CN210945531U - Tea-seed oil processing is with subsiding oil conveyor that leads - Google Patents

Abstract

The utility model discloses a tea-seed oil processing is with subsiding and leading oily transmission device, including loading a section of thick bamboo and oil storage tank, bottom one side of loading a section of thick bamboo is connected with into oil pipe, and the one end that advances oil pipe runs through the bottom that gets into loading a section of thick bamboo and is connected with the annular tube, and the top of annular tube is connected with a plurality of dispenser head. The internally mounted of dispenser head has slewing mechanism, and slewing mechanism includes two sets of curb plates and a plurality of rotor plate, installs a plurality of rotor plate between two sets of curb plates, and one side of rotor plate is provided with a plurality of recess, and the slewing mechanism both ends are all rotated through the pivot and are installed in the inside of dispenser head. When the height that highly is less than the oil storage tank of oil extraction pipe, open the valve in the connecting pipe in proper order for the inside oil of loading section of thick bamboo can be discharged through the whole outward pans of oil extraction pipe, can adapt to different work demands. And when loading the inside oil extraction of a section of thick bamboo, but the starter motor passes through the dwang and drives a section of thick bamboo of loading and rock, and then can make things convenient for inside oil to enter into the inside of arranging the oil pipe.

Description

Tea-seed oil processing is with subsiding oil conveyor that leads

Technical Field

The utility model relates to a lead oily transmission device, concretely relates to tea-seed oil processing is with subsiding and leading oily transmission device belongs to tea-seed oil transportation application.

Background

The camellia oil (also known as wild camellia oil, tea seed oil, and camellia oil seed oil) is obtained from seeds of camellia tree. The camellia oil is prepared through the steps of shelling, drying in the sun, crushing, steaming, oil pressing and filtering, and the whole process is a physical method, so that the camellia oil is real pure natural green edible oil. The tea oil does not contain erucic acid, cholesterol, aflatoxin and other additives. Tests show that the tea oil contains more than 90% of unsaturated fatty acid, 80-83% of oleic acid and 7-13% of linoleic acid, and is rich in protein, vitamin A, B, D, E and the like, and particularly, the rich linolenic acid contained in the tea oil is necessary for human bodies and cannot be synthesized.

However, the prior oil guiding and conveying device for camellia oil still has certain defects in use. When the existing oil guide transmission device transmits camellia oil, impurities in the oil are not easy to remove and need to be removed through multiple times of sedimentation. The sedimentation tank occupies a large space and has large limitation in use. The height of the oil discharge pipe cannot be adjusted according to the height of the oil level, the oil discharge pipe is arranged at the bottom, impurities in the oil can be discharged outwards along with the oil, and the camellia oil cannot be discharged completely when the oil discharge pipe is arranged at the upper part. The camellia oil can not be diluted in the flowing process, the inside of the transmission device can not be washed, the purification and flowing efficiency of the camellia oil is affected, and the quality of the camellia oil is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a tea-seed oil processing is with subsiding lead oily transmission device can solve current lead oily transmission device when transmitting the camellia oil, and the inside impurity of oil is difficult for getting rid of, needs to get rid of through depositing many times. The sedimentation tank occupies a large space and has large limitation in use. The height of the oil discharge pipe cannot be adjusted according to the height of the oil level, the oil discharge pipe is arranged at the bottom, impurities in the oil can be discharged outwards along with the oil, and the camellia oil cannot be discharged completely when the oil discharge pipe is arranged at the upper part. The camellia oil can not be diluted in the flowing process, the inside of the transmission device can not be washed, the purification and flowing efficiency of the camellia oil is influenced, and the quality of the camellia oil is not high.

The purpose of the utility model can be realized by the following technical scheme:

the utility model provides a tea-seed oil processing is with subsiding and leading oily transmission device, is including loading a section of thick bamboo and oil storage tank, bottom one side of loading a section of thick bamboo is connected with into oil pipe, and the one end that advances oil pipe runs through the bottom that gets into loading a section of thick bamboo and is connected with the annular tube, and the top of annular tube is connected with a plurality of dispersion head.

The internally mounted of dispenser head has slewing mechanism, and slewing mechanism includes two sets of curb plates and a plurality of rotor plate, installs a plurality of rotor plate between two sets of curb plates, and one side of rotor plate is provided with a plurality of recess, and the slewing mechanism both ends are all rotated through the pivot and are installed in the inside of dispenser head.

Two groups of partition plates are installed below the interior of the loading barrel, one ends of the partition plates are all communicated with through holes, a circulation pipeline is vertically installed at the middle end above the interior of the loading barrel, the bottom of the circulation pipeline and the edges of the partition plates are all in sealing connection with the inner wall of the loading barrel, a one-way valve is installed between the bottom of the circulation pipeline and the loading barrel, and the circulation direction of the one-way valve faces the bottom.

The filter is installed to the top that loads a section of thick bamboo and flow through the pipeline, the bottom of filter is rotated and is connected with two sets of baffles, the top of loading a section of thick bamboo is connected with the oil storage tank, and one side of oil storage tank is connected with the back flow, and the bottom of back flow with advance oil pipe and be connected.

The opposite side of loading a section of thick bamboo is connected with the memotron, and the below side of memotron and the loading between a section of thick bamboo through connection have a plurality of connecting pipe, and the internally mounted of connecting pipe has the valve, and one side swing joint of memotron has an oil extraction pipe, oil extraction pipe is connected with the floating plate above the inside one end of memotron, and oil extraction pipe's the other end through connection has the elastic plate, and elastic plate swing joint is in one side of memotron.

Preferably, both sides of the loading cylinder are connected with slag discharge pipes, one side of the bottom of the loading cylinder is connected with a cleaning pipe, and the slag discharge pipes are respectively arranged on one side above the bottom of the partition plate and between the bottom of the circulating pipeline and the side wall of the loading cylinder; the end of the connecting pipe is connected below the circulating pipeline and the clapboard.

Preferably, the bottom of the loading barrel is rotatably installed in the installation seat, two sides of the interior of the installation seat are both connected with limiting springs, and the end parts of the limiting springs are connected with the side face of the bottom of the loading barrel.

Preferably, the inside of mount pad is rotated and is installed the dwang, and one side that the mount pad was run through to the one end of dwang is connected with the motor, and the bottom middle-end of loading a section of thick bamboo is connected with the fixed head, fixed head and dwang fixed connection.

Preferably, an oil pump is installed at the joint of the inside of the oil inlet pipe and the loading barrel, the oil pump is installed between the return pipe and the loading barrel, and the other end of the return pipe is connected with a collecting cover on the upper portion of the filter plate.

Preferably, the bottom of baffle is passed through the jack and is pegged graft and have the picture peg, and the top is passed through adjusting bolt and is rotated the inside of connecting at the support, and the top of support and the bottom fixed connection of filter.

Preferably, one side of holding tube is provided with the shifting chute along length direction, and the inside both sides in shifting chute all are provided with the sliding tray along length direction, and the equal slidable mounting in the inside of sliding tray in both sides of elastic plate, and the upper and lower both ends in elastic plate upper and lower all through damping spring connection shifting chute.

Preferably, the both sides of elastic plate all are connected with sealed the pad, and sealed slip mounting is in the inside of sliding tray, and the thickness that sealed pad matches with the thickness of sliding tray.

The utility model has the advantages that:

1. through the end connection dispersion head at the oil pipe that advances, and at the internally mounted slewing mechanism of dispersion head for the oil pipe will advance in the work is connected with the oil-out of the machinery that extracts oil, and the oil after the machinery that extracts oil squeezes enters into the inside of loading a section of thick bamboo from advancing oil pipe. The camellia oil enters the annular pipe when flowing inside the oil inlet pipe, and is sprayed outwards from the inside of the plurality of dispersion heads on the upper part of the annular pipe. The camellia oil receives slewing mechanism's dispersion in inside, obtains comprehensive mixing stirring, and the dispersion of the inside impurity of camellia oil is difficult for blockking up the dispenser head, makes things convenient for subsequent flow. When camellia oil and slewing mechanism contact, mobile oil and rotor plate contact strike the rotor plate, and the rotor plate receives the impact force after and rotates in the inside of dispenser head through the pivot, and a plurality of rotor plate mixes the stirring to mobile oil. And a plurality of grooves on one side of the rotating plate are contacted with the oil, and impurities in the oil are accumulated in the grooves, so that the impurities in the camellia oil can be removed, and the quality of the camellia oil can be improved. The rotating mechanism can be driven to operate without using electric power, and energy consumption is saved.

2. Through the two sets of baffles of internally mounted at the loading tube, the camellia oil after dispersion enters the bottom of the loading tube, and then enters the middle part of the loading tube from the through hole at one end of the lower baffle, the camellia oil is accumulated between the two baffles, and finally the camellia oil flows upwards from the through hole at one end of the upper baffle. The camellia oil flows upwards from the bottom and is limited by the blocking of the two inclined partition plates, the flowing speed is reduced, impurities in the camellia oil are precipitated downwards in the flowing process due to the different positions of the two through holes and are accumulated at the bottom of the partition plates, and the purified camellia oil flows upwards from the flowing pipeline.

3. Through the internally mounted circulation pipeline at the loading barrel for camellia oil upflow's in-process, partly oil directly gets into the inside of filter from the circulation pipeline, gets into the inside of oil storage tank after filtering, and another part oil receives blockking of oil storage tank bottom both sides baffle, and backward flow enters into between the inner wall of circulation pipeline and loading barrel, filters and enters into the bottom of circulation pipeline from the check valve through the filter screen. The oil after filtering can wash the inside of loading a section of thick bamboo, can dilute the oil of inside again. The flowing performance of the camellia oil in the camellia oil is improved, the purification efficiency of the camellia oil can be improved, and internal reflux is formed.

4. Through connecting back flow and storage tube in one side of oil storage tank, the inside that gets into the inside camellia oil of oil storage tank partly enters into the inside of collecting the cover, and then enters into the inside of back flow, and the inside that the camellia oil of another part enters into the storage tube. The oil that enters into the oil pipe from the back flow after purifying mixes with the oil that has just squeezed, dilutes the camellia oil that has just squeezed, and can wash the inside of advancing the oil pipe for inside difficult accumulation impurity can make its circulation smooth and easy, and follow-up clean simple. The in-process of oil extraction, the height of oil extraction pipe can reciprocate in the side of storage tube along with the height of oil level, and then can discharge oil is whole, and the oil on upper portion of discharging all the time, impurity deposits in the below, and the in-process of oil extraction can be got rid of impurity as far as, guarantees the quality of camellia oil.

5. Through at the memotron and load a plurality of connecting pipe between a section of thick bamboo for when arranging oil pipe from the inside oil extraction of oil storage tank, the valve in the connecting pipe of below is closed, avoids loading the inside that a section of thick bamboo inside entered into the memotron, makes the oil after the purification just can outwards discharge. If the height that highly is less than the oil storage tank of oil extraction pipe, open the valve in the connecting pipe in proper order for the inside oil of loading section of thick bamboo can be discharged to the outer dish through the whole of oil extraction pipe, can adapt to different work demands. And when loading the inside oil extraction of a section of thick bamboo, but the starter motor passes through the dwang and drives a section of thick bamboo of loading and rock, and then can make things convenient for inside oil to enter into the inside of arranging the oil pipe.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the loading cylinder of the present invention.

Fig. 3 is a schematic view of the baffle structure of the present invention.

Fig. 4 is a schematic diagram of the ring-shaped structure of the present invention.

Fig. 5 is a schematic view of the structure of the rotating mechanism of the present invention.

Fig. 6 is a schematic view of the storage tube structure of the present invention.

Fig. 7 is a schematic view of the installation structure of the oil discharge pipe and the loading cylinder of the present invention.

Fig. 8 is an enlarged view of a detail a in fig. 7 according to the present invention.

Fig. 9 is a schematic diagram of the structure of the elastic plate of the present invention.

Fig. 10 is a schematic view of the internal structure of the mounting base of the present invention.

In the figure: 1. a loading cartridge; 2. a slag discharge pipe; 3. a mounting seat; 4. cleaning the pipe; 5. an oil pump; 6. an oil inlet pipe; 7. a return pipe; 8. an oil storage tank; 9. a collection hood; 10. a one-way valve; 11. a flow conduit; 12. a baffle plate; 13. a filter plate; 14. a through hole; 15. a partition plate; 16. an annular tube; 17. a fixed head; 18. a support; 19. adjusting the bolt; 20. inserting plates; 21. a jack; 22. a dispersion head; 23. a groove; 24. a rotating mechanism; 25. a side plate; 26. a rotating shaft; 27. a storage tube; 28. an oil discharge pipe; 29. a valve; 30. a connecting pipe; 31. a floating plate; 32. a damping spring; 33. a gasket; 34. an elastic plate; 35. a sliding groove; 36. rotating the rod; 37. a motor; 38. and a limiting spring.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-10, a settling oil guiding and transferring device for processing tea oil comprises a loading cylinder 1 and an oil storage tank 8, wherein one side of the bottom end of the loading cylinder 1 is connected with an oil inlet pipe 6, one end of the oil inlet pipe 6 penetrates into the bottom of the loading cylinder 1 and is connected with an annular pipe 16, and the top of the annular pipe 16 is connected with a plurality of dispersion heads 22;

a rotating mechanism is arranged inside the dispersion head 22, the rotating mechanism comprises two groups of side plates 25 and a plurality of rotating plates 24, the plurality of rotating plates 24 are arranged between the two groups of side plates 25, a plurality of grooves 23 are formed in one side of each rotating plate 24, and two ends of the rotating mechanism are rotatably arranged inside the dispersion head 22 through rotating shafts 26;

two groups of partition plates 15 are arranged below the interior of the loading barrel 1, one ends of the partition plates 15 are all provided with through holes 14 in a penetrating mode, a circulation pipeline 11 is vertically arranged at the middle end of the upper portion of the interior of the loading barrel 1, the bottom of the circulation pipeline 11 and the edges of the partition plates 15 are all connected with the inner wall of the loading barrel 1 in a sealing mode, a one-way valve 10 is arranged between the bottom of the circulation pipeline 11 and the loading barrel 1, and the circulation direction of the one-way valve 10 faces the bottom;

a filter plate 13 is arranged above the flow pipeline 11 of the loading cylinder 1, the bottom of the filter plate 13 is rotatably connected with two groups of baffle plates 12, the top of the loading cylinder 1 is connected with an oil storage tank 8, one side of the oil storage tank 8 is connected with a return pipe 7, and the bottom of the return pipe 7 is connected with an oil inlet pipe 6;

the other side of loading a section of thick bamboo 1 is connected with storage tube 27, and it has a plurality of connecting pipe 30 to link up between the below side of storage tube 27 and the loading section of thick bamboo 1, and the internally mounted of connecting pipe 30 has valve 29, and one side swing joint of storage tube 27 has oil extraction pipe 28, and oil extraction pipe 28 is connected with floating plate 31 in the inside one end top of storage tube 27, and the other end through connection of oil extraction pipe 28 has elastic plate 34, and elastic plate 34 swing joint is in one side of storage tube 27.

The two sides of the loading cylinder 1 are both connected with slag discharge pipes 2, one side of the bottom of the loading cylinder is connected with a cleaning pipe 4, and the slag discharge pipes 2 are respectively arranged on one side above the bottom of the partition plate 15 and between the bottom of the circulating pipeline 11 and the side wall of the loading cylinder 1; the end of the connecting pipe 30 is connected to the lower part of the circulation pipe 11 and the lower part of the partition 15, the slag discharging pipe 2 can discharge the impurities accumulated on the upper part of the partition 15, and the connecting pipe 30 can discharge the oil at the bottom.

The bottom of the loading cylinder 1 is rotatably installed in the mounting seat 3, the limiting springs 38 are connected to two sides of the inside of the mounting seat 3, the end portions of the limiting springs 38 are connected with the side face of the bottom of the loading cylinder 1, the upper damping spring 32 pushes the elastic plate 34 downwards, and the lower damping spring 32 pulls the elastic plate 34 downwards, so that the height of the oil discharge pipe 28 can move up and down along with the height of the oil surface on the side face of the storage pipe 27.

The inside of mount pad 3 is rotated and is installed dwang 36, and one side that mount pad 3 was run through to the one end of dwang 36 is connected with motor 37, and the bottom middle-end of a loading section of thick bamboo 1 is connected with fixed head 17, fixed head 17 and dwang 36 fixed connection, and motor 37 can drive dwang 36 and rotate, and then the bottom that drives a loading section of thick bamboo 1 rotates.

The inside of advancing oil pipe 6 and the junction of loading a section of thick bamboo 1 install oil pump 5, and oil pump 5 installs between a back flow 7 and a loading section of thick bamboo 1, and the other end of back flow 7 is connected with on the upper portion of filter 13 and collects cover 9, and oil pump 5 can be to back flow 7 with advance the inside oil of oil pipe 6 and aspirate for the flow of oil, and collect cover 9 and increase the scope that back flow 7 collected the camellia oil.

The bottom of baffle 12 is pegged graft through jack 21 and is had picture peg 20, and the top is passed through adjusting bolt 19 and is rotated the inside of connecting in support 18, and the top of support 18 and the bottom fixed connection of filter 13, picture peg 20 can increase the length of baffle 12, increases the efficiency that blocks. The inclination angle of baffle 12 can be adjusted freely, and different inclination angles, the effect that blocks are different, adapts to different work demands.

One side of holding tube 27 is provided with the shifting chute along length direction, and the inside both sides in shifting chute all are provided with sliding tray 35 along length direction, and the equal slidable mounting in sliding tray 35 in both sides of elastic plate 34, and the upper and lower both ends of elastic plate 34 upper and lower all connecting the shifting chute through damping spring 32, and shifting chute and sliding tray 35 can be spacing to elastic plate 34, can make things convenient for it to reciprocate again.

The two sides of the elastic plate 34 are connected with the sealing gaskets 33, the sealing gaskets 33 are slidably mounted inside the sliding grooves 35, the thickness of the sealing gaskets 33 is matched with that of the sliding grooves 35, and the sealing gaskets 33 seal inside the sliding grooves 35, so that oil inside the storage pipe 27 cannot leak outwards from the sliding grooves 35 when the elastic plate 34 moves.

The utility model discloses when using, will advance oil pipe 6 and be connected with the oil-out of the machinery that extracts oil, the oil after the machinery that extracts oil squeezes enters into the inside of loading a section of thick bamboo 1 from advancing oil pipe 6. The camellia oil enters the annular pipe 16 when flowing inside the oil inlet pipe 6, and is sprayed outwards from the inside of a plurality of dispersion heads 22 at the upper part of the annular pipe 16. The camellia oil is dispersed by the rotating mechanism inside to obtain comprehensive mixing and stirring, and the dispersing head 22 is not easily blocked by the dispersion of impurities inside the camellia oil, so that the subsequent flowing is convenient.

When the camellia oil contacts with the rotating mechanism, the flowing oil contacts with the rotating plate 24 to impact the rotating plate 24, the rotating plate 24 rotates inside the dispersion head 22 through the rotating shaft 26 after receiving the impact force, and the plurality of rotating plates 24 mix and stir the flowing oil. And the grooves 23 on one side of the rotating plate 24 are contacted with the oil, impurities in the oil are accumulated in the grooves 23, the impurities in the camellia oil can be removed, and the quality of the camellia oil can be improved. The rotating mechanism can be driven to operate without using electric power, and energy consumption is saved.

The dispersed camellia oil enters the bottom of the loading cylinder 1, enters the middle of the loading cylinder 1 from the through hole 14 at one end of the lower partition plate 15, is accumulated between the two partition plates 15, and finally flows upwards from the through hole 14 at one end of the upper partition plate 15. The camellia oil flows upwards from the bottom, and the flowing speed is reduced through the blocking limitation of the two inclined partition plates 15, the impurities in the camellia oil in the flowing process are precipitated downwards due to the different positions of the two through holes 14 and are accumulated at the bottom of the partition plates 15, and the purified camellia oil flows upwards from the flowing pipeline 11.

In the upward flowing process of camellia oil, one part of oil directly enters the inside of the filter plate 13 from the circulating pipeline 11, enters the inside of the oil storage tank 8 after being filtered, and the other part of oil is blocked by the baffles 12 at two sides of the bottom of the oil storage tank 8, flows back downwards, enters between the circulating pipeline 11 and the inner wall of the loading cylinder 1, is filtered by the filter screen and enters the bottom of the circulating pipeline 11 from the one-way valve 10. The filtered oil can wash the inside of the loading barrel 1 and can dilute the oil inside. The flowing performance of the camellia oil in the camellia oil is improved, the purification efficiency of the camellia oil can be improved, and internal reflux is formed.

A part of the camellia oil entering the oil storage tank 8 enters the collecting cover 9 and further enters the return pipe 7, and the other part of the camellia oil enters the storage pipe 27. The oil after purifying enters into the inside of advancing oil pipe 6 from back flow pipe 7 and mixes with the oil of squeezing just, dilutes the camellia oil of squeezing just, and can wash the inside of advancing oil pipe 6 for inside is difficult for accumulation impurity, can make its circulation smooth and easy, and follow-up clean simple.

And the oil inside the oil reservoir tank 8 enters the inside of the reserve pipe 27 and is discharged outward from the oil discharge pipe 28. In-process of oil extraction, it floats on the upper portion of camellia oil to float board 31, oil extraction pipe 28 submergence is in the inside of oil, and damping spring 32 on upper portion promotes elastic plate 34 downwards, damping spring 32 of lower part pulls elastic plate 34 downwards, make oil extraction pipe 28 highly can reciprocate in the side of reserve tube 27 along with the height of oil level, and then can discharge oil is whole, and the oil on upper portion of discharging all the time, impurity deposits in the below, the in-process of oil extraction can get rid of impurity as far as, guarantee the quality of camellia oil.

When the oil discharge pipe 28 discharges oil from the inside of the oil storage tank 8, the valve 29 in the lower connecting pipe 30 is closed, so that the oil inside the loading cylinder 1 is prevented from entering the inside of the storage pipe 27, and the purified oil can be discharged to the outside. If the height of the oil discharge pipe 28 is lower than that of the oil storage tank 8, the valves 29 in the connecting pipes 30 are sequentially opened, so that the oil in the loading cylinder 1 can be completely discharged to the outer disk through the oil discharge pipe 28, and different working requirements can be met.

And when the interior of the loading cylinder 1 discharges oil, the startable motor 37 drives the loading cylinder 1 to rock through the rotating rod 36, so that the oil inside can conveniently enter the interior of the oil discharge pipe 28. When the oil of different qualities was discharged, use different containers to hold, can distinguish different quality oil. After the camellia oil is transported and discharged, the cleaning liquid is poured into the oil inlet pipe 6 to clean the inside, the residue discharge pipe 2 and the cleaning pipe 4 are opened at last, impurities in the oil are discharged outwards, and the oil can be efficiently used again.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The settling oil guide transmission device for processing the tea oil is characterized by comprising a loading cylinder (1) and an oil storage tank (8), wherein one side of the bottom end of the loading cylinder (1) is connected with an oil inlet pipe (6), one end of the oil inlet pipe (6) penetrates into the bottom of the loading cylinder (1) and is connected with an annular pipe (16), and the top of the annular pipe (16) is connected with a plurality of dispersion heads (22);

a rotating mechanism is arranged inside the dispersing head (22) and comprises two groups of side plates (25) and a plurality of rotating plates (24), the plurality of rotating plates (24) are arranged between the two groups of side plates (25), a plurality of grooves (23) are formed in one side of each rotating plate (24), and two ends of each rotating mechanism are rotatably arranged inside the dispersing head (22) through rotating shafts (26);

two groups of partition plates (15) are arranged below the interior of the loading barrel (1), through holes (14) are formed in one ends of the partition plates (15) in a penetrating mode, a circulation pipeline (11) is vertically arranged at the middle end of the upper portion of the interior of the loading barrel (1), the bottom of the circulation pipeline (11) and the edge of the partition plate (15) are connected with the inner wall of the loading barrel (1) in a sealing mode, a one-way valve (10) is arranged between the bottom of the circulation pipeline (11) and the loading barrel (1), and the circulation direction of the one-way valve (10) faces to the bottom;

a filter plate (13) is arranged above the flow pipeline (11) of the loading cylinder (1), the bottom of the filter plate (13) is rotatably connected with two groups of baffle plates (12), the top of the loading cylinder (1) is connected with an oil storage tank (8), one side of the oil storage tank (8) is connected with a return pipe (7), and the bottom of the return pipe (7) is connected with an oil inlet pipe (6);

the opposite side of loading a section of thick bamboo (1) is connected with storage tube (27), and the below side of storage tube (27) and loading have a plurality of connecting pipe (30) between a section of thick bamboo (1) through connection, and the internally mounted of connecting pipe (30) has valve (29), and one side swing joint of storage tube (27) has oil extraction pipe (28), oil extraction pipe (28) are connected with above the one end of storage tube (27) inside and float board (31), and the other end through connection of oil extraction pipe (28) has elastic plate (34), and elastic plate (34) swing joint is in one side of storage tube (27).

2. The settling oil guide and transmission device for processing the tea oil according to claim 1, wherein two sides of the loading cylinder (1) are connected with slag discharge pipes (2), one side of the bottom of the loading cylinder is connected with a cleaning pipe (4), and the slag discharge pipes (2) are respectively arranged on one side above the bottom of the partition plate (15) and between the bottom of the circulating pipeline (11) and the side wall of the loading cylinder (1); the end of the connecting pipe (30) is connected to the lower part of the circulation pipeline (11) and the lower part of the clapboard (15).

3. The settling oil guide and transmission device for processing the tea oil as claimed in claim 1, wherein the bottom of the loading cylinder (1) is rotatably mounted inside the mounting seat (3), both sides inside the mounting seat (3) are connected with limiting springs (38), and the end parts of the limiting springs (38) are connected with the side surface of the bottom of the loading cylinder (1).

4. The settling oil guide and transmission device for processing the tea oil as claimed in claim 3, wherein a rotating rod (36) is rotatably mounted inside the mounting seat (3), one end of the rotating rod (36) penetrates through one side of the mounting seat (3) and is connected with a motor (37), the middle end of the bottom of the loading cylinder (1) is connected with a fixing head (17), and the fixing head (17) is fixedly connected with the rotating rod (36).

5. The settling oil guide and transmission device for processing the tea oil according to claim 1, wherein an oil pump (5) is installed at the joint of the inside of the oil inlet pipe (6) and the loading cylinder (1), the oil pump (5) is installed between the return pipe (7) and the loading cylinder (1), and the other end of the return pipe (7) is connected with a collection cover (9) on the upper part of the filter plate (13).

6. The settling oil guide and transmission device for processing the tea oil as claimed in claim 1, wherein the bottom of the baffle (12) is inserted with an insertion plate (20) through an insertion hole (21), the top of the baffle is rotatably connected inside the bracket (18) through an adjusting bolt (19), and the top of the bracket (18) is fixedly connected with the bottom of the filter plate (13).

7. The settling oil guide and transmission device for processing the tea oil as claimed in claim 1, wherein a moving groove is formed in one side of the storage pipe (27) along the length direction, sliding grooves (35) are formed in two sides of the inner portion of the moving groove along the length direction, two sides of the elastic plate (34) are slidably mounted in the sliding grooves (35), and the upper end and the lower end of the moving groove are connected through damping springs (32) on the upper portion and the lower portion of the elastic plate (34).

8. The settling, oil-guiding and conveying device for processing the tea oil as claimed in claim 1, wherein the two sides of the elastic plate (34) are both connected with sealing gaskets (33), the sealing gaskets (33) are slidably mounted inside the sliding groove (35), and the thickness of the sealing gaskets (33) is matched with that of the sliding groove (35).

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