CN112064994B

CN112064994B - Finishing coating device

Info

Publication number: CN112064994B
Application number: CN202010955761.8A
Authority: CN
Inventors: 杨道芳
Original assignee: Jiangsu Feida Security Equipment Co ltd
Current assignee: JIANGSU FEIDA SECURITY EQUIPMENT Co.,Ltd.
Priority date: 2020-09-11
Filing date: 2020-09-11
Publication date: 2021-10-08
Anticipated expiration: 2040-09-11
Also published as: CN112064994A

Abstract

The invention discloses a decoration coating device, which comprises a rack, an outer periphery splicing track, an inner periphery splicing track, a radial change action part and a coating part, wherein the outer periphery splicing track is connected with the inner periphery splicing track; the outer splicing track is provided with outer track wheel teeth, the inner splicing track is provided with inner track wheel teeth, the outer splicing track and the inner splicing track can be spliced into a complete track, the meshing straight gear can be meshed with the outer track wheel teeth and the inner track wheel teeth, the coating part rotates to realize coating under the meshing action of the meshing straight gear, the outer track wheel teeth and the inner track wheel teeth through the movement of the radial change action part on the track, and the continuous supplement of the coating is realized by pumping the coating into the discharging roller through the raw material container and the deformable material conveying pipe.

Description

Finishing coating device

Technical Field

The invention relates to the related technical field of decoration equipment, in particular to a decoration coating device.

Background

With the continuous progress of society, the house building develops rapidly, and the house is assembled and repaired into the necessary links of the house building. The house decoration refers to the actions of digging walls, floors, moving window positions, changing load-bearing or non-load-bearing structures, adding house separation structures, improving house appearance, decorating indoor layout and the like. The house decoration is divided into indoor decoration and outdoor decoration. Outdoor decoration refers to the decoration of the outside of a house. Interior decoration finishing means that after the house is completed and accepted, building activities of building decoration are carried out to house interior by owners or house users, the decoration is divided into a plurality of steps, wherein, the coating of the wall surface makes one of the steps, the coating of the wall surface is generally operated by tools used manually at present, the house on a high roof can be built by stairs, therefore, the labor force is large, and the working efficiency is low.

Disclosure of Invention

Aiming at the technical problem, the invention provides a decoration coating device, which solves the problem of low work efficiency of decoration coatings.

The technical scheme adopted by the invention is as follows: a finishing coating device comprises a frame, an outer splicing track, an inner splicing track, a radial change action part and a coating part.

The rack comprises a track connecting frame and a connecting frame fixing plate; the peripheral splicing track comprises a peripheral track embedded ball; the inner periphery splicing track comprises an inner periphery track pressure spring and a sliding guide post; the radial change action component comprises a deformable delivery pipe and a guide pillar pressure spring; the coating component comprises a belt.

The track connecting frame is fixedly connected with a connecting frame fixing plate, one end of the track connecting frame is fixedly connected with a rack, the other end of the track connecting frame is fixedly connected with a peripheral splicing track, balls are embedded in the peripheral track and embedded in two walls of the inner side of the peripheral splicing track, a sliding guide pillar is fixedly connected with an inner surrounding track and is slidably connected with the connecting frame fixing plate, an inner surrounding track pressure spring is sleeved on the sliding guide pillar, one end of the inner surrounding track pressure spring is contacted with the connecting frame fixing plate, the other end of the inner surrounding track pressure spring is contacted with the sliding guide pillar, two ends of a deformable conveying pipe are respectively fixedly connected with a raw material container and a track moving frame, the guide pillar pressure spring is sleeved on a radial change sliding guide pillar, two ends of the guide pillar pressure spring are respectively contacted with a rotating disc and the track moving frame, and a belt is connected between a belt wheel I and a belt wheel II.

Furthermore, the rack also comprises a rack roller and an inner track control cylinder; the frame gyro wheel install in the bottom of frame, interior track control cylinder fixed mounting is on the link fixed plate, interior track control cylinder can promote the action to interior concatenation track.

Furthermore, the peripheral splicing track also comprises peripheral track gear teeth; the outer rail gear teeth are fixedly connected with the outer side of the outer splicing rail, and the meshing straight gears can be meshed with the outer rail gear teeth when moving onto the outer splicing rail.

Furthermore, the inner periphery splicing track also comprises a rotation control motor, an inner periphery track, inner periphery track gear teeth and inner periphery track balls; the rotation control motor is fixedly installed at the bottom of the inner surrounding track, the gear teeth of the inner surrounding track are fixedly connected with the outer wall of the inner surrounding track, the gear teeth of the inner surrounding track are meshed with the meshing straight gear, and the ball bearings of the inner surrounding track are embedded on two sides of the inner wall of the inner surrounding track.

Furthermore, the inner rail and the outer splicing rail can be spliced into a complete rail, and the coating component can move on the spliced rail.

Furthermore, the radial variation action component also comprises a rotating disc, a raw material container, a conveying pipe guide wheel, a radial variation sliding guide column, a track action frame and an action frame roller; the rotary disc is rotatably arranged on the inner peripheral track, the rotary disc is fixedly connected with the rotation control motor, the raw material container is fixedly arranged on the rotary disc, the conveying pipe guide wheel is fixedly arranged on the track moving frame, the conveying pipe guide wheel has a supporting transition effect on the deformable conveying pipe, the radial variation sliding guide column is fixedly connected with the track moving frame and is slidably connected with the rotary disc, the moving frame roller is rotatably arranged at the bottom of the track moving frame, and the moving frame roller moves between the balls embedded in the outer peripheral track and the balls in the inner peripheral track.

Furthermore, the deformable conveying pipe is divided into a spiral section and a straight section, the spiral section is changed into the straight section along with the change of the radial distance of the coating part, the coating is filled in the raw material container, the raw material container can draw out the coating and transport the coating to the other end of the deformable conveying pipe through the deformable conveying pipe, and the connecting end of the deformable conveying pipe and the rail moving frame is communicated with the discharging roller.

Furthermore, the coating part also comprises a coating roller, a discharging roller, a belt wheel I, a belt wheel II, a bevel gear I, a connecting rotating shaft, a bevel gear II and a meshing straight gear; the coating roller is sleeved on the outer side of the discharging roller, a plurality of holes are formed in the discharging roller, the coating can flow out of the holes and be absorbed by the coating roller, and the discharging roller is rotatably installed on the track moving frame.

Furthermore, the first belt wheel is fixedly connected with one end of the discharging roller, the second belt wheel is fixedly connected with the first bevel gear, the first bevel gear is rotatably installed on the track traveling frame, the second bevel gear and the meshing straight gear are respectively fixedly connected with the connecting rotating shaft, the connecting rotating shaft is rotatably installed on the track traveling frame, the first bevel gear is meshed with the second bevel gear, and the meshing straight gear can be meshed with the teeth of the inner-surrounding track and the teeth of the outer-surrounding track.

Compared with the prior art, the invention has the beneficial effects that: (1) the peripheral splicing track and the inner splicing track can be spliced into a complete track; (2) the track moving frame and the rotating disc slide mutually to adapt to radial distance change; (3) the gear teeth are meshed to realize the motion coating of the coating part; (4) the paint may be continuously pumped to the paint roller to continuously replenish the paint.

Drawings

Fig. 1, 2 and 3 are schematic views of the overall structure of the present invention.

Fig. 4 and 5 are schematic views of the present invention in a partially enlarged structure.

In the figure: 1-a frame; 2-splicing the tracks at the periphery; 3-splicing the tracks at the inner periphery; 4-a radial variation action member; 5-a coating component; 101-a rack roller; 102-a rail attachment frame; 103-inner track control cylinder; 104-connecting frame fixing plate; 201-peripheral orbital gear teeth; 202-balls are embedded in the peripheral track; 301-inner circumference track compression spring; 302-sliding guide posts; 303-rotating the control motor; 304-inner peripheral track; 305-inner circumference orbit gear teeth; 306-inner peripheral orbital balls; 401-rotating disk; 402-a raw material container; 403-deformable feed conduits; 404-a feed delivery pipe guide wheel; 405-radially varying sliding guide posts; 406-guide post compression spring; 407-track traveling carriage; 408-a mobile frame roller; 501-paint roller; 502-a take-off drum; 503-a belt; 504-pulley one; 505-pulley two; 506-bevel gear one; 507-connecting a rotating shaft; 508-bevel gear two; 509-meshing spur gears.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): referring to fig. 1, 2, 3, 4 and 5, a finishing coating apparatus includes a frame 1, an outer splicing rail 2, an inner splicing rail 3, a radial variation moving member 4 and a coating member 5.

The frame 1 comprises a track connecting frame 102 and a connecting frame fixing plate 104; the peripheral splicing track 2 comprises a peripheral track embedded ball 202; the inner circumference splicing track 3 comprises an inner circumference track pressure spring 301 and a sliding guide pillar 302; a radial change action member 4 comprising a deformable feed delivery pipe 403 and a guide post pressure spring 406; the painting member 5, including a belt 503.

The track connecting frame 102 is fixedly connected with the connecting frame fixing plate 104, one end of the track connecting frame 102 is fixedly connected with the rack 1, the other end of the track connecting frame 102 is fixedly connected with the peripheral splicing track 2, the embedded balls 202 of the peripheral track are embedded in two walls of the inner side of the peripheral splicing track 2, the sliding guide post 302 is fixedly connected with the inner peripheral track 304, the sliding guide post 302 is slidably connected with the connecting frame fixing plate 104, the inner peripheral track pressure spring 301 is sleeved on the sliding guide post 302, one end of the inner peripheral track pressure spring 301 is contacted with the connecting frame fixing plate 104, the other end of the inner peripheral track pressure spring 301 is contacted with the sliding guide post 302, two ends of the deformable conveying pipe 403 are respectively fixedly connected with the raw material container 402 and the track moving frame 407, the guide post pressure spring 406 is sleeved on the radial change sliding guide post 405, two ends of the guide post pressure spring 406 are respectively contacted with the rotating disc 401 and the track moving frame 407, the belt 503 is connected with the belt wheel I504, Between the second pulleys 505.

The device comprises a rack 1, a rack roller 101 and an inner track control cylinder 103; the rack roller 101 is installed at the bottom of the rack 1, the inner rail control cylinder 103 is fixedly installed on the connecting frame fixing plate 104, and the inner rail control cylinder 103 can push the inner splicing rail 3. The inner rail control cylinder 103 pushes the inner splicing rail 3 to move, so that the inner splicing rail 304 and the outer splicing rail 2 are spliced to form a complete rail, the inner splicing rail is compressed by stress, and the inner splicing rail 3 can return to the initial position by the counter force of the inner splicing rail compression spring 301.

The peripheral splicing track 2 also comprises peripheral track gear teeth 201; the peripheral track gear teeth 201 are fixedly connected with the outer side of the peripheral splicing track 2, and the meshing straight gear 509 can be meshed with the peripheral track gear teeth 201 when moving onto the peripheral splicing track 2.

The inner periphery splicing track 3 further comprises a rotation control motor 303, an inner periphery track 304, inner periphery track gear teeth 305 and inner periphery track balls 306; the rotation control motor 303 is fixedly installed at the bottom of the inner rail 304, the gear teeth 305 of the inner rail are fixedly connected with the outer wall of the inner rail 304, the gear teeth 305 of the inner rail are meshed with the meshing spur gear 509, and the balls 306 of the inner rail are embedded on two sides of the inner wall of the inner rail 304. The rotation control motor 303 drives the rotation disc 401 to rotate, and the traveling carriage roller 408 moves between the inner ball 306 and the outer ball 202 embedded in the peripheral track.

The inner rail 304 can be spliced with the outer splicing rail 2 to form a complete rail, and the paint component 5 can move on the spliced rail.

The radial variation action component 4 further comprises a rotating disc 401, a raw material container 402, a conveying pipe guide wheel 404, a radial variation sliding guide column 405, a track action frame 407 and an action frame roller 408; the rotary disc 401 is rotatably arranged on the inner peripheral track 304, the rotary disc 401 is fixedly connected with the rotation control motor 303, the raw material container 402 is fixedly arranged on the rotary disc 401, the material conveying pipe guide wheel 404 is fixedly arranged on the track moving frame 407, the material conveying pipe guide wheel 404 has a supporting transition effect on the deformable material conveying pipe 403, the radial variation sliding guide column 405 is fixedly connected with the track moving frame 407 and the radial variation sliding guide column 405 is slidably connected with the rotary disc 401, the bottom of the track moving frame 407 is rotatably provided with a moving frame roller 408, and the moving frame roller 408 moves between the embedded ball 202 of the outer peripheral track and the ball 306 of the inner peripheral track. The outer track embedded balls 202 and the inner track embedded balls 306 support the traveling carriage roller 408, and the rolling performance of the outer track embedded balls 202 and the inner track embedded balls 306 is also convenient for the traveling carriage roller 408 to move. With the change of the radial distance, the rail moving frame 407 slides relative to the rotating disk 401 by the reaction force of the guide post pressure spring 406, and the rail moving frame 407 adapts to the change of the radial distance.

The deformable feed conduit 403 is divided into a spiral section and a straight section, the spiral section is changed into the straight section along with the change of the radial distance of the coating part 5 so as to adapt to the change of the radial distance, the coating is filled in the raw material container 402, the raw material container 402 can draw out the coating and transport the coating to the other end of the deformable feed conduit 403 through the deformable feed conduit 403, and the connecting end of the deformable feed conduit 403 and the track traveling frame 407 is communicated with the discharging roller 502.

The coating part 5 further comprises a coating roller 501, a discharging roller 502, a first belt wheel 504, a second belt wheel 505, a first bevel gear 506, a connecting rotating shaft 507, a second bevel gear 508 and a meshing straight gear 509; the paint roller 501 is sleeved outside the discharging roller 502, the discharging roller 502 is provided with a plurality of holes, paint can flow out of the holes and is absorbed by the paint roller 501, and the discharging roller 502 is rotatably arranged on the track moving frame 407. The paint is pumped out by the material container 402 and transported to the discharging roller 502 through the deformable material conveying pipe 403, and the paint flows out from the hole on the discharging roller 502 and is absorbed by the paint roller 501, so that the paint is continuously replenished.

The first belt wheel 504 is fixedly connected with one end of the discharging roller 502, the second belt wheel 505 is fixedly connected with a first bevel gear 506, the first bevel gear 506 is rotatably installed on the track traveling frame 407, the second bevel gear 508 and the meshing spur gear 509 are respectively and fixedly connected with a connecting rotating shaft 507, the connecting rotating shaft 507 is rotatably installed on the track traveling frame 407, the first bevel gear 506 is meshed with the second bevel gear 508, and the meshing spur gear 509 can be meshed with the inner peripheral track gear teeth 305 and the outer peripheral track gear teeth 201. When the orbit traveling frame 407 moves, under the meshing action of the meshing spur gear 509 and the inner orbit gear teeth 305, the meshing spur gear 509 rotates, and further the first bevel gear 506 rotates, so that the discharging roller 502 rotates, and further the rolling paint action of the paint roller 501 is realized.

The working principle of the invention is as follows: the inner track control cylinder 103 pushes the inner splicing track 3 to move, so that the inner splicing track 304 and the outer splicing track 2 are spliced to form a complete track, the inner track pressure spring 301 is stressed and compressed, the inner splicing track 3 can return to an initial position through the counter force of the inner track pressure spring 301, the rotating control motor 303 drives the rotating disc 401 to rotate, the moving frame roller 408 moves between the embedded ball 202 of the outer track and the ball 306 of the inner track, the embedded ball 202 of the outer track and the ball 306 of the inner track have a supporting function on the moving frame roller 408, the rolling performance of the embedded ball 202 of the outer track and the ball 306 of the inner track is also convenient for the moving frame roller 408 to move, along with the change of the radial distance, the track moving frame 407 slides mutually with the rotating disc 401 under the counter force of the guide post pressure spring 406, so that the track moving frame 407 adapts to the change of the radial distance, and when the track moving frame 407 moves, under the meshing action of the meshing straight gear 509 and the inner-periphery rail gear teeth 305, the meshing straight gear 509 rotates, the bevel gear I506 rotates, the discharging roller 502 rotates, the rolling coating action of the coating roller 501 is achieved, the coating is drawn out by the raw material container 402 and conveyed into the discharging roller 502 through the deformable conveying pipeline 403, the coating flows out from the upper hole of the discharging roller 502 and is absorbed by the coating roller 501, and continuous supplement of the coating is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a fitment coating device, includes frame (1), peripheral concatenation track (2), interior circumference concatenation track (3), radial change action part (4), coating part (5), its characterized in that:

the rack (1) comprises a track connecting rack (102) and a connecting rack fixing plate (104); the peripheral splicing track (2) comprises a peripheral track embedded ball (202); the inner circumference splicing track (3) comprises an inner circumference track pressure spring (301) and a sliding guide post (302); the radial change action component (4) comprises a deformable delivery pipe (403) and a guide post pressure spring (406); the coating component (5) comprises a belt (503);

the track connecting frame (102) is fixedly connected with a connecting frame fixing plate (104), one end of the track connecting frame (102) is fixedly connected with the rack (1), the other end of the track connecting frame (102) is fixedly connected with a peripheral splicing track (2), balls (202) embedded in the peripheral track are embedded in two walls of the inner side of the peripheral splicing track (2), a sliding guide post (302) is fixedly connected with an inner surrounding track (304), the sliding guide post (302) is slidably connected with the connecting frame fixing plate (104), an inner surrounding track pressure spring (301) is sleeved on the sliding guide post (302), one end of the inner surrounding track pressure spring (301) is contacted with the connecting frame fixing plate (104), the other end of the inner surrounding track pressure spring (301) is contacted with the sliding guide post (302), two ends of a deformable pipe (403) are respectively and fixedly connected with a raw material container (402) and a track moving frame (407), and a guide post pressure spring (406) is sleeved on a radial variation sliding guide post (405), two ends of a guide post pressure spring (406) are respectively contacted with the rotating disc (401) and the track moving frame (407), and a belt (503) is connected between a first belt wheel (504) and a second belt wheel (505).

2. A finishing coating installation as claimed in claim 1, wherein: the machine frame (1) further comprises a machine frame roller (101) and an inner track control cylinder (103); the frame roller (101) is installed at the bottom of the frame (1), the inner track control cylinder (103) is fixedly installed on the connecting frame fixing plate (104), and the inner track control cylinder (103) can push the inner periphery splicing track (3).

3. A finishing coating installation as claimed in claim 1, wherein: the peripheral splicing track (2) further comprises peripheral track gear teeth (201); the outer side of the outer rail gear teeth (201) is fixedly connected with the outer side of the outer splicing rail (2), and the meshing straight gear (509) can be meshed with the outer rail gear teeth (201) when moving onto the outer splicing rail (2).

4. A finishing coating installation as claimed in claim 1, wherein: the inner periphery splicing track (3) further comprises a rotation control motor (303), an inner periphery track (304), inner periphery track gear teeth (305) and inner periphery track balls (306); rotation control motor (303) fixed mounting in interior track (304) bottom, interior track teeth of a cogwheel (305) and the outer wall fixed connection of interior track (304) and interior track teeth of a cogwheel (305) and meshing spur gear (509) mesh, interior track ball (306) inlay and adorn in interior track (304) inner wall both sides.

5. A finishing coating installation as claimed in claim 1, wherein: the inner periphery track (304) and the outer periphery splicing track (2) can be spliced into a complete track, and the coating component (5) can move on the spliced track.

6. A finishing coating installation as claimed in claim 1, wherein: the radial variation action component (4) also comprises a rotating disc (401), a raw material container (402), a conveying pipe guide wheel (404), a radial variation sliding guide post (405), a track action frame (407) and an action frame roller (408); the rotary disc (401) is rotatably arranged on an inner peripheral track (304), the rotary disc (401) is fixedly connected with a rotation control motor (303), a raw material container (402) is fixedly arranged on the rotary disc (401), a conveying pipe guide wheel (404) is fixedly arranged on a track moving frame (407), the conveying pipe guide wheel (404) has a supporting transition effect on a deformable conveying pipe (403), a radial variation sliding guide post (405) is fixedly connected with the track moving frame (407), the radial variation sliding guide post (405) is slidably connected with the rotary disc (401), a moving frame roller (408) is rotatably arranged at the bottom of the track moving frame (407), and the moving frame roller (408) moves between embedded balls (202) of the outer peripheral track or between balls (306) of the inner peripheral track.

7. A finishing coating installation as claimed in claim 1, wherein: the deformable conveying pipe (403) is divided into a spiral section and a straight section, the spiral section is changed into the straight section along with the change of the radial distance of the coating component (5), the raw material container (402) is filled with coating, the raw material container (402) can draw out the coating and transport the coating to the other end of the deformable conveying pipe (403) through the deformable conveying pipe (403), and the connecting end of the deformable conveying pipe (403) and the track moving frame (407) is communicated with the discharging roller (502).

8. A finishing coating installation as claimed in claim 1, wherein: the coating component (5) further comprises a coating roller (501), a discharging roller (502), a first belt wheel (504), a second belt wheel (505), a first bevel gear (506), a connecting rotating shaft (507), a second bevel gear (508) and a meshing straight gear (509); the coating roller (501) is sleeved outside the discharging roller (502), a plurality of holes are formed in the discharging roller (502), the coating can flow out of the holes and be absorbed by the coating roller (501), and the discharging roller (502) is rotatably mounted on the track moving frame (407).

9. A finishing coating installation as claimed in claim 1, wherein: the first belt wheel (504) is fixedly connected with one end of the discharging roller (502), the second belt wheel (505) is fixedly connected with the first bevel gear (506), the first bevel gear (506) is rotatably installed on the track moving frame (407), the second bevel gear (508) and the meshing straight gear (509) are respectively and fixedly connected with the connecting rotating shaft (507), the connecting rotating shaft (507) is rotatably installed on the track moving frame (407), the first bevel gear (506) is meshed with the second bevel gear (508), and the meshing straight gear (509) can be meshed with the inner-periphery track gear teeth (305) and the outer-periphery track gear teeth (201).