CN210569805U - Processing equipment is used in tea-seed oil production with dry function of disturbance - Google Patents

Abstract

The utility model provides a processing equipment with disturbance drying function for tea-seed oil production, which comprises a shell, wherein a bearing plate is fixedly connected inside the shell, the bearing plate is obliquely arranged towards the lower right side, a contact part between the right end of the bearing plate and the shell is provided with a blanking through hole, a first cavity is arranged inside the bearing plate, the upper surface of the first cavity is uniformly provided with a plurality of air outlet bodies, and the first cavity is communicated with a hot air inlet device; a disturbance drying device is arranged in the shell above the bearing plate and communicated with a hot air inlet device; the casing left side wall fixedly connected with circulation drying casing, first through-hole and second through-hole have been seted up respectively to the contact department of circulation drying casing bottom and top and casing. The utility model discloses it is to have following beneficial effect: inside hot-blast spherical shell shape convex closure that enters into from first cavity, then followed the opening part effluvium, carried out even effectual drying process to the tea seed of moving on the loading board.

Description

Processing equipment is used in tea-seed oil production with dry function of disturbance

Technical Field

The utility model relates to a tea-seed oil production technical field especially, relates to a processing equipment is used in tea-seed oil production with disturbance drying function.

Background

The tea seed oil is also called camellia oil, tea pear oil (Fujian common name), wild camellia oil, camellia oil and tea oil tree seed oil. Camellia is a special local product of Dabie mountain, Fujian, Jiangxi, Hunan (Channing) and the like in China, and high-quality camellia oil, namely tea seed oil, can be extracted from fruits. The method comprises the following steps: and (5) squeezing. Is obtained from seeds of Camellia oleifera. The tea seed oil production process comprises the following steps: squeezing oil, and filtering. The second method comprises the following steps: and (5) performing subcritical extraction. The subcritical low-temperature extraction technology comprises the steps of shelling tea seeds (with the water content of 10-15%), crushing, rolling, subcritical low-temperature extraction and oil refining to obtain finished tea seed oil. The oil tea seed oil does not contain erucic acid, cholesterol, aflatoxin and other additives. Through the test: the oil tea seed oil contains unsaturated fatty acid up to 90%, oleic acid up to 80-83%, linoleic acid up to 7-13%, and is rich in protein, vitamin A, B, D, E, etc., especially rich linolenic acid essential for human body and incapable of being synthesized.

The raw material of the tea seed oil is tea seeds, and the tea seeds need to be screened before being squeezed, so that particle impurities in the tea seeds and small tea seeds with poor quality can be removed. The current screening method still adopts a screen to screen the screen, and because the current screen is generally a standing screen or a micro-dynamic screen driven by a vibrating motor, the screening effect of the current screen cannot meet the actual requirement; meanwhile, the tea seeds falling on the screen mesh do not have a disturbance function, so that the tea seeds are easy to accumulate on the screen mesh, and the screening effect is influenced.

Disclosure of Invention

An object of the utility model is to provide a rectangular form timber is with cutting equipment based on ratchet pawl cooperation feeding formula to solve the problem that proposes in the above-mentioned background art.

In order to achieve the purpose, the utility model provides a processing device with disturbance drying function for tea seed oil production, which comprises a shell, wherein a bearing plate is fixedly connected inside the shell, the bearing plate is obliquely arranged towards the lower right side, a blanking through hole is arranged at the contact part of the right end of the bearing plate and the shell, a first cavity is formed inside the bearing plate, a plurality of air outlet bodies are uniformly arranged on the upper surface of the first cavity, and the first cavity is communicated with a hot air inlet device; a disturbance drying device is arranged in the shell above the bearing plate and communicated with a hot air inlet device; the casing left side wall fixedly connected with circulation drying casing, first through-hole and second through-hole have been seted up respectively to the contact department of circulation drying casing bottom and top and casing, the inside first pivot that is provided with of circulation drying casing, first pivot top and the first motor output shaft fixed connection who is located circulation drying casing upside have arranged spiral auger in the first pivot.

As the utility model discloses a further effect is: the air outlet body comprises a spherical shell-shaped convex hull, the opening of the spherical shell-shaped convex hull is arranged towards the right side, and the interior of the spherical shell-shaped convex hull is communicated with the interior of the first cavity through an air outlet hole.

As the utility model discloses a further effect is again: the spherical shell-shaped convex hull is equal to one fourth of the spherical shell with the same diameter.

As the utility model discloses a further effect is again: the disturbance drying device comprises a moving plate, a second cavity is formed in the moving plate, a plurality of disturbance plates are uniformly arranged on the lower side of the moving plate, an air outlet channel is formed in the disturbance plate, and the air outlet channel is communicated with the interior of the second cavity; the upper side of the moving plate is connected with two moving plate driving devices, each moving plate driving device comprises a supporting seat, the supporting seat is fixedly connected with the upper side of the moving plate, a first connecting rod is movably hinged to the supporting seat, two second rotating shafts are erected on the front side wall and the rear side wall of the shell, the outer end of one second rotating shaft is fixedly connected with an output shaft of a second motor, one second rotating shaft is fixedly connected with a second connecting rod, the second connecting rod is movably hinged to a fourth connecting rod through a first hinge, and the first connecting rod is fixedly connected with the fourth connecting rod; and the other second rotating shaft is fixedly connected with a third connecting rod, and the third connecting rod is movably hinged with the other end of the fourth connecting rod through a second hinge.

As the utility model discloses a further effect is again: the motion plate and the bearing plate are arranged in parallel.

As the utility model discloses a further effect is again: the disturbing plate is perpendicular to the moving plate.

As the utility model discloses a further effect is again: the hot air inlet device comprises a vertical shell, a horizontal shell and a spherical shell, wherein the bottom end of the vertical shell and the left end of the horizontal shell are both communicated with the spherical shell, a third rotating shaft is arranged inside the spherical shell, the third rotating shaft is erected on the side wall of the spherical shell, the rear end of the third rotating shaft is fixedly connected with an output shaft of a third motor, the third rotating shaft is positioned inside the spherical shell and fixedly connected with a fan-shaped rotating disc, and a horizontal column is fixedly connected to the upper edge of the fan-shaped rotating disc; a first moving plate is arranged in the vertical shell, a connecting block is fixedly connected to the lower side of the first moving plate, a first linkage rod is rotatably connected to the connecting block through a pin shaft, and the lower end of the first linkage rod is rotatably connected with the horizontal column; a second moving plate is arranged in the horizontal shell, the left side of the second moving plate is fixedly connected with a connecting block, a second linkage rod is rotatably connected to the connecting block through a pin shaft, and the left end of the second linkage rod is rotatably connected with the horizontal column; the heating box is fixedly connected to the upper side of the horizontal shell, heating resistance wires are arranged in the heating box, the heating box is respectively communicated with the vertical shell and the horizontal shell through two air outlet pipes, and air outlet one-way valves are arranged on the air outlet pipes; the top of the vertical shell is communicated with the inside of the first cavity through a first air inlet pipe, the right part of the horizontal shell is communicated with the inside of the second cavity through a second air inlet pipe, and air inlet one-way valves are arranged on the first air inlet pipe and the second air inlet pipe.

As the utility model discloses a further effect is again: the bottom in the shell is provided with a flow guide ramp which is obliquely arranged towards the left lower part, and the hot air inlet device is communicated with the flow guide ramp through a support frame.

As the utility model discloses a further effect is again: the top of the shell is provided with a charging hopper, the bottom of the left side of the shell is provided with a discharge channel, and the discharge channel is provided with a valve.

The utility model discloses it is to have following beneficial effect:

firstly, hot air enters the spherical shell-shaped convex hull from the first cavity and then is emitted from the opening, and tea seeds moving on the bearing plate are uniformly and effectively dried;

secondly, at the same time, the opening of the spherical-shell-shaped convex hull faces the right, so that tea seeds and impurities cannot enter the first cavity through the spherical-shell-shaped convex hull and the air outlet hole, and the first cavity is prevented from being blocked;

the third rotating shaft and the second rotating shaft drive the second connecting rod to do circular motion, the second connecting rod drives the moving plate to do reciprocating motion through the third connecting rod, the fourth connecting rod and the first connecting rod, when the disturbance plate is in contact with the bearing plate, the disturbance plate can disturb tea seeds on the bearing plate, and meanwhile hot air in the second cavity can also uniformly act on the tea seeds through the air outlet channel, so that the drying effect of the tea seeds is better;

thirdly, the first moving plate extrudes hot air, and the hot air enters the first cavity through the first air inlet pipe, so that the supply of the hot air is realized; the second moving plate extrudes the horizontal hot air, and the hot air enters the second cavity through the second air inlet pipe, so that the supply of the hot air is realized;

fourthly, the spiral auger drives the tea seeds at the bottom in the circular drying shell to move upwards, and the tea seeds enter the shell again through the second through hole and fall onto the bearing plate to perform secondary disturbance mixing action.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of the air outlet body according to the preferred embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a turbulent drying apparatus according to a preferred embodiment of the present invention;

fig. 4 is a schematic structural view of a driving device of a sports board according to a preferred embodiment of the present invention;

FIG. 5 is a schematic structural view of a hot air intake device according to a preferred embodiment of the present invention;

fig. 6 is a schematic view of the preferred embodiment of the present invention from direction a in fig. 5;

Detailed Description

The embodiments of the invention will be described in detail hereinafter with reference to the accompanying drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

Referring to fig. 1 and 2, in the present embodiment, a processing apparatus for producing tea seed oil with a disturbing drying function includes a housing 1, a bearing plate 2 is fixedly connected inside the housing 1, the bearing plate 2 is disposed in an inclined manner towards the lower right, a blanking through hole 4 is disposed at a contact position of the right end of the bearing plate 2 and the housing, a first cavity 3 is disposed inside the bearing plate 2, a plurality of air outlets 5 are uniformly disposed on the upper surface of the first cavity 3, the first cavity 3 is communicated with a hot air inlet device 7, the air outlets 5 include spherical convex hulls 501, openings of the spherical convex hulls 501 are disposed towards the right side, the interiors of the spherical convex hulls 501 are communicated with the interiors of the first cavity 3 through air outlet holes 502, when tea seeds fall on the bearing plate 2 and move towards the lower right, hot air enters the spherical convex hulls 501 from the first cavity 3 and then is emitted from the openings, carrying out uniform and effective drying treatment on the tea seeds moving on the bearing plate 2; meanwhile, the opening of the spherical convex hull 501 is arranged towards the right, so that tea seeds and impurities cannot enter the first cavity 3 through the spherical convex hull 501 and the air outlet 502, and the first cavity 3 is prevented from being blocked;

the spherical shell shaped convex hull 501 is equal to one quarter of the size of a spherical shell with the same diameter.

Referring to fig. 1, 3 and 4, a disturbance drying device 6 is arranged inside a housing 1 above a bearing plate 2, the disturbance drying device 6 is communicated with a hot air intake device 7, the disturbance drying device 6 includes a moving plate 601, a second cavity 602 is formed inside the moving plate 601, a plurality of disturbance plates 603 are uniformly arranged on the lower side of the moving plate 601, an air outlet channel 604 is formed inside the disturbance plates 603, and the air outlet channel 604 is communicated with the inside of the second cavity 602; the upper side of the motion plate 601 is connected with two motion plate driving devices 605, each motion plate driving device 605 comprises a supporting seat 6051, each supporting seat 6051 is fixedly connected with the upper side of the motion plate 601, each supporting seat 6051 is movably hinged with a first connecting rod 6052, two second rotating shafts 6053 are erected on the front side wall and the rear side wall of the shell 1, the outer end of one second rotating shaft 6053 is fixedly connected with a second motor output shaft, one second rotating shaft 6053 is fixedly connected with a second connecting rod 6056, each second connecting rod 6056 is movably hinged with a fourth connecting rod 6057 through a first hinge 6058, and each first connecting rod 6082 is fixedly connected with the fourth connecting rod 6057; another one fixedly connected with third connecting rod 6054 on the second pivot 6053, third connecting rod 6054 passes through second hinge 6055 and fourth connecting rod 6057's other end activity hinge, and when the tea seed moved along loading board 2 below to the right, in order to further improve tea seed and hot-blast contact homogeneity again, here is provided with disturbance drying device 6, and its specific way is: the second motor is started, the second motor drives the second rotating shaft 6053 to rotate, the second rotating shaft 6053 drives the second connecting rod 6056 to do circular motion, the second connecting rod 6056 drives the moving plate 601 to do reciprocating motion through the third connecting rod 6054, the fourth connecting rod 6057 and the first connecting rod 6052, when the disturbing plate 603 is in contact with the bearing plate 2, the disturbing plate 603 can disturb tea seeds on the bearing plate 2, and meanwhile, hot air in the second cavity 602 can also uniformly act on the tea seeds through the air outlet channel 604, so that the drying effect of the tea seeds is better;

the moving plate 601 is disposed parallel to the carrier plate 2, and the disturbing plate 603 is disposed perpendicular to the moving plate 601.

Referring to fig. 1, a circulation drying casing 10 is fixedly connected to the left side wall of the casing 1, a first through hole 11 and a second through hole 12 are respectively formed at the contact positions of the bottom end and the top end of the circulation drying casing 10 and the casing 1, the inside first pivot 13 that is provided with of circulation drying casing 10, first pivot 13 top and the first motor 14 output shaft fixed connection who is located circulation drying casing 10 upside, spiral auger 15 has been arranged in first pivot 13, the tea seed through once drying enters into circulation drying casing 10 inside through first through-hole 11, start first motor 14, first motor 14 drives first pivot 13 and rotates, first pivot 13 drives spiral auger 15 and rotates, spiral auger 15 drives the tea seed upward movement of bottom in the circulation drying casing 10, and re-enters the interior of the housing 1 through the second through-hole 12 and falls to the carrier plate 2 for a further turbulent mixing action.

Referring to fig. 1, 5 and 6, the hot air intake device 7 includes a vertical housing 701, a horizontal housing 702 and a spherical housing 703, the bottom end of the vertical housing 701 and the left end of the horizontal housing 702 are both communicated with the spherical housing 703, a third rotating shaft 704 is disposed inside the spherical housing 703, the third rotating shaft 704 is erected on the side wall of the spherical housing 703, the rear end of the third rotating shaft 704 is fixedly connected with an output shaft of a third motor, the third rotating shaft 704 is located inside the spherical housing 703 and fixedly connected with a sector-shaped rotating disc 705, and the upper edge of the sector-shaped rotating disc 705 is fixedly connected with a horizontal column 706; a first moving plate 707 is arranged in the vertical shell 701, a connecting block 708 is fixedly connected to the lower side of the first moving plate 707, a first linkage rod 709 is rotatably connected to the connecting block 708 through a pin 7011, and the lower end of the first linkage rod 709 is rotatably connected to the horizontal column 706; a second moving plate 7010 is arranged inside the horizontal shell 702, a connecting block 708 is fixedly connected to the left side of the second moving plate 7010, a second linkage rod 7012 is rotatably connected to the connecting block 708 through a pin 7011, and the left end of the second linkage rod 7012 is rotatably connected to the horizontal column 706; the upper side of the horizontal shell 702 is fixedly connected with a heating box 7013, a heating resistance wire 7014 is arranged inside the heating box 7013, the heating box 7013 is respectively communicated with the vertical shell 701 and the inside of the horizontal shell 702 through two air outlet pipes 7015, and an air outlet one-way valve 7016 is arranged on the air outlet pipes 7015; the top of the vertical shell 701 is communicated with the inside of the first cavity 3 through a first air inlet pipe 7017, the right part of the horizontal shell 702 is communicated with the inside of the second cavity 602 through a second air inlet pipe 7019, air inlet check valves 7018 are arranged on the first air inlet pipe 7017 and the second air inlet pipe 7019, a hot air inlet device 7 is arranged here in order to guarantee the supply of hot air in the first cavity 3 and the inside of the second cavity 602, and the specific working process is as follows: the heating resistance wire 7014 is electrified, and the air is heated after the heating resistance wire 7014 is electrified, so that hot air is generated; simultaneously, a third motor is started, the third motor drives a third rotating shaft 704 to rotate, the third rotating shaft 704 drives a sector-shaped rotating disc 705 to rotate, the sector-shaped rotating disc 705 enables a first moving plate 707 and a second moving plate 7010 to respectively reciprocate inside a vertical shell 701 and a horizontal shell 702 through a first linkage rod 709 and a second linkage rod 7012, when the first moving plate 707 moves downwards, the top of the vertical shell 701 is in a negative pressure state, hot air enters the top of the vertical shell 701 through an air outlet pipe 7015, then the first moving plate 707 moves upwards, the first moving plate 707 extrudes the hot air, and the hot air enters the first cavity 3 through a first air inlet pipe 7017, so that the hot air is supplied; when the second moving plate 7010 moves to the left, the right portion of the horizontal housing 702 is in a negative pressure state, hot air enters the right portion of the horizontal housing 702 through the air outlet pipe 7015, and then when the second moving plate 7010 moves to the right, the second moving plate 7010 extrudes the horizontal hot air, and the hot air enters the second cavity 602 through the second air inlet pipe 7019, so that the supply of the hot air is realized.

The bottom in the shell 1 is provided with a flow guide ramp 8 which is obliquely arranged towards the left lower part, and the hot air inlet device 7 is communicated with the flow guide ramp 8 through a support frame 9.

The top of the shell 1 is provided with a feeding hopper 16, the bottom of the left side of the shell 1 is provided with a discharging channel 17, and the discharging channel 17 is provided with a valve 18.

The utility model discloses a working process is: when the tea seeds fall on the bearing plate 2 and move to the lower right, hot air enters the spherical shell-shaped convex hull 501 from the first cavity 3 and then is emitted from the opening, and the tea seeds moving on the bearing plate 2 are uniformly and effectively dried; meanwhile, the opening of the spherical convex hull 501 is arranged towards the right, so that tea seeds and impurities cannot enter the first cavity 3 through the spherical convex hull 501 and the air outlet 502, and the first cavity 3 is prevented from being blocked;

when the tea seeds move to the lower right along the bearing plate 2, in order to further improve the contact uniformity of the tea seeds and the hot air, a disturbance drying device 6 is arranged at the position, and the specific method is as follows: the second motor is started, the second motor drives the second rotating shaft 6053 to rotate, the second rotating shaft 6053 drives the second connecting rod 6056 to do circular motion, the second connecting rod 6056 drives the moving plate 601 to do reciprocating motion through the third connecting rod 6054, the fourth connecting rod 6057 and the first connecting rod 6052, when the disturbing plate 603 is in contact with the bearing plate 2, the disturbing plate 603 can disturb tea seeds on the bearing plate 2, and meanwhile, hot air in the second cavity 602 can also uniformly act on the tea seeds through the air outlet channel 604, so that the drying effect of the tea seeds is better;

in order to ensure the supply of hot air inside the first cavity 3 and the second cavity 602, a hot air inlet device 7 is arranged here, and the specific working process is as follows: the heating resistance wire 7014 is electrified, and the air is heated after the heating resistance wire 7014 is electrified, so that hot air is generated; simultaneously, a third motor is started, the third motor drives a third rotating shaft 704 to rotate, the third rotating shaft 704 drives a sector-shaped rotating disc 705 to rotate, the sector-shaped rotating disc 705 enables a first moving plate 707 and a second moving plate 7010 to respectively reciprocate inside a vertical shell 701 and a horizontal shell 702 through a first linkage rod 709 and a second linkage rod 7012, when the first moving plate 707 moves downwards, the top of the vertical shell 701 is in a negative pressure state, hot air enters the top of the vertical shell 701 through an air outlet pipe 7015, then the first moving plate 707 moves upwards, the first moving plate 707 extrudes the hot air, and the hot air enters the first cavity 3 through a first air inlet pipe 7017, so that the hot air is supplied; when the second moving plate 7010 moves to the left, the right part of the horizontal housing 702 is in a negative pressure state, hot air enters the right part of the horizontal housing 702 through the air outlet pipe 7015, and then when the second moving plate 7010 moves to the right, the second moving plate 7010 extrudes the horizontal hot air, and the hot air enters the second cavity 602 through the second air inlet pipe 7019, so that the supply of the hot air is realized;

inside the once dry tea seed enters into circulation dry casing 10 through first through-hole 11, start first motor 14, first motor 14 drives first pivot 13 and rotates, and first pivot 13 drive spiral auger 15 rotates, and spiral auger 15 drives the tea seed upward movement of bottom in the circulation dry casing 10 to enter into casing 1 inside once more through second through-hole 12 and fall to loading board 2 and carry out disturbance mixing action once more.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and for those skilled in the art, the present invention can be modified and changed in various ways, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A processing device with a disturbance drying function for tea seed oil production comprises a shell and is characterized in that a bearing plate is fixedly connected inside the shell, the bearing plate is obliquely arranged towards the lower right side, a blanking through hole is formed in the contact position of the right end of the bearing plate and the shell, a first cavity is formed inside the bearing plate, a plurality of air outlet bodies are uniformly arranged on the upper surface of the first cavity, and the first cavity is communicated with a hot air inlet device; a disturbance drying device is arranged in the shell above the bearing plate and communicated with a hot air inlet device; the casing left side wall fixedly connected with circulation drying casing, first through-hole and second through-hole have been seted up respectively to the contact department of circulation drying casing bottom and top and casing, the inside first pivot that is provided with of circulation drying casing, first pivot top and the first motor output shaft fixed connection who is located circulation drying casing upside have arranged spiral auger in the first pivot.

2. The processing equipment with the disturbance drying function for the tea seed oil production as claimed in claim 1, wherein the air outlet body comprises spherical shell-shaped convex hulls, openings of the spherical shell-shaped convex hulls are all arranged towards the right side, and the interiors of the spherical shell-shaped convex hulls are communicated with the interiors of the first cavities through air outlet holes.

3. The processing equipment for tea seed oil production with the disturbance drying function as claimed in claim 2, wherein the spherical shell-shaped convex hull is equal to one quarter of the size of a spherical shell with the same diameter.

4. The processing equipment with the disturbance drying function for the tea seed oil production as claimed in claim 1, wherein the disturbance drying device comprises a moving plate, a second cavity is formed in the moving plate, a plurality of disturbance plates are uniformly arranged on the lower side of the moving plate, an air outlet channel is formed in the disturbance plate, and the air outlet channel is communicated with the interior of the second cavity; the upper side of the moving plate is connected with two moving plate driving devices, each moving plate driving device comprises a supporting seat, the supporting seat is fixedly connected with the upper side of the moving plate, a first connecting rod is movably hinged to the supporting seat, two second rotating shafts are erected on the front side wall and the rear side wall of the shell, the outer end of one second rotating shaft is fixedly connected with an output shaft of a second motor, one second rotating shaft is fixedly connected with a second connecting rod, the second connecting rod is movably hinged to a fourth connecting rod through a first hinge, and the first connecting rod is fixedly connected with the fourth connecting rod; and the other second rotating shaft is fixedly connected with a third connecting rod, and the third connecting rod is movably hinged with the other end of the fourth connecting rod through a second hinge.

5. The processing equipment with the disturbance drying function for tea seed oil production as claimed in claim 4, wherein the moving plate and the bearing plate are arranged in parallel.

6. The processing equipment for producing the tea seed oil with the disturbance drying function is characterized in that the disturbance plate is perpendicular to the moving plate.

7. The processing equipment with the disturbance drying function for the tea seed oil production as claimed in claim 1, wherein the hot air intake device comprises a vertical shell, a horizontal shell and a spherical shell, the bottom end of the vertical shell and the left end of the horizontal shell are both communicated with the spherical shell, a third rotating shaft is arranged inside the spherical shell, the third rotating shaft is erected on the side wall of the spherical shell, the rear end of the third rotating shaft is fixedly connected with an output shaft of a third motor, the third rotating shaft is positioned inside the spherical shell and fixedly connected with a fan-shaped rotating disc, and a horizontal column is fixedly connected to the upper edge of the fan-shaped rotating disc; a first moving plate is arranged in the vertical shell, a connecting block is fixedly connected to the lower side of the first moving plate, a first linkage rod is rotatably connected to the connecting block through a pin shaft, and the lower end of the first linkage rod is rotatably connected with the horizontal column; a second moving plate is arranged in the horizontal shell, the left side of the second moving plate is fixedly connected with a connecting block, a second linkage rod is rotatably connected to the connecting block through a pin shaft, and the left end of the second linkage rod is rotatably connected with the horizontal column; the heating box is fixedly connected to the upper side of the horizontal shell, heating resistance wires are arranged in the heating box, the heating box is respectively communicated with the vertical shell and the horizontal shell through two air outlet pipes, and air outlet one-way valves are arranged on the air outlet pipes; the top of the vertical shell is communicated with the inside of the first cavity through a first air inlet pipe, the right part of the horizontal shell is communicated with the inside of the second cavity through a second air inlet pipe, and air inlet one-way valves are arranged on the first air inlet pipe and the second air inlet pipe.

8. The processing equipment with the disturbing drying function for the tea seed oil production according to claim 7, wherein a flow guide ramp obliquely arranged towards the lower left is arranged at the bottom in the shell, and the hot air inlet device is communicated with the flow guide ramp through a support frame.

9. The processing equipment with the disturbing drying function for the tea seed oil production as claimed in claim 1, wherein a feeding hopper is arranged at the top of the shell, a discharging channel is arranged at the bottom of the left side of the shell, and a valve is arranged on the discharging channel.

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