CN217431507U - Automatic feeding device for anticorrosive paint production - Google Patents

Abstract

The utility model relates to a coating processing technology field especially relates to an automatic feeder for anticorrosive paint production. The technical scheme comprises the following steps: feed bucket and control box, install agitator motor in the middle of the feed bucket top, the agitator motor output shaft runs through the feed bucket top and installs the (mixing) shaft through flange one, install the stirring rake on the (mixing) shaft, be equipped with the discharge gate in the middle of the feed bucket bottom, install solenoid valve on the discharge gate, the welding of discharge gate bottom has the feed pipe, feed pipe right-hand member bottom discharge gate department installs the blown down tank, the inside ejection of compact impeller that is equipped with of feed pipe, the fixed plate is installed to feed bucket bottom left end, the feed motor is installed in the fixed plate left side, feed motor output shaft runs through the fixed plate and passes through flange two and be connected with ejection of compact impeller pivot. The utility model discloses a coating to feeder bucket and conveying pipeline heats the heat preservation, makes the viscosity reduction attach on its inner wall under the coating temperature portion, can not cause equipment to block up, has improved the life of production efficiency and equipment.

Description

Automatic feeding device for anticorrosive paint production

Technical Field

The utility model relates to a coating processing technology field specifically is an automatic feeder for anticorrosive paint production.

Background

The anticorrosive coating is generally divided into a conventional anticorrosive coating and a heavy anticorrosive coating, and is an essential coating in paint coatings. The conventional anticorrosive paint plays a role in corrosion resistance on metals and the like under general conditions, and protects the service life of nonferrous metals; the heavy-duty anticorrosive coating is an anticorrosive coating which can be applied in a relatively severe corrosive environment compared with a conventional anticorrosive coating and has a longer protection period than the conventional anticorrosive coating.

When the existing anticorrosive coating feeding device is used, because the coating has high viscosity, the temperature of the coating can be reduced in the process of conveying the coating, so that the high-viscosity coating is adhered to the wall of the equipment pipe, the equipment is blocked, the production efficiency is reduced, and the service life of the equipment is shortened.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic feeder for anticorrosive paint production, what possess through heating the coating to feed bin and conveying pipeline and keep warm, make the viscosity reduction attach on its inner wall under the coating temperature portion can not cause equipment to block up, improved the life advantage of production efficiency and equipment, solved the problem of mentioning in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic feeding device for producing anticorrosive paint comprises a feeding barrel and a control box, wherein a stirring motor is arranged in the middle of the top of the feeding barrel, a feeding hopper is arranged on the left side of the stirring motor, an output shaft of the stirring motor penetrates through the top of the feeding barrel and is provided with a stirring shaft through a first flange, a stirring paddle is arranged on the stirring shaft, a heating cavity is arranged at the bottom of the feeding barrel, a heating wire II is arranged in the heating cavity, a discharging hole is arranged in the middle of the bottom of the feeding barrel and is provided with an electromagnetic valve, a feeding pipe is welded at the bottom of the discharging hole, a discharging groove is arranged at the bottom of the right end of the feeding pipe, a discharging impeller is arranged in the feeding pipe, rotating shafts at two ends of the discharging impeller are fixed through bearing seats, a fixing plate is arranged at the left end of the bottom of the feeding barrel, a feeding motor is arranged at the left side of the fixing plate, an output shaft of the feeding motor penetrates through the fixing plate and is connected with the rotating shaft of the discharging impeller through the second flange, the feeding pipe is sleeved with a heating pipe, and a first heating wire is installed in the heating pipe.

Preferably, the four corners of the bottom end of the feeding barrel are provided with supporting legs, and the four supporting legs are distributed in an annular array. Through setting up four supporting legs, realize carrying out the outrigger to the feed bucket.

Preferably, the control box is installed at the lower end of the right side of the feeding barrel and is electrically connected with the first heating wire, the second heating wire, the electromagnetic valve, the feeding motor and the stirring motor respectively. Through setting up the control box, the realization is convenient for overall control coating feed work.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a set up heating wire one and heating wire two, during the use, the heating wire two-way electricity of heating intracavity heats the heat preservation to the coating of feed bin, makes the coating of feed bin inner wall can not become dry adhesion on it, and a heating wire circular telegram in the heating tube heats the heat preservation to the coating that gets into in the feed tube, and the coating of feed tube inner wall can not become dry adhesion on it to the realization can not cause equipment to block up, has improved the life of production efficiency and equipment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is an appearance diagram of the present invention.

In the figure: 1. heating a tube; 2. a first electric heating wire; 3. a feed pipe; 4. a discharge impeller; 5. a discharge port; 6. A second flange; 7. a fixing plate; 8. a feed motor; 9. an electromagnetic valve; 10. a heating cavity; 11. supporting legs; 12. a second electric heating wire; 13. a feeding barrel; 14. a stirring shaft; 15. a stirring paddle; 16. a feed hopper; 17. A stirring motor; 18. a first flange; 19. a control box; 20. a bearing seat; 21. a discharge chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 2, the utility model provides an automatic feeding device for anticorrosive paint production, which comprises: an automatic feeding device for anticorrosive paint production comprises a feeding barrel 13 and a control box 19, wherein four corners of the bottom end of the feeding barrel 13 are provided with supporting legs 11, the four supporting legs 11 are distributed in an annular array, the middle of the top of the feeding barrel 13 is provided with a stirring motor 17, the left side of the stirring motor 17 is provided with a feeding hopper 16, an output shaft of the stirring motor 17 penetrates through the top of the feeding barrel 13 and is provided with a stirring shaft 14 through a flange I18, the stirring shaft 14 is provided with a stirring paddle 15, the bottom of the feeding barrel 13 is provided with a heating cavity 10, and a heating wire II 12 is arranged in the heating cavity 10; when the heating device is used, coating is added into the feeding barrel 13 from the feeding hopper 16, the stirring motor 17 is started through the control box 19, the heating wire two 12 in the heating cavity 10 is electrified and heated, the stirring shaft 14 is driven to rotate by the flange one 18 when the stirring motor 17 works, the stirring shaft 14 rotates to drive the stirring paddle 15 to stir the coating, the viscosity of the coating is reduced, and the heating wire two 12 in the heating cavity 10 heats and preserves the temperature of the coating in the feeding barrel 13, so that the coating on the inner wall of the feeding barrel 13 cannot be dried and adhered to the heating wire two 12.

A discharge port 5 is arranged in the middle of the bottom of a feeding barrel 13, an electromagnetic valve 9 is installed on the discharge port 5, a feeding pipe 3 is welded at the bottom of the discharge port 5, a discharge chute 21 is installed at a discharge port at the bottom of the right end of the feeding pipe 3, a discharge impeller 4 is arranged inside the feeding pipe 3, rotating shafts at two ends of the discharge impeller 4 are fixed through a bearing seat 20, a fixing plate 7 is installed at the left end of the bottom of the feeding barrel 13, a feeding motor 8 is installed on the left side of the fixing plate 7, an output shaft of the feeding motor 8 penetrates through the fixing plate 7 and is connected with the rotating shaft of the discharge impeller 4 through a flange II 6, a heating pipe 1 is sleeved on the feeding pipe 3, and a heating wire I2 is installed in the heating pipe 1; open solenoid valve 9 through control box 19, start feeding motor 8 and to 2 circular telegrams to the heating wire, solenoid valve 9 is opened, coating in the feed bucket 13 enters into in the feeder pipe 3 from discharge opening 5, feeding motor 8 work drives ejection of compact impeller 4 and rotates and carry coating, then add into coating reaction unit from blown down tank 21, heating pipe 1 interior heating wire 2 circular telegrams heat preservation to the coating that gets into in the feeder pipe 3, the coating of 3 inner walls of feeder pipe can not become dry adhesion on it. The control box 19 is arranged at the lower end of the right side of the feeding barrel 13, and the control box 19 is electrically connected with the first heating wire 2, the second heating wire 12, the electromagnetic valve 9, the feeding motor 8 and the stirring motor 17 respectively.

The utility model discloses all motors choose for use small-size servo motor-14 HS2408 model to design, and this model motor only refers to as affiliated technical field personnel and chooses for use, and affiliated technical field personnel can carry out the motor of matching the same parameter and function according to the actual production needs and install the debugging and use, the utility model discloses do not describe repeatedly.

The working principle is as follows: when the utility model is used, paint is added into the feeding barrel 13 from the feeding hopper 16, the stirring motor 17 is started through the control box 19, the heating wire two 12 in the heating chamber 10 is electrified and heated, the stirring motor 17 drives the stirring shaft 14 to rotate through the flange one 18, the stirring shaft 14 rotates to drive the stirring paddle 15 to stir the paint, the viscosity of the paint is reduced, the heating wire two 12 in the heating chamber 10 heats and preserves the temperature of the paint in the feeding barrel 13, so that the paint on the inner wall of the feeding barrel 13 cannot be dried and adhered on the surface, then the control box 19 is used for opening the electromagnetic valve 9, the feeding motor 8 is started and the heating wire one 2 is electrified, the electromagnetic valve 9 is opened, the paint in the feeding barrel 13 enters the feeding pipe 3 from the discharging port 5, the feeding motor 8 works to drive the discharging impeller 4 to rotate to convey the paint, and then the paint is added into the paint reaction device from the discharging groove 21, the heating wire 2 circular telegram in the heating pipe 1 heats the coating that gets into in the feeder pipe 3 and keeps warm, and the coating of the 3 inner walls of feeder pipe can not become dry adhesion on it to the realization can not cause equipment to block up, has improved the life of production efficiency and equipment.

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 (3)

1. The utility model provides an automatic feeder for anticorrosive paint production, includes feed barrel (13) and control box (19), its characterized in that: install agitator motor (17) in the middle of feed bucket (13) top, be located agitator motor (17) left side and install feeder hopper (16), agitator motor (17) output shaft runs through feed bucket (13) top and installs (mixing) shaft (14) through flange one (18), installs stirring rake (15) on (mixing) shaft (14), and feed bucket (13) bottom has been seted up and has been heated chamber (10), installs heating wire two (12) in heating chamber (10), be equipped with discharge opening (5) in the middle of feed bucket (13) bottom, install solenoid valve (9) on discharge opening (5), and the welding of discharge opening (5) bottom has feed pipe (3), and feed pipe (3) right-hand member bottom discharge opening department installs blown down tank (21), and feed pipe (3) inside is equipped with ejection of compact impeller (4), and ejection of compact impeller (4) both ends pivot is fixed through bearing frame (20), fixed plate (7) are installed to feed bucket (13) bottom left end, a feeding motor (8) is installed on the left side of the fixing plate (7), an output shaft of the feeding motor (8) penetrates through the fixing plate (7) and is connected with a rotating shaft of the discharging impeller (4) through a second flange (6), a heating pipe (1) is sleeved on the feeding pipe (3), and a first heating wire (2) is installed in the heating pipe (1).

2. The automatic feeding device for the production of the anticorrosive paint according to claim 1, characterized in that: supporting legs (11) are installed at four corners of the bottom end of the feeding barrel (13), and the four supporting legs (11) are distributed in an annular array.

3. The automatic feeding device for the production of the anticorrosive paint according to claim 1, characterized in that: the control box (19) is installed at the lower end of the right side of the feeding barrel (13), and the control box (19) is electrically connected with the heating wire I (2), the heating wire II (12), the electromagnetic valve (9), the feeding motor (8) and the stirring motor (17) respectively.

Images