CN112657357A

CN112657357A - Coating diluting equipment

Info

Publication number: CN112657357A
Application number: CN202011543205.6A
Authority: CN
Inventors: 孙一鑫
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-04-16

Abstract

The invention discloses paint diluting equipment which comprises a device assembly, an upper stirring claw structure, a lower stirring claw structure and a diluent input structure, wherein the upper stirring claw realizes variable-speed stirring by using a constant-power motor, the lower stirring claw performs uniform-speed stirring on paint at the lower part, and the diluent input structure changes the carrying speed of diluting work by regulating the size of a feed inlet in a variable-speed manner.

Description

Coating diluting equipment

Technical Field

The invention relates to the field of paint dilution, in particular to paint dilution equipment.

Background

The paint is often needed to be used in the conditions of indoor decoration and the like, and the original paint has high concentration and high viscosity coefficient, is not uniformly coated on the wall surface, so that the paint needs to be mixed by adding a diluent in advance. In view of this problem, application No. 201711129614X discloses a finishing wall paint diluting device which does solve, to some extent, the problem that the conventional diluting work usually requires manual operation, but the degree of dilution still requires manual monitoring.

Disclosure of Invention

In order to solve the technical problem, the invention provides a paint diluting device, which adjusts the input speed of the diluent by feeding the change of the rotating speed of a constant-power motor during stirring back to the opening part of a diluent input structure.

A coating diluting device comprises a device assembly, an upper stirring claw structure, a lower stirring claw structure and a diluent input structure; the device assembly includes: the device comprises a base, a support frame and an input lantern ring; the upper stirring claw structure comprises: the device comprises a first motor, a transmission rod, a cross shaft, a second motor and an upper conical gear; the lower stirring claw structure includes: a lower input straight gear and a lower output straight gear; the diluent input structure comprises: a barrel fixing seat and a connecting sleeve; the support frame fixed mounting is on the base, first motor fixed mounting is on the support frame, transfer line fixed mounting is at the output of first motor, the cross axle rotates and installs on the support frame, second motor fixed mounting is on the support frame, the input lantern ring rotates with adapter sleeve to be connected, input straight-tooth gear fixed mounting is on the transfer line down, output straight-tooth gear rotates down and installs on the base, output straight-tooth gear forms the gear cooperation with input straight-tooth gear down, bucket fixing base fixed mounting is on the support frame, adapter sleeve fixed mounting is on last bevel gear.

Further, the device assembly further comprises: mixing barrel, input tube, mixing barrel fixed mounting are on the base, and input tube one end fixed mounting is on the mixing barrel, and input tube other end fixed mounting is on the input lantern ring.

Further, the upper stirring claw structure further comprises: an upper input straight gear, an upper output straight gear, a small output straight gear and an end face gear, the upper stirring claw is fixedly arranged on the end face gear.

Further, the lower stirring claw structure further comprises: and the lower stirring claw is fixedly arranged on the lower output straight gear, and the lower stirring claw is rotatably arranged on the mixing barrel.

Further, the diluent input structure further comprises: the diluent storage barrel is fixedly mounted on the barrel fixing seat, and the sealing sliding sheet is slidably mounted on the connecting sleeve.

Further, the first motor is a double-head motor.

Further, the second motor is a fixed power motor.

Furthermore, a sealing plastic film is arranged at the joint of the diluent storage barrel and the connecting sleeve, and the lower end of the plastic film is fixedly connected with the input lantern ring.

Furthermore, an opening is formed at the joint of the connecting sleeve and the input sleeve ring.

Furthermore, a spring is arranged at the joint of the sealing sliding sheet and the connecting sleeve.

Compared with the prior art, the invention has the beneficial effects that: (1) the invention can automatically adjust the adding speed of the diluent according to the concentration of the coating; (2) the stirring claw is divided into an upper part and a lower part to more fully dilute and stir the coating; (3) the diluent input structure of the invention utilizes the rotating centrifugal force to carry out the opening operation, thus being simple and efficient.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic structural view of an upper stirring claw mechanism and a lower stirring claw mechanism according to the present invention.

FIG. 3 is a schematic view of the structure of the upper stirring claw of the present invention.

FIG. 4 is a schematic view of a diluent input mechanism according to the present invention.

FIG. 5 is a schematic view of an opening structure according to the present invention.

Reference numerals: 1-device assembly; 2-upper stirring claw structure; 3-lower stirring claw structure; 4-a diluent input structure; 101-a base; 102-a mixing barrel; 103-a support frame; 104-an input tube; 105-an input collar; 201-a first motor; 202-a transmission rod; 203-upper input spur gear; 204-upper output spur gear; 205-cross shaft; 206-a second motor; 207-small output spur gear; 208-face gear; 209-lower bevel gear; 210-side bevel gear; 211-upper conical gear; 212-Upper stirring claw; 301-lower input spur gear; 302-lower output spur gear; 303-lower stirring claw; 401-diluent storage barrel; 402-barrel holder; 403-connecting the sleeve; 404-sealing the slides.

Detailed Description

The invention will be further described with reference to specific examples, which are provided herein for the purpose of illustration and description, but are not intended to be limiting.

Example (b): a paint diluting apparatus as shown in fig. 1, 2, 3, 4, 5. The supporting frame 103 is fixedly installed on the base 101, the first motor 201 is fixedly installed on the supporting frame 103, the transmission rod 202 is fixedly installed at the output end of the first motor 201, the cross shaft 205 is rotatably installed on the supporting frame 103, the second motor 206 is fixedly installed on the supporting frame 103, the input lantern ring 105 is rotatably connected with the connecting sleeve 403, the lower input spur gear 301 is fixedly installed on the transmission rod 202, the lower output spur gear 302 is rotatably installed on the base 101, the lower output spur gear 302 and the lower input spur gear 301 form gear fit, the barrel fixing seat 402 is fixedly installed on the supporting frame 103, and the connecting sleeve 403 is fixedly installed on the upper bevel gear 211.

The specific structure of the device assembly 1 is shown in fig. 1, wherein a mixing barrel 102 is fixedly mounted on a base 101, one end of an input pipe 104 is fixedly mounted on the mixing barrel 102, and the other end of the input pipe 104 is fixedly mounted on an input collar 105.

The concrete structure of the upper stirring claw structure is shown in figure 2, 3, wherein the upper input spur gear 203 is fixedly installed on the transmission rod 202, the upper output spur gear 204 and the upper input spur gear 203 form a gear fit, the upper output spur gear 204 is fixedly installed on the cross shaft 205, the small output spur gear 207 is fixedly installed on the output shaft of the second motor 206, the face gear 208 is rotatably installed on the cross shaft 205, the face gear 208 and the small output spur gear 207 form a gear fit, the lower conical gear 209 is rotatably installed on the cross shaft 205, the lower conical gear 209 is fixedly connected with the face gear 208, the side conical gear 210 is rotatably installed on the cross shaft 205, the side conical gear 210 and the lower conical gear 209 form a gear fit, the upper conical gear 211 is rotatably installed on the cross shaft 205, the upper conical gear 211 and the side conical gear 210 form a gear fit, and the upper stirring claw 212 is fixedly installed on the face gear 208. The first motor 201 is started to drive the transmission rod 202 to rotate to drive the upper input spur gear 203 to rotate to drive the upper output spur gear 204 to rotate to drive the cross shaft 205 to rotate, the second motor 206 is started to drive the small output spur gear 207 to rotate to drive the end face gear 208 to rotate to drive the lower bevel gear 209 to rotate, the end face gear 208 rotates to drive the upper stirring claw 212 to rotate to stir the original coating, the upper stirring claw 212 needs larger torque to rotate in the inner part due to higher consistency and higher viscosity coefficient of the original coating, the second motor 206 is a constant power motor, therefore, when the torque is larger, the rotating speed of the end face gear 208 is smaller, the rotating speed of the upper stirring claw 212 is also smaller, the rotating speed of the cross shaft 205 is larger than that of the lower bevel gear 209, the upper bevel gear 211 is driven to rotate by the transmission of the side bevel gear 210, and when the coating is diluted, the rotating torque of the upper stirring claw 212 is smaller, since the power of the second motor 206 is not changed, the rotation speed of the upper stirring claw 212 is increased, the rotation speed of the lower conical gear 209 is increased, the upper conical gear 211 rotates synchronously with the lower conical gear 209 and the cross shaft 205 when the rotation speed of the lower conical gear 209 is equal to the rotation speed of the cross shaft 205, and the upper conical gear 211 is absolutely stationary when the rotation speed of the lower conical gear 209 is increased to twice the rotation speed of the cross shaft 205.

The specific structure of the lower stirring claw structure 3 is shown in fig. 2, wherein the lower stirring claw 303 is fixedly installed on the lower output spur gear 302, and the lower stirring claw 303 is rotatably installed on the mixing barrel 102. The first motor 201 is started to drive the transmission rod 202 to rotate, the lower input straight gear 301 is driven to rotate, the lower output straight gear 302 is driven to rotate, and the lower stirring claw 303 is driven to rotate, so that the coating is uniformly stirred.

The specific structure of the diluent input structure 4 is shown in fig. 4 and 5, wherein the diluent storage barrel 401 is fixedly mounted on the barrel fixing seat 402, and the sealing slide 404 is slidably mounted on the connecting sleeve 403. Go up bevel gear 211 and rotate and drive adapter sleeve 403 and rotate, adapter sleeve 403 rotates and can drive and seal slide 404 and rotate along with it, thereby because centrifugal force effect, seal slide 404 can outwards move and open the opening of equidimension not on making adapter sleeve 403, and the diluent in diluent storage barrel 401 passes through adapter sleeve 403, input lantern ring 105, input tube 104, flows in mixing barrel 102 at last.

Claims

1. The utility model provides a coating dilution equipment, includes that the device always puts up 1, goes up stirring claw structure (2), lower stirring claw structure (3), diluent input structure (4), its characterized in that:

the device assembly (1) comprises: the device comprises a base (101), a support frame (103) and an input lantern ring (105);

the upper stirring claw structure (2) comprises: the device comprises a first motor (201), a transmission rod (202), a cross shaft (205), a second motor (206) and an upper conical gear (211);

the lower stirring claw structure (3) comprises: a lower input spur gear (301) and a lower output spur gear (302);

the diluent input structure (4) comprises: a barrel fixing seat (402) and a connecting sleeve (403);

support frame (103) fixed mounting is on base (101), first motor (201) fixed mounting is on support frame (103), transfer line (202) fixed mounting is at the output of first motor (201), cross axle (205) rotate and install on support frame (103), second motor (206) fixed mounting is on support frame (103), input lantern ring (105) rotates with adapter sleeve (403) and is connected, lower input spur gear (301) fixed mounting is on transfer line (202), lower output spur gear (302) rotates and installs on base (101), lower output spur gear (302) forms gear fit with lower input spur gear (301), bucket fixing base (402) fixed mounting is on support frame (103), adapter sleeve (403) fixed mounting is on last bevel gear (211).

2. A paint dilution apparatus according to claim 1, wherein: the device assembly (1) further comprises: mixing barrel (102), input tube (104), mixing barrel (102) fixed mounting is on base (101), and input tube (104) one end fixed mounting is on mixing barrel (102), and input tube (104) other end fixed mounting is on input lantern ring (105).

3. A paint dilution apparatus according to claim 1, wherein: the upper stirring claw structure (2) further comprises: an upper input spur gear (203), an upper output spur gear (204), a small output spur gear (207), a face gear (208), a lower bevel gear (209), a side face bevel gear (210) and an upper stirring claw (212), wherein the upper input spur gear (203) is fixedly arranged on a transmission rod (202), the upper output spur gear (204) and the upper input spur gear (203) form gear matching, the upper output spur gear (204) is fixedly arranged on a cross shaft (205), the small output spur gear (207) is fixedly arranged on an output shaft of a second motor (206), the face gear (208) is rotatably arranged on the cross shaft (205), the face gear (208) and the small output spur gear (207) form gear matching, the lower bevel gear (209) is rotatably arranged on the cross shaft (205), the lower bevel gear (209) is fixedly connected with the face gear (208), the side face bevel gear (210) is rotatably arranged on the cross shaft (205), the side face conical gear (210) and the lower conical gear (209) form gear matching, the upper conical gear (211) is rotatably installed on the cross shaft (205), the upper conical gear (211) and the side face conical gear (210) form gear matching, and the upper stirring claw (212) is fixedly installed on the face gear (208).

4. A paint dilution apparatus according to claim 1, wherein: the lower stirring claw structure (3) further comprises: and the lower stirring claw (303), the lower stirring claw (303) is fixedly arranged on the lower output straight gear (302), and the lower stirring claw (303) is rotatably arranged on the mixing barrel (102).

5. A paint dilution apparatus according to claim 1, wherein: the diluent input structure (4) further comprises: the diluent storage barrel (401) is fixedly mounted on the barrel fixing seat (402), and the sealing sliding sheet (404) is slidably mounted on the connecting sleeve (403).

6. A paint dilution apparatus according to claim 1, wherein: the first motor (201) is a double-head motor.

7. A paint dilution apparatus according to claim 1, wherein: the second motor (206) is a fixed power motor.

8. A paint dilution apparatus according to claim 5, wherein: a sealing plastic film is arranged at the joint of the diluent storage barrel (401) and the connecting sleeve (403), and the lower end of the plastic film is fixedly connected with the input lantern ring (105).

9. A paint dilution apparatus according to claim 1, wherein: an opening is arranged at the joint of the connecting sleeve (403) and the input collar 105.

10. A paint dilution apparatus according to claim 5, wherein: the joint of the sealing sliding sheet (404) and the connecting sleeve 403 is provided with a spring.