CN211608185U - High temperature resistance fodder spraying device - Google Patents

Abstract

The utility model discloses a high temperature resistant feed spraying device, which comprises a base, wherein a cooling mechanism, a multi-axial mechanism and a coating supply device are arranged on the base, the coating supply device is connected with a spraying nozzle through a flow inlet pipe, the spraying nozzle and the coating supply device are also connected with a return pipe, and a peristaltic motor is arranged on the return pipe; the cooling mechanism includes cooling box, the first thing chamber of putting, the second thing chamber of putting, first annular water course, second annular water course, through-hole and rivers circulation portion of putting, multiaxis is to the mechanism including rotating part, pars contractilis and nozzle holder. The utility model discloses simple structure can carry out the operation in high temperature environment, satisfies the requirement of fodder spraying operation.

Description

High temperature resistance fodder spraying device

Technical Field

The utility model belongs to the technical field of a spraying equipment technique and specifically relates to a high temperature resistant fodder spraying device is related to.

Background

The spraying operation of the surface of the coated object is a treatment mode with decoration and anti-oxidation functions, and the spraying is a coating method of dispersing into uniform and fine fog drops by a spray gun or a disc type atomizer with the help of pressure or centrifugal force and applying the fog drops on the surface of the coated object. It can be divided into air spraying, airless spraying, electrostatic spraying and various derivatives of the above basic spraying forms, such as high flow low pressure atomized spraying, thermal spraying, automatic spraying, multiple spray groups, etc.

However, the spraying equipment in the prior art is usually only suitable for being used in a normal temperature environment, and cannot meet some spraying operations with special requirements, for example, for spraying of feed, because the temperature in the feed manufacturing process is high, the spraying operation is also completed in a high temperature environment in order to ensure the nutritional value of the feed, and therefore, a high-temperature resistant feed spraying device needs to be designed.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model adopts the technical scheme that the utility model provides a high temperature resistant feed spraying device, which comprises a base, wherein a cooling mechanism, a multi-axial mechanism and a coating supply device are arranged on the base, the coating supply device is connected with a spraying nozzle through a flow inlet pipe, the spraying nozzle and the coating supply device are also connected with a return pipe, and a peristaltic motor is arranged on the return pipe;

the cooling mechanism comprises a cooling box, a first object placing cavity, a second object placing cavity, a first annular water channel, a second annular water channel, through holes and a water flow circulating part, the cooling box is installed on the upper surface of the base, the first object placing cavity and the second object placing cavity are sequentially arranged in the cooling box from bottom to top, two through holes are formed between the first object placing cavity and the second object placing cavity, the coating supply device is installed in the first object placing cavity, the peristaltic motor is installed in the second object placing cavity, the flow inlet pipe and the return pipe extend into the second object placing cavity and are connected with the coating supply device in a penetrating manner, the first annular water channel is arranged on the side surface of the cooling box and is positioned at the first object placing cavity, the second annular water channel is arranged on the side surface of the cooling box and is positioned at the second object placing cavity, the first annular water channel and the second annular water channel are respectively connected with the water flow circulating part;

multiaxial mechanism includes rotating part, pars contractilis and nozzle holder, the rotating part is installed the thing intracavity is put to the second, just the rotating part with the pars contractilis links to each other, the pars contractilis stretches out the cooling box with nozzle holder links to each other, the spraying mouth is installed on the nozzle holder.

Preferably, the water circulation part comprises a water tank, a backflow cooling device, a filter, a first water inlet pipe, a first water return pipe, a first water pump, a second water inlet pipe, a second water return pipe and a second water pump;

the water tank the backward flow heat sink and the filter is installed in proper order on the base, just the filter respectively with the water tank with the backward flow heat sink links to each other, the water tank passes through first inlet tube with the one end of first annular water course links to each other, the backward flow heat sink passes through first wet return with the other end of first annular water course links to each other, just first water pump is installed first inlet tube, the water tank passes through the second inlet tube with the one end of second annular water course links to each other, the backward flow heat sink passes through the second wet return with the other end of second annular water course links to each other, just the second water pump is installed the second inlet tube.

Preferably, the rotating part includes first mounting groove, rotating electrical machines and revolving stage, the second has been seted up first mounting groove on putting the interior lower surface in thing chamber, rotating electrical machines installs in the first mounting groove, rotating electrical machines's rotatory end with the revolving stage links to each other.

Further preferably, the telescopic part comprises a second mounting groove and a telescopic motor, the upper surface of the rotary table is provided with the second mounting groove, the telescopic motor is mounted in the second mounting groove, and the telescopic end of the telescopic motor is connected with the nozzle support.

Preferably, the four corners of the lower surface of the base are provided with supporting columns, and the lower surfaces of the supporting columns are provided with shock pads.

Preferably, the inlet pipe and the return pipe are both telescopic pipes, and the inlet pipe and the return pipe are made of high-temperature resistant materials.

Compared with the prior art, the utility model discloses an advantage lies in with positive effect, adopts cooling mechanism to cool down the processing to fodder spraying device, simple structure, and convenient operation, and the spraying part in this device can realize angle, height's regulation, has improved spraying operating efficiency, can use in high temperature environment, has satisfied the higher requirement of fodder preparation process temperature.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of a high-temperature-resistant feed spraying device provided in this embodiment;

fig. 2 is a partial enlarged view of the high-temperature resistant feed spraying device provided in this embodiment;

fig. 3 is a schematic connection diagram of a water circulation part of the high temperature resistant feed spraying device provided in this embodiment, which includes a water tank, a reflux cooling device and a filter;

shown in the figure: 1. a base; 2. a paint supply device; 3. an inlet pipe; 4. a spray nozzle; 5. a return pipe; 6. a peristaltic motor; 7. a cooling box; 8. a first object placing cavity; 9. a second storage cavity; 10. a first annular waterway; 11. a second annular waterway; 12. a through hole; 13. a water tank; 14. a reflux cooling device; 15. a filter; 16. a first water inlet pipe; 17. a first water return pipe; 18. a first water pump; 19. a second water inlet pipe; 20. a second water return pipe; 21. a second water pump; 22. a first mounting groove; 23. a rotating electric machine; 24. a rotating table; 25. a second mounting groove; 26. a telescopic motor; 27. a support pillar; 28. a shock pad; 29. a nozzle holder.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the present invention is not limited to the limitations of the specific embodiments of the present disclosure.

In the embodiment, as can be seen from fig. 1 to 3 of the specification, the high-temperature-resistant feed spraying device comprises a base 1, wherein a cooling mechanism, a multi-axial mechanism and a coating supply device 2 are mounted on the base 1, the coating supply device 2 is connected with a spraying nozzle 4 through a flow inlet pipe 3, the spraying nozzle 4 and the coating supply device 2 are further connected with a return pipe 5, and a peristaltic motor 6 is arranged on the return pipe 5;

the cooling mechanism comprises a cooling box 7, a first object placing cavity 8, a second object placing cavity 9, a first annular water channel 10, a second annular water channel 11, through holes 12 and a water flow circulating part, wherein the cooling box 7 is installed on the upper surface of the base 1, the first object placing cavity 8 and the second object placing cavity 9 are sequentially opened in the cooling box 7 from bottom to top, two through holes 12 are formed between the first object placing cavity 8 and the second object placing cavity 9, the coating supply device 2 is installed in the first object placing cavity 8, the peristaltic motor 6 is installed in the second object placing cavity 9, the inflow pipe 3 and the backflow pipe 5 extend into the second object placing cavity 9 and are connected with the coating supply device 2 in a penetrating manner, the first annular water channel 10 is opened on the side surface of the cooling box 7 and located at the first object placing cavity 8, the second annular water channel 11 is opened on the side surface of the cooling box 7 and located at the second object placing cavity 9, the first annular water channel 10 and the second annular water channel 11 are respectively connected with the water flow circulating part;

multiaxial mechanism includes rotating part, pars contractilis and nozzle support 29, the rotating part is installed the second is put in thing chamber 9, just the rotating part with the pars contractilis links to each other, the pars contractilis stretches out cooling box 7 with nozzle support 29 links to each other, spraying mouth 4 is installed on nozzle support 29.

Therefore, when the utility model is used for spraying feed, the peristaltic motor 6 works to make the coating in the coating supply device 2 enter the spraying nozzle 4 on the nozzle bracket 29 through the inflow pipe 3, the spraying nozzle 4 sprays feed, and the return pipe 5 returns the residual coating into the coating supply device 2, in the process, the angle of the spraying nozzle 4 can be adjusted through the rotating part, and the height of the spraying nozzle 4 can be adjusted through the telescopic part; meanwhile, the coating supply device 2 and the peristaltic motor 6 are respectively arranged in a first object containing cavity 8 and a second object containing cavity 9 in the cooling box 7, the coating supply device 2 in the first object containing cavity 8 is cooled through the first annular water channel 10 and the water flow circulating part, so that the coating supply device is always kept in a proper temperature range, the peristaltic motor 6 in the second object containing cavity 9 is cooled through the second annular water channel 11 and the water flow circulating part, so that the coating supply device 2 and the peristaltic motor 6 are always kept in a proper temperature range, and the heat energy generated by the coating supply device 2 and the peristaltic motor 6 is different greatly, so that the coating supply device and the peristaltic motor are respectively arranged in the two cavities, and the electric energy is further saved.

The water flow circulating part comprises a water tank 13, a backflow cooling device 14, a filter 15, a first water inlet pipe 16, a first water return pipe 17, a first water pump 18, a second water inlet pipe 19, a second water return pipe 20 and a second water pump 21;

the water tank 13 the backward flow heat sink 14 and filter 15 installs in proper order on the base 1, just filter 15 respectively with the water tank 13 with the backward flow heat sink 14 links to each other, the water tank 13 passes through first inlet tube 16 with the one end of first annular water course 10 links to each other, the backward flow heat sink 14 passes through first wet return 17 with the other end of first annular water course 10 links to each other, just first water pump 18 is installed first inlet tube 16, the water tank 13 passes through second inlet tube 19 with the one end of second annular water course 11 links to each other, the backward flow heat sink 14 passes through second wet return 20 with the other end of second annular water course 11 links to each other, just second water pump 21 installs second inlet tube 19.

It can be known from the above that, rivers circulation portion adopts water tank 13, backward flow heat sink 14 and filter 15 combine together, when lowering the temperature to first thing chamber 8, first water pump 18 operation, with the water in the water tank 13 through first inlet tube 16 suction to first annular water course 10 in, and by first return pipe 17 backward flow to backward flow heat sink 14, circulate to water tank 13 after the cooling process of backward flow heat sink 14 and the filtration of filter 15, when lowering the temperature to second thing chamber 9, the operation of second water pump 21, with the water in the water tank 13 through second inlet tube 19 suction to second annular water course 11, and by second return pipe 20 backward flow to backward flow heat sink 14, circulate to water tank 13 after the cooling process of backward flow heat sink 14 and the filtration of filter 15, thereby realize the circulation of water, can the water economy resource.

The rotating part includes first mounting groove 22, rotating electrical machines 23 and revolving stage 24, first mounting groove 22 has been seted up on the interior lower surface of thing chamber 9 is put to the second, rotating electrical machines 23 is installed in first mounting groove 22, rotating electrical machines 23's rotatory end with revolving stage 24 links to each other.

As described above, when the angle of the coating nozzle 4 is adjusted, the rotary motor 23 installed in the first installation groove 22 is operated, and the rotary end thereof drives the rotary table 24 to rotate, thereby adjusting the angle of the coating nozzle 4.

On this basis, the flexible portion includes second mounting groove 25 and flexible motor 26, open the upper surface of revolving stage 24 the second mounting groove 25, flexible motor 26 is installed in the second mounting groove 25, flexible end of flexible motor 26 with nozzle holder 29 links to each other.

As described above, when the height of the coating nozzle 4 is adjusted, the telescopic motor 26 installed in the second installation groove 25 is operated, and the telescopic end is extended or shortened, and since the telescopic end of the telescopic motor 26 is connected to the nozzle holder 29, the height of the coating nozzle 4 can be changed.

The lower surface four corners department of base 1 all is equipped with support column 27, be equipped with shock pad 28 on the lower surface of support column 27.

From the above, in order to reduce the impact of the feed spraying device on the ground in the operation process, the lower surface of the supporting column 27 on the base 1 is also provided with a shock absorption pad 28.

The inlet pipe 3 and the return pipe 5 are both telescopic pipes, and the inlet pipe 3 and the return pipe 5 are made of high-temperature-resistant materials.

From the above, since the angle and height of the spraying nozzle 4 can be adjusted, in order to meet the requirement, the corresponding inlet pipe 3 and the corresponding return pipe 5 are both telescopic pipes, and the length can be changed accordingly, and in addition, the inlet pipe 3 and the return pipe 5 are made of high temperature resistant materials, so that the requirement of high temperature resistance is further met.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may use the above-mentioned technical contents to change or modify the equivalent embodiment into equivalent changes and apply to other fields, but any simple modification, equivalent change and modification made to the above embodiments according to the technical matters of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims (6)

1. A high-temperature-resistant feed spraying device comprises a base (1), and is characterized in that a cooling mechanism, a multi-axial mechanism and a coating supply device (2) are mounted on the base (1), the coating supply device (2) is connected with a spraying nozzle (4) through a flow inlet pipe (3), the spraying nozzle (4) and the coating supply device (2) are also connected with a return pipe (5), and a peristaltic motor (6) is arranged on the return pipe (5);

the cooling mechanism comprises a cooling box (7), a first object placing cavity (8), a second object placing cavity (9), a first annular water channel (10), a second annular water channel (11), a through hole (12) and a water flow circulating part, wherein the cooling box (7) is installed on the upper surface of the base (1), the first object placing cavity (8) and the second object placing cavity (9) are sequentially opened in the cooling box (7) from bottom to top, two through holes (12) are opened between the first object placing cavity (8) and the second object placing cavity (9), the coating supply device (2) is installed in the first object placing cavity (8), the peristaltic motor (6) is installed in the second object placing cavity (9), the inflow pipe (3) and the backflow pipe (5) extend into the second object placing cavity (9) and penetrate through the through hole (12) to be connected with the coating supply device (2), a first annular water channel (10) is formed in the position, located in the first object placing cavity (8), on the side surface of the cooling box (7), a second annular water channel (11) is formed in the position, located in the second object placing cavity (9), on the side surface of the cooling box (7), and the first annular water channel (10) and the second annular water channel (11) are respectively connected with the water flow circulating part;

multiaxial mechanism includes rotating part, pars contractilis and nozzle support (29), the rotating part is installed in thing chamber (9) is put to the second, just the rotating part with the pars contractilis links to each other, the pars contractilis stretches out cooling box (7) with nozzle support (29) link to each other, install spraying mouth (4) on nozzle support (29).

2. The high-temperature-resistant feed spraying device as claimed in claim 1, wherein the water circulation part comprises a water tank (13), a return cooling device (14), a filter (15), a first water inlet pipe (16), a first water return pipe (17), a first water pump (18), a second water inlet pipe (19), a second water return pipe (20) and a second water pump (21);

the water tank (13), the backflow cooling device (14) and the filter (15) are sequentially installed on the base (1), the filter (15) is respectively connected with the water tank (13) and the backflow cooling device (14), the water tank (13) is connected with one end of the first annular water channel (10) through the first water inlet pipe (16), the backflow cooling device (14) is connected with the other end of the first annular water channel (10) through the first water return pipe (17), the first water pump (18) is installed on the first water inlet pipe (16), the water tank (13) is connected with one end of the second annular water channel (11) through the second water inlet pipe (19), the backflow cooling device (14) is connected with the other end of the second annular water channel (11) through the second water return pipe (20), and the second water pump (21) is arranged on the second water inlet pipe (19).

3. The high-temperature-resistant feed spraying device as claimed in claim 1, wherein the rotating part comprises a first mounting groove (22), a rotating motor (23) and a rotating platform (24), the first mounting groove (22) is formed on the inner lower surface of the second accommodating cavity (9), the rotating motor (23) is mounted in the first mounting groove (22), and the rotating end of the rotating motor (23) is connected with the rotating platform (24).

4. The high-temperature-resistant feed spraying device as claimed in claim 3, wherein the telescopic part comprises a second mounting groove (25) and a telescopic motor (26), the second mounting groove (25) is formed in the upper surface of the rotating platform (24), the telescopic motor (26) is mounted in the second mounting groove (25), and the telescopic end of the telescopic motor (26) is connected with the nozzle bracket (29).

5. The high-temperature-resistant feed spraying device as claimed in claim 1, wherein supporting columns (27) are arranged at four corners of the lower surface of the base (1), and shock absorbing pads (28) are arranged on the lower surfaces of the supporting columns (27).

6. The high-temperature-resistant feed spraying device as claimed in claim 1, wherein the inlet pipe (3) and the return pipe (5) are both telescopic pipes, and the material of the inlet pipe (3) and the material of the return pipe (5) are high-temperature-resistant materials.

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