyun Emgineering Co Ltd of China Railway No 2 Engineering Group Co Ltd
Priority date: 2023-08-04
Filing date: 2023-08-04
Publication date: 2024-02-27
Anticipated expiration: 2033-08-04

Abstract

The utility model discloses a workpiece paint dipping device, which comprises a paint dipping groove, an entering guide chute, an exiting guide chute, an entering guide mechanism and a paint control mechanism, wherein the entering guide mechanism is arranged on the upper surface of the workpiece; the entering guide chute and the leaving guide chute are respectively communicated with a workpiece entering side and a workpiece leaving side of the paint dipping groove. The workpiece paint dipping device can facilitate the whole dipping of the workpiece by utilizing the paint dipping groove, so that all corners of the surface of the workpiece can be fully covered with paint, and the coating quality of the workpiece is ensured; the workpiece can be guided and limited by the entering guide mechanism, so that the workpiece is stably conveyed into the entering guide chute; the paint control mechanism is utilized to control paint vibration on the workpiece which leaves the guide chute, so that the redundant paint on the surface of the workpiece falls back into the exit guide chute and then flows back into the paint dipping tank to realize recycling.

Description

Workpiece paint dipping device

Technical Field

The utility model relates to coating equipment, in particular to a workpiece paint dipping device.

Background

In the coating process of a workpiece with a complex structure, the existing spraying equipment is fixed-angle spraying, and after spraying, the fact that some angle positions on the workpiece are difficult to spray in place is found, and a large amount of manual paint repair operation is needed. Therefore, it is necessary to design a workpiece paint dipping device, which can facilitate the realization of the sinking paint dipping of the workpiece, thereby ensuring that the surfaces of all angles of the workpiece can obtain good coating effects.

Disclosure of Invention

The utility model aims to: the workpiece paint dipping device is convenient to achieve sinking paint dipping of the workpiece, and therefore good coating effects can be obtained on all angle surfaces of the workpiece.

The technical scheme is as follows: the workpiece paint dipping device comprises a paint dipping groove, an entering guide chute, an exiting guide chute, an entering guide mechanism and a paint control mechanism; the entering guide chute and the leaving guide chute are respectively communicated with a workpiece entering side and a workpiece leaving side of the paint dipping tank, and the notches of the entering guide chute, the paint dipping tank and the leaving guide chute are upward; the entering guide mechanism is arranged above the entering guide chute and used for guiding and limiting the workpiece, so that the workpiece is stably conveyed into the entering guide chute; the paint control mechanism is arranged in the leaving guide chute and is used for vibrating and controlling paint on the workpiece passing through the leaving guide chute, so that the excessive paint on the surface of the workpiece falls back into the leaving guide chute and then flows back into the paint dipping tank.

Further, the entry guide mechanism comprises two guide sub-brackets; the guide branch frame comprises a height adjusting pipe, an L-shaped support rod, an entering guide rod, two interval adjusting screws and two vertical support rods; the two height adjusting pipes of the two guide sub-brackets are vertically arranged on the paint dipping groove and are respectively positioned at the front side and the rear side of the guide chute; one end of the L-shaped bracket rod is inserted into the height adjusting pipe and is locked and positioned through the height locking bolt; the two interval adjusting screws are horizontally and penetratingly arranged on the horizontal rod of the L-shaped bracket rod and clamped and locked through the two interval positioning nuts; the two vertical stay bars are vertically fixed on the end parts of the two interval adjusting screw rods respectively, the entering guide bar is transversely fixed on the upper ends of the two vertical stay bars, and a bending guide bar is arranged on the end part of the entering guide bar; the bending guide rods of the two guide sub-brackets are distributed in a splayed shape on the entering side of the workpiece.

Further, the paint control mechanism comprises a diagonal bracing driving motor, a vibrator, a swinging driving rod, a rotary sleeve and a supporting base mechanism; the supporting base mechanism is fixedly arranged on the bottom of the groove which leaves the guide chute; a swing supporting seat is arranged on the supporting base mechanism, and a swing supporting shaft is transversely and rotatably arranged on the swing supporting seat; the lower end of the swing driving rod is vertically fixed in the middle of the swing supporting shaft, and the rotary sleeve is rotatably arranged on the swing driving rod; the diagonal bracing driving motor is arranged on the supporting base mechanism and drives the swinging supporting shaft to rotate through the swinging worm and gear mechanism; the vibrator is fixedly mounted on the support base mechanism.

Further, a lower support plate is arranged on the outer bottom of the guide chute and below the support base mechanism, a lower support column is arranged on the lower side of the lower support plate, and the lower end of the lower support column is fixed on the support base plate.

Compared with the prior art, the utility model has the beneficial effects that: the paint dipping groove is utilized to facilitate the whole dipping of the workpiece, so that all corners of the surface of the workpiece can be fully covered with paint, and the coating quality of the workpiece is ensured; the workpiece can be guided and limited by the entering guide mechanism, so that the workpiece is stably conveyed into the entering guide chute; the paint control mechanism is utilized to control paint vibration on the workpiece which leaves the guide chute, so that the redundant paint on the surface of the workpiece falls back into the exit guide chute and then flows back into the paint dipping tank to realize recycling.

Drawings

FIG. 1 is a schematic view of the apparatus of the present utility model;

FIG. 2 is a schematic view of the installation structure of the entry guide mechanism of the present utility model;

FIG. 3 is a schematic view of the mounting structure of the paint control mechanism of the present utility model;

fig. 4 is a schematic view of the structure of the paint control mechanism of the present utility model.

Detailed Description

The technical scheme of the present utility model will be described in detail with reference to the accompanying drawings, but the scope of the present utility model is not limited to the embodiments.

Example 1:

as shown in fig. 1-4, the workpiece paint dipping apparatus of the present disclosure includes a paint dipping tank 301, an entry guide chute 306, an exit guide chute 302, an entry guide mechanism, and a paint control mechanism; the entering guide chute 306 and the leaving guide chute 302 are respectively communicated with the workpiece entering side and the workpiece leaving side of the paint dipping tank 301, and the notches of the entering guide chute 306, the paint dipping tank 301 and the leaving guide chute 302 are upward; the workpiece 100 needing paint dipping spans over the entering guide chute 306, the paint dipping groove 301 and the leaving guide chute 302 through the hanging chain conveying mechanism, and the height of the hanging chain conveying mechanism above the entering guide chute 306 is gradually lowered, so that the workpiece 100 can smoothly enter the paint dipping groove 301, the height above the paint dipping groove 301 is kept horizontal, and the height above the leaving guide chute 302 is gradually raised, so that the workpiece 100 smoothly leaves the paint dipping groove 301; the entrance guide mechanism is arranged above the entrance guide chute 306 and used for guiding and limiting the workpiece 100, so that the workpiece 100 is stably conveyed into the entrance guide chute 306; the paint control mechanism is mounted in the exit guide chute 302 for vibration control of paint on the workpiece 100 passing through the exit guide chute 302 such that excess paint on the surface of the workpiece 100 falls back into the exit guide chute 302 and then flows back into the paint dipping tank 301.

The paint dipping groove 301 is utilized to facilitate the whole dipping of the workpiece 100, so that all corners of the surface of the workpiece 100 can be fully covered with paint, and the coating quality of the workpiece 100 is ensured; the workpiece 100 can be guided and limited by the entering guide mechanism, so that the workpiece 100 is stably conveyed into the entering guide chute 306; the paint control mechanism can be used for vibration paint control on the workpiece 100 passing through the leaving guide chute 302, so that the excessive paint on the surface of the workpiece 100 falls back into the leaving guide chute 302 and then flows back into the paint dipping tank 301 to realize recycling.

Further, the entry guide mechanism comprises two guide sub-brackets; the guide branch frame comprises a height adjusting pipe 307, an L-shaped bracket rod 309, an entering guide rod 313, two interval adjusting screws 311 and two vertical supporting rods 312; the two height adjusting pipes 307 of the two guiding sub-brackets are vertically arranged on the paint dipping groove 301 and are respectively positioned at the front side and the rear side of the entering guiding chute 306; one end of an L-shaped bracket rod 309 is inserted into the height adjusting pipe 307 and locked and positioned by a height locking bolt 308; the two interval adjusting screws 311 are horizontally and penetratingly arranged on the horizontal rod of the L-shaped bracket rod 309 and are clamped and locked by the two interval positioning nuts 310; the two vertical stay bars 312 are vertically fixed on the end parts of the two interval adjusting screw rods 311 respectively, the entering guide bar 313 is transversely fixed on the upper ends of the two vertical stay bars 312, and a bending guide bar 330 is arranged on the end part of the entering guide bar 313; the bending guide bars 330 of the two guide sub-holders are splayed on the entry side of the workpiece 100. By the cooperation of the height adjustment pipe 307 and the height lock bolt 308, the height adjustment of the L-shaped bracket lever 309 can be achieved, so that the height adjustment of the entry guide lever 313 can be performed according to the height of the workpiece 100; the distance between the two guide rods 313 can be adjusted according to the size of the workpiece 100 by using the cooperation of the two distance adjusting screws 311 and the two distance positioning nuts 310; the use of two bend guide bars 330 in a splayed arrangement enables guidance as the workpiece 100 enters.

Further, the paint control mechanism includes a diagonal drive motor 321, a vibrator 318, a swing drive rod 327, a swivel sleeve 328, and a support base mechanism; the support base mechanism is fixedly mounted on the bottom of the channel away from the guide chute 302; a swing support base 320 is provided on the support base mechanism, and a swing support shaft 325 is transversely rotatably installed on the swing support base 320; the lower end of the swing driving rod 327 is vertically fixed in the middle of the swing supporting shaft 325, the rotating sleeve 328 is rotatably arranged on the swing driving rod 327, and the wear-resistant sleeve 329 is sleeved outside the rotating sleeve 328; the diagonal bracing driving motor 321 is arranged on the supporting base mechanism and drives the swing supporting shaft 325 to rotate through the swing worm gear mechanism; vibrator 318 is fixedly mounted on the support base mechanism; in use, a position sensor may be provided to detect if the workpiece 100 is in place and after that, the diagonal drive motor 321 and vibrator 318 are activated to cause the wear sleeve 329 to push the workpiece 100 to tilt. Is rotatably mounted on the swing drive rod 327 by a rotating sleeve 328 so as not to affect the movement of the workpiece 100 when the swing pushes the workpiece 100 to tilt; the swing driving rod 327 is utilized to realize swing support, so that the workpiece 100 is obliquely pushed, and the vibration of the vibrator 318 is matched, so that redundant paint on the workpiece 100 is continuously vibrated to fall into the exit guide chute 302 in the process of changing the inclination angle, the recovery and the reutilization of the redundant paint are realized, and the redundant paint is prevented from dripping along a road; the support base mechanism is utilized to realize stable support on the inclined slope.

Further, a lower support plate 303 is provided on the outer bottom portion away from the guide chute 302 below the support base mechanism, a lower support column 304 is provided on the lower side of the lower support plate 303, and the lower end of the lower support column 304 is fixed to the support base plate 305. Bottom support can be achieved by the lower support plate 303, the lower support columns 304 and the support base plate 305, and stability of installation of the support base mechanism above is ensured.

Further, the support base mechanism includes a tilt base 314, four tension screws 316, four compression springs 324, a lower support plate 315, and an upper support plate 317; the inclined seat 314 is fixedly installed on the bottom of the groove leaving the guide chute 302, and the lower support plate 315 is horizontally fixed on the inclined seat 314; a rubber support pad 319 is provided on the lower support plate 315, and the upper support plate 317 is pressed against the rubber support pad 319; the lower ends of the four tensioning screws 316 are vertically and fixedly arranged at four vertex angles of the lower supporting plate 315 respectively, and the upper ends vertically penetrate through the upper supporting plate 317; the four pressing springs 324 are respectively sleeved on the upper ends of the four tensioning screws 316, and two fastening nuts 323 are respectively and spirally arranged on the upper ends of the four tensioning screws 316; the pressing spring 324 is sandwiched between the upper support plate 317 and the fastening nut 323. By means of the fitting installation of the four tensioning screws 316, the rubber support pads 319, the four pressing springs 324 and the respective fastening nuts 323, an elastic installation between the upper support plate 317 and the lower support plate 315 can be achieved, so that when the vibrator 318 works, the swing driving rod 327 can be driven to vibrate in a small amplitude.

Further, the swing worm gear mechanism comprises a swing driving worm wheel 326 and a swing driving worm 322, the swing driving worm 322 is driven by a diagonal bracing driving motor to rotate, the swing driving worm wheel 326 is fixedly arranged on the end part of a swing supporting shaft 325, and the swing driving worm wheel 326 is meshed with the swing driving worm 322 for transmission. Rotation and positioning of the swing support shaft 325 can be achieved using a swing worm gear mechanism.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. The utility model provides a work piece dip coating device which characterized in that: comprises a paint dipping groove (301), an entering guide chute (306), an exiting guide chute (302), an entering guide mechanism and a paint control mechanism; the entering guide chute (306) and the leaving guide chute (302) are respectively communicated with the workpiece entering side and the workpiece leaving side of the paint dipping tank (301), and the slots of the entering guide chute (306), the paint dipping tank (301) and the leaving guide chute (302) are upward; the entering guide mechanism is arranged above the entering guide chute (306) and used for guiding and limiting the workpiece (100), so that the workpiece (100) is stably conveyed into the entering guide chute (306); the paint control mechanism is arranged in the leaving guide chute (302) and is used for vibrating and controlling paint on the workpiece (100) passing through the leaving guide chute (302) so that the excessive paint on the surface of the workpiece (100) falls back into the leaving guide chute (302) and then flows back into the paint dipping tank (301).

2. The workpiece paint dipping apparatus as recited in claim 1, wherein: the entry guide mechanism comprises two guide sub-brackets; the guide branch frame comprises a height adjusting pipe (307), an L-shaped bracket rod (309), an entering guide rod (313), two interval adjusting screws (311) and two vertical supporting rods (312); the two height adjusting pipes (307) of the two guiding sub-brackets are vertically arranged on the paint dipping groove (301) and are respectively positioned at the front side and the rear side of the entering guiding chute (306); one end of an L-shaped bracket rod (309) is inserted into the height adjusting pipe (307) and locked and positioned by a height locking bolt (308); the two interval adjusting screws (311) are horizontally and penetratingly arranged on the horizontal rod of the L-shaped bracket rod (309) and are clamped and locked through the two interval positioning nuts (310); the two vertical stay bars (312) are vertically fixed on the end parts of the two interval adjusting screw rods (311) respectively, the entering guide bar (313) is transversely fixed on the upper ends of the two vertical stay bars (312), and a bending guide bar (330) is arranged on the end part of the entering guide bar (313); the bending guide rods (330) of the two guide sub-brackets are distributed in a splayed shape on the entry side of the workpiece (100).

3. The workpiece paint dipping apparatus as recited in claim 1, wherein: the paint control mechanism comprises a diagonal bracing driving motor (321), a vibrator (318), a swinging driving rod (327), a rotary sleeve (328) and a supporting base mechanism; the support base mechanism is fixedly arranged on the bottom of the groove away from the guide chute (302); a swing supporting seat (320) is arranged on the supporting base mechanism, and a swing supporting shaft (325) is transversely and rotatably arranged on the swing supporting seat (320); the lower end of the swing driving rod (327) is vertically fixed in the middle of the swing supporting shaft (325), and the rotary sleeve (328) is rotatably arranged on the swing driving rod (327); the diagonal bracing driving motor (321) is arranged on the supporting base mechanism and drives the swinging supporting shaft (325) to rotate through the swinging worm gear mechanism; the vibrator (318) is fixedly mounted on the support base mechanism.

4. The workpiece paint dipping apparatus as recited in claim 1, wherein: a lower support plate (303) is arranged on the outer bottom of the guide chute (302) and below the support base mechanism, a lower support column (304) is arranged below the lower support plate (303), and the lower end of the lower support column (304) is fixed on the support base plate (305).