CN115404123A - Peeling and frying device for oil pressing raw materials - Google Patents

Abstract

The invention discloses a peeling and frying device for oil pressing raw materials, which comprises a device base, wherein a heat-insulating shell is arranged at the upper end of the device base, a frying pot is arranged in the middle of the interior of the heat-insulating shell, a fluid fan is arranged at the lower end of the frying pot, a heat-insulating end cover is arranged at the upper end of the heat-insulating shell, a protective cover matched with the frying pot is arranged in the middle of the interior of the heat-insulating end cover, a peeling device is arranged in the middle of the interior of the protective cover, a rice husk separating device is arranged in the middle of the interior of the peeling device, a supporting pipeline is arranged at the upper end of the rice husk separating device, and a rotating groove is formed in one end, away from the protective cover, of the supporting pipeline. Has the advantages that: the effectual great gap that produces between messenger's cereal and the cereal, the heat of being convenient for can wrap up all surfaces of object through producing great gap because of the fluid makes between the material to be convenient for fry the dry and fragrant state with the material, thereby be convenient for improve the oil yield of material.

Description

Peeling and frying device for oil pressing raw materials

Technical Field

The invention relates to the technical field of oil pressing equipment, in particular to a peeling and frying device for oil pressing raw materials.

Background

Oil extraction, a term of agricultural science, is a process for converting crops such as peanuts into oil.

The ancient method oil extraction technology is a research technology, technology research experience is accumulated, each process of the traditional ancient method wood extraction is very researched, and the ancient method wood extraction technology has the key points such as duration, strength, time and the like. The complicated process of ancient oil extraction does not fade away gradually due to the lapse of time, but is continuously improved and refined, and the intelligent crystals of folk generation workers are condensed and innovated.

It is generally necessary to fry grains before oil extraction to improve oil extraction efficiency and reduce impurities in oil, and to remove the skin of grains such as peanuts during oil extraction to avoid a reduction in oil extraction rate.

SUMMARY OF THE PATENT FOR INVENTION

The invention provides a peeling and frying device for oil pressing raw materials, aiming at solving the technical problems in the prior art.

Therefore, the invention adopts the following specific technical scheme:

the utility model provides a system device is fried in desquamation of raw materials extracts oil, includes the device base, the upper end of device base is provided with heat preservation casing, heat preservation casing's inside middle part is provided with fries system pot, the lower extreme of frying system pot is provided with fluid fan, heat preservation casing's upper end is provided with the heat preservation end cover, the inside middle part of heat preservation end cover be provided with fry system pot matched with visor, the inside middle part of visor is provided with the husking device, the inside middle part of husking device is provided with chaff separator, chaff separator's upper end is provided with the support tube way, the support tube way is kept away from the one end of visor is provided with the turn-round groove, the one end in turn-round groove with heat preservation casing connects, fluid fan includes the fan casing, the inside lower extreme of fan casing is provided with first drive machine, first drive machine's upper end is provided with first air suction turbine, first air suction turbine's top be provided with the mounting panel that the fan casing is connected, the middle part of mounting panel be provided with first air suction turbine matched with device in coordination, the upper end in coordination of device in coordination is provided with the second air suction turbine, the inside edge of mounting panel be close to and with the second air suction turbine is provided with the corresponding position in coordination.

Further, the cooperation device include with the first face gear that first air intake turbine connects, the upper end of first face gear is provided with fixes the first transmission gear at mounting panel middle part, the upper end of first transmission gear be provided with the second face gear that the second air intake turbine is connected, the middle part of second air intake turbine be provided with the support pivot that the mounting panel is connected, just the middle part of mounting panel is provided with evenly distributed's air channel, just the upper end of fan casing is provided with the exhaust groove.

Furthermore, the cooperation guide plate comprises a first linkage shaft arranged below the mounting plate and connected with the fan shell, a first air deflector is arranged in the middle of the first linkage shaft, a second linkage shaft penetrating through the mounting plate in an inertial mode is arranged at the upper end of the mounting plate, a second air deflector is arranged in the middle of the second linkage shaft, a first bevel gear is arranged on one side, located on one side of the second linkage shaft, of the lower end of the mounting plate, and bevel gears matched with the first bevel gears are arranged at the adjacent ends of the first linkage shaft and the second linkage shaft.

Furthermore, the shelling device comprises an installation shell connected with the protective cover, a second transmission motor is arranged in the middle of the interior of the installation shell, a second transmission gear connected with the installation shell is arranged on one side of the second transmission motor, connecting pipes which are uniformly distributed are arranged on the periphery of the installation shell, a transmission groove is formed in the position, corresponding to the second transmission gear, of the upper end of each connecting pipe, a transmission shaft is arranged in the middle of the interior of each connecting pipe, a rotating cam is arranged at the lower end of each transmission shaft, and a gear groove matched with the position, corresponding to the second transmission gear, of the middle of each transmission shaft is arranged.

Furthermore, the chaff separator is including being located the mounting groove of mounting shell upper end, inside one side of mounting groove be provided with second drive gear matched with third drive gear, the inside middle part of mounting groove be provided with third drive gear matched with first exhaust turbine, the inside middle part of mounting groove is only run through the mounting groove bottom with the breathing pipe of mounting shell, the middle part of breathing pipe is provided with the inlet port that runs through the mounting groove inner wall, the inlet port is tilt up and the same through-hole with the breathing pipe radian, chaff separator's upper end is provided with the rising device.

Further, the rising device include with the fixed block of mounting groove upper end, the inside of fixed block is provided with third drive motor, the upper end of third drive motor is provided with the swivel becket, the inner wall of swivel becket is provided with the thread groove, just the support pipeline is close to chaff separator's one end be provided with thread groove matched with screw thread, just the lower extreme of support pipeline be provided with breathing pipe internal diameter matched with sealing washer, just the external diameter of support pipeline slightly is less than the internal diameter of breathing pipe.

Furthermore, the outer surface of the frying pan is provided with heating pipes which are uniformly distributed, the lower end inside the frying pan is provided with an isolating umbrella, the lower end inside the frying pan is provided with an air inlet hole which penetrates through the frying pan, the inner walls of the heat-insulating shell and the heat-insulating end cover are both provided with positioning supporting blocks, and the inner wall of the protective cover is provided with a heat reflecting layer.

Compared with the prior art, the invention has the following beneficial effects:

1. the fixing device is arranged on the base of the device integrally, the temperature inside the device is improved through the arrangement of the heat-insulating shell when the material is fried, the rapid loss of the temperature caused by the air flowing is avoided, the material is fried through the arrangement of the frying pan, a large amount of air is injected into the frying pan through the arrangement of the fluid fan, so that the material is in a state similar to the fluid state, when the device is used for heating the material, the heat can wrap all surfaces of objects through a large gap generated between the materials due to the fluid, the material is convenient to fry into a dry and fragrant state, the oil yield of the material is convenient to improve, the heat loss is further avoided through the matching between the heat-insulating end cover and the protective shell, the frying efficiency is improved, the moisture in the grain skin is easy to take away due to the rapidly flowing hot air, and the grain skin becomes fragile, the grain and the skin are separated by vibration through the arrangement of the hulling device, the skin is easily changed into relatively broken chips due to the crisp skin, the husk is collected by the cooperation of the husk separating device and a fluid fan, and then is discharged through a supporting pipeline, the position of a heat insulation end cover and a protective cover of the hulling device is conveniently adjusted through the arrangement of a rotating groove, so that the material can be conveniently loaded and unloaded, a first air suction turbine is driven to rotate through the arrangement of a first transmission motor, a cooperating device and a second air suction turbine are fixed through the arrangement of a mounting plate, the second air suction turbine is driven to rotate through the rotation of the first air suction turbine through the cooperating device, the rotating directions of the first air suction turbine and the second air suction turbine are opposite under the influence of the cooperating device, and the first air suction turbine and the second air suction turbine are turbines which are oppositely arranged and have the same specification, therefore, the output power of the fluid fan is improved under the action of the cooperative device during rotation, and the angle between the air flow and the turbine blade is adjusted by sucking air in the fluid fan during operation through the cooperative guide plate, so that the angle of the fluid fan is convenient to change.

2. The first face gear connected with the first air suction turbine is rotated through the rotation of the first air suction turbine, the first transmission gear is synchronously rotated through the rotation of the first face gear, the second face gear is rotated through the first transmission gear, the effect of driving the second air suction turbine is achieved, the second air suction turbine is fixed through the arrangement of the supporting rotating shaft, the matching between the two air suction turbines is facilitated through the arrangement of the air vent groove, the wind power is conveniently transmitted to the inner part of the frying pan through the arrangement of the air exhaust groove, the first linkage shaft is rotated through the adjustment of the synchronizing ring at the outer end of the first linkage shaft, the second linkage shaft is driven to rotate through the first bevel gear under the influence of the bevel gear through the rotation of the first linkage shaft, and the effects of simultaneously adjusting the first air deflector and the second air deflector are achieved, so that the air is respectively guided to the surfaces of blades of the air suction turbines, thereby facilitating the power adjustment of the device, the hulling device and the protective cover are fixed by the installation of the installation shell, the second transmission gear is driven by the installation of the second transmission motor, the transmission shaft is rotated by the cooperation of the second transmission gear and the gear groove, so that the rotating cam is rotated, so as to generate vibration, thereby the epidermis of the grain is damaged and cracked, the transmission shaft is installed by the installation of the connecting pipe, the second transmission gear and the transmission shaft are convenient to directly rotate by the installation of the transmission groove, a large gap is formed between the grain and the grain by the action of the fluid fan, thereby when the epidermis of the grain is crushed, the epidermis fragment is upwards moved to suspend on the part at the upper end of the inner part of the device, the third transmission gear is driven by the rotation of the second transmission gear, the first exhaust turbine in the installation groove is driven by the installation of the third transmission gear, the rotation of the first exhaust turbine causes air to rapidly enter the suction pipe through the air inlet holes and move upwards along the suction pipe, so that a pressure difference is generated to cause suction at the lower end of the suction pipe, and floating grain skins are sucked into the suction pipe and discharged through the support pipe.

3. The driving rotating ring is arranged to rotate through the third transmission motor, the thread groove and the threads are matched with each other through rotation of the rotating ring, so that the heat preservation end cover and the protective cover are driven to move upwards, the heat preservation end cover and the protective cover are offset under the action of the rotating ring, the effect that the movable end cover is convenient to feed and unload is achieved, the third transmission motor is fixed through the fixed block, grains are heated through the heating pipe, and the wind direction generated by the fluid fan is diffused all around through the isolation umbrella.

Drawings

In order to more clearly illustrate the embodiments of the patent of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the patent of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a peeling and frying device for oil-pressed raw materials according to an embodiment of the present invention;

FIG. 2 is a schematic view of a fluid fan of an apparatus for removing oil from raw materials and frying in accordance with an embodiment of the present invention;

fig. 3 is a schematic view illustrating an internal structure of a device for peeling and frying oil-extracted raw materials according to an embodiment of the present invention;

fig. 4 is a schematic view illustrating a hulling device of an oil-pressing material hulling and frying device according to an embodiment of the present invention;

FIG. 5 is a schematic view of a frying pan of an oil-pressed material peeling and frying device according to an embodiment of the present invention;

fig. 6 is a second structural schematic diagram of a fluid fan of an oil pressing material peeling and frying device according to an embodiment of the present invention.

In the figure:

1. a device base; 2. a heat-insulating shell; 3. frying the pan; 4. a fluid fan; 5. a heat preservation end cover; 6. a protective cover; 7. a hulling device; 8. a husk separating device; 9. supporting the pipeline; 10. a rotating groove; 11. a fan housing; 12. a first drive motor; 13. a first suction turbine; 14. mounting a plate; 15. a coordinating device; 16. a second air intake turbine; 17. a cooperative guide plate; 18. a first face gear; 19. a first drive gear; 20. a second face gear; 21. supporting the rotating shaft; 22. a vent channel; 23. an exhaust duct; 24. a first linkage shaft; 25. a first air deflector; 26. a second coupling shaft; 27. a second air deflector; 28. a first bevel gear; 29. a bevel gear; 30. mounting a shell; 31. a second drive motor; 32. a second transmission gear; 33. a connecting pipe; 34. a transmission groove; 35. a drive shaft; 36. rotating the cam; 37. a gear groove; 38. mounting grooves; 39. a third transmission gear; 40. a first exhaust turbine; 41. an air intake duct; 42. an air inlet; 43. a lifting device; 44. a fixed block; 45. a third drive motor; 46. a rotating ring; 47. heating a tube; 48. an isolating umbrella; 49. and positioning the supporting block.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to explain, by reference, other possible embodiments and advantages of the invention.

Example one

As shown in fig. 1-6:

the invention provides a peeling and frying device for oil pressing raw materials, which comprises a device base 1, wherein the upper end of the device base 1 is provided with a heat-insulating shell 2, the middle inside the heat-insulating shell 2 is provided with a frying pot 3, the lower end of the frying pot 3 is provided with a fluid fan 4, the upper end of the heat-insulating shell 2 is provided with a heat-insulating end cover 5, the middle inside of the heat-insulating end cover 5 is provided with a protective cover 6 matched with the frying pot 3, the middle inside of the protective cover 6 is provided with a husking device 7, the middle inside of the husking device 7 is provided with a husk separating device 8, the upper end of the husk separating device 8 is provided with a supporting pipeline 9, one end of the supporting pipeline 9, which is far away from the protective cover 6, is provided with a rotating groove 10, one end of the rotating groove 10 is connected with the heat-insulating shell 2, and the device base 1 is provided with a fixing device integrally, the temperature inside the device is improved by the arrangement of the heat preservation shell 2 when the material is fried, the temperature is prevented from being rapidly lost due to the flow of air, the material is fried by the arrangement of the frying pan 3, a large amount of air is injected into the frying pan 3 through the arrangement of the fluid fan 4, so that the material is in a state similar to fluid, when the device is used for heating the material, the heat can wrap all surfaces of objects by generating large gaps between the materials due to the fluid, the material is convenient to be fried to be in a dry and fragrant state, the oil yield of the material is convenient to be improved, the heat is further prevented from being lost through the matching between the heat preservation end cover 5 and the protective shell 6, the frying efficiency is improved, the moisture in the grain skin is easily taken away due to the rapidly flowing hot air, and the grain skin becomes fragile, grains are separated from the skin through vibration by the arrangement of a hulling device 7, the skin is easily changed into relatively broken chips due to the crisp skin, the grain skin is collected through the cooperation of a grain hull separating device 8 and a fluid fan 4, then the grain skin is discharged through a supporting pipeline 9, the position of a heat-insulating end cover 5 and a protective cover 6 of the device is conveniently adjusted through the arrangement of a rotating groove 10, the material loading and unloading are conveniently carried out, the fluid fan 4 comprises a fan shell 11, a first transmission motor 12 is arranged at the lower end inside the fan shell 11, a first air suction turbine 13 is arranged at the upper end of the first transmission motor 12, a mounting plate 14 connected with the fan shell 11 is arranged above the first air suction turbine 13, a cooperation device 15 matched with the first air suction turbine 13 is arranged in the middle of the mounting plate 14, and a second air suction turbine 16 is arranged at the upper end of the cooperation device 15, a cooperative guide plate 17 is arranged in the mounting plate 14 near the edge and corresponding to the first suction turbine 13 and the second suction turbine 16, the first suction turbine 13 is driven to rotate by the arrangement of the first transmission motor 12, the cooperative device 15 and the second suction turbine 16 are fixed by the arrangement of the mounting plate 14, the second suction turbine 16 is driven to rotate by the rotation of the first suction turbine 13 through the cooperative device 15, the rotation directions of the first suction turbine 13 and the second suction turbine 16 are opposite under the influence of the cooperative device 15, the first suction turbine 13 and the second suction turbine 16 are oppositely arranged turbines with the same specification, so that the output power of the fluid fan 4 is increased by the action of the cooperative device 15 when rotating, the angle between the air flow and the turbine blades is adjusted by the arrangement of the cooperative guide plate 17 when the fluid fan 4 operates to suck air, thereby facilitating the change of the angle of the fluid fan.

The detailed usage and function of the first embodiment: the whole fixing device is arranged on the base 1 of the device, the temperature inside the device is improved by the arrangement of the heat-insulating shell 2 when the material is fried, the rapid loss of the temperature caused by the flowing of air is avoided, the material is fried by the arrangement of the frying pan 3, a large amount of air is injected into the frying pan 3 by the arrangement of the fluid fan 4, so that the material is in a state similar to fluid, when the device is used for heating the material, the heat can wrap all surfaces of the object by generating large gaps between the materials due to the fluid, the material is convenient to fry in a dry and fragrant state, the oil yield of the material is convenient to improve, the heat loss is further avoided by the matching between the heat-insulating end cover 5 and the protective shell 6, the frying efficiency is improved, the moisture in the grain skin is easy to take away due to the rapidly flowing hot air, and the grain skin becomes fragile, grains are separated from the skin through vibration by the arrangement of a hulling device 7, the skin is easily changed into relatively broken chips due to the crisp skin, the grain skin is collected by the arrangement of a chaff separating device 8 and a fluid fan 4 and then is discharged through a supporting pipeline 9, the positions of a heat insulation end cover 5 and a protective cover 6 of the hulling device are conveniently adjusted by the arrangement of a rotating groove 10 so as to facilitate the loading and unloading of materials, a first air suction turbine 13 is driven to rotate through the arrangement of a first transmission motor 12, a cooperating device 15 and a second air suction turbine 16 are fixed through the arrangement of a mounting plate 14, a second air suction turbine 16 is driven to rotate through the cooperating device 15 through the rotation of the first air suction turbine 13, the rotating directions of the first air suction turbine 13 and the second air suction turbine 16 are opposite under the influence of the cooperating device 15, and the first air suction turbine 13 and the second air suction turbine 16 are turbines of the same specification which are oppositely arranged, so that the output power of the fluid fan 4 is increased by the action of the cooperative device 15 when rotating, and the angle between the air flow and the turbine blades is adjusted by sucking air in the fluid fan 4 when the fluid fan 4 is operated by the arrangement of the cooperative guide plate 17, thereby facilitating the change of the angle of the fluid fan.

Example two

As shown in fig. 1-6:

the invention provides a device for peeling and frying raw materials for oil extraction, wherein a coordinating device 15 comprises a first face gear 18 connected with a first air suction turbine 13, a first transmission gear 19 fixed at the middle part of a mounting plate 14 is arranged at the upper end of the first face gear 18, a second face gear 20 connected with a second air suction turbine 16 is arranged at the upper end of the first transmission gear 19, a supporting rotating shaft 21 connected with the mounting plate 14 is arranged at the middle part of the second air suction turbine 16, air grooves 22 uniformly distributed are arranged at the middle part of the mounting plate 14, an air exhaust groove 23 is arranged at the upper end of a fan shell 11, the first face gear 18 connected with the second air suction turbine 13 rotates through the rotation of the first air suction turbine 13, the first transmission gear 19 synchronously rotates through the rotation of the first face gear 18, the second face gear 20 rotates through the first transmission gear 19, the effect of driving the second air suction turbine 16 is achieved, the second air suction turbine 16 is fixed through the arrangement of the supporting rotating shaft 21, the arrangement of the air grooves 22 is convenient for the matching between the two air suction turbines, and the air exhaust groove 23 is convenient for conducting the air to the frying pan 3. The cooperative guide plate 17 comprises a first linkage shaft 24 arranged below the mounting plate 14 and connected with the fan shell 11, a first air deflector 25 is arranged in the middle of the first linkage shaft 24, a second linkage shaft 26 penetrating through the mounting plate 14 is arranged at the upper end of the mounting plate 14, a second air deflector 27 is arranged in the middle of the second linkage shaft 26, a first bevel gear 28 is arranged at one side of the second linkage shaft 26 at the lower end of the mounting plate 14, a bevel gear 29 matched with the first bevel gear 28 is arranged at one end of the first linkage shaft 24 adjacent to the second linkage shaft 26, the first linkage shaft 24 rotates by adjusting a synchronizing ring at the outer end of the first linkage shaft 24, and the second linkage shaft 26 is driven to rotate by the first bevel gear 28 under the influence of the bevel gear 29 through the rotation of the first linkage shaft 24, so that the cooperative guide plate 25 and the second air deflector 27 are adjusted to guide air to the surfaces of the blades of the air suction turbine respectively, thereby being beneficial to adjusting the power of the device. The husking device 7 includes a mounting case 30 connected to the protective cover 6, a second transmission motor 31 is disposed in the middle of the inside of the mounting case 30, a second transmission gear 32 connected to the mounting case 30 is disposed on one side of the second transmission motor 31, connection pipes 33 are uniformly distributed around the mounting case 30, a transmission groove 34 is disposed at a position corresponding to the second transmission gear 32 at the upper end of the connection pipe 33, a transmission shaft 35 is disposed in the middle of the inside of the connection pipe 33, a rotation cam 36 is disposed at the lower end of the transmission shaft 35, a gear groove 37 is disposed at a position corresponding to the second transmission gear 32 in the middle of the transmission shaft 35, the husking device 7 and the protective cover 6 are fixed by the mounting case 30, the second transmission gear 32 is driven by the second transmission motor 31, the transmission shaft 35 is rotated by the second transmission gear 32 cooperating with the gear groove 37, so that the rotation cam 36 is rotated, so as to generate vibration, thereby damaging the skin of the grain and enabling the grain to be cracked, and the transmission shaft 35 is mounted by the connection pipe 33, so that the second transmission gear 32 and the transmission shaft 35 are directly rotated. The chaff separation unit 8 includes a mounting groove 38 formed at an upper end of the mounting case 30, a third transmission gear 39 engaged with the second transmission gear 32 is provided at one side of an inside of the mounting groove 38, a first exhaust turbine 40 engaged with the third transmission gear 39 is provided at a middle portion of an inside of the mounting groove 38, only an air suction pipe 41 penetrating through a bottom of the mounting groove 38 and the mounting case 30 is provided at a middle portion of an inside of the air suction pipe 41, an air inlet hole 42 penetrating through an inner wall of the mounting groove 38 is provided at a middle portion of the air suction pipe 42, the air inlet hole 42 is a through hole inclined upward and having the same arc as the air suction pipe 41, an ascending unit 43 is provided at an upper end of the chaff separation unit 8, a relatively large gap is formed between the grain and the grain by an action of the fluid fan 4, so that when the grain is crushed, the skin is moved upward to be suspended at a portion of the inner upper end of the unit, the third transmission gear 39 is driven by rotation of the second transmission gear 32, the first exhaust turbine 40 inside of the mounting groove 38 is driven by the third transmission gear 39, air is rapidly moved into the air suction pipe 41 through the air inlet hole 42 by rotation of the first exhaust turbine 40, and is moved upward along the air suction pipe 41, so that a pressure difference of the suction pipe 41 is generated to support the suction pipe 9, thereby discharging the suction pipe 9, and discharge the suction pipe.

The detailed application method and function of the second embodiment: the first face gear 18 connected with the first air suction turbine 13 rotates through the rotation of the first air suction turbine 13, the first transmission gear 19 synchronously rotates through the rotation of the first face gear 18, the second face gear 20 rotates through the first transmission gear 19 and achieves the effect of driving the second air suction turbine 16, the second air suction turbine 16 is fixed through the arrangement of the supporting rotating shaft 21, the matching between the two air suction turbines is facilitated through the arrangement of the air vent groove 22, the wind power is conducted to the inner part of the frying pan 3 through the arrangement of the air exhaust groove 23, the first linkage shaft 24 rotates through adjusting a synchronous ring at the outer end of the first linkage shaft 24, the second linkage shaft 26 is driven to rotate through the first bevel gear 28 under the influence of the bevel gear 29 through the rotation of the first linkage shaft 24, and the effect of simultaneously adjusting the first air deflector 25 and the second air deflector 27 is achieved, so that it can guide the air to the surface of the blade of the air-breathing turbine, respectively, thereby facilitating the adjustment of the power of the device, the hulling device 7 is fixed with the protective cover 6 by the installation of the shell 30, the second transmission gear 32 is driven by the installation of the second transmission motor 31, the transmission shaft 35 is rotated by the cooperation of the second transmission gear 32 and the gear groove 37, thereby the rotating cam 36 is rotated, thereby generating vibration, thereby the epidermis of the grain is damaged, and the grain is cracked, and the transmission shaft 35 is installed by the installation of the connection pipe 33, the direct rotation of the second transmission gear 32 and the transmission shaft 35 is facilitated by the installation of the transmission groove 34, a large gap is formed between the grain and the grain by the action of the fluid fan 4, thereby when the epidermis of the grain is crushed, the epidermis fragments of the epidermis are moved upwards to be suspended at the inner upper end of the device, the third transmission gear 39 is driven by the rotation of the second transmission gear 32, the first exhaust turbine 40 inside the installation groove 38 is driven by the third transmission gear 39, air rapidly enters the suction pipe 41 through the air inlet hole 42 by the rotation of the first exhaust turbine 40, and moves upward along the suction pipe 41, thereby generating a pressure difference to generate a suction force at the lower end of the suction pipe 41, so that the floating grain skin is sucked into the suction pipe 41 and discharged through the support pipe 9.

EXAMPLE III

As shown in fig. 1-6:

the invention provides a device for peeling and frying raw materials for oil pressing, wherein a lifting device 43 comprises a fixed block 44 which is arranged at the upper end of a mounting groove 38, a third transmission motor 45 is arranged inside the fixed block 44, a rotating ring 46 is arranged at the upper end of the third transmission motor 45, a thread groove is arranged on the inner wall of the rotating ring 46, a thread which is matched with the thread groove is arranged at one end, close to a chaff separating device 8, of a supporting pipeline 9, a sealing ring which is matched with the inner diameter of an air suction pipe 41 is arranged at the lower end of the supporting pipeline 9, the outer diameter of the supporting pipeline 9 is slightly smaller than the inner diameter of the air suction pipe 41, the rotating ring 46 is driven to rotate by the arrangement of the third transmission motor 45, the thread groove and the thread are matched with each other through the rotation of the rotating ring 46, so that a heat-preserving end cover 5 and a protective cover 6 are driven to move upwards, the heat-preserving end cover 5 and the protective cover 6 are offset through the cooperation of the action of the rotating groove 10, and the effect of moving the end cover and facilitating the movement is achieved, and the third transmission motor 45 is fixed through the arrangement of the fixed block 44. The outer surface of the frying pan 3 is provided with heating pipes 47 which are uniformly distributed, the lower end inside the frying pan 3 is provided with an isolating umbrella 48, the lower end inside the frying pan 3 is provided with an air inlet hole which penetrates through the frying pan 3, the inner walls of the heat-insulating shell 2 and the heat-insulating end cover 5 are provided with positioning supporting blocks 49, the inner wall of the protective cover 6 is provided with a heat reflection layer, grains are heated through the heating pipes 47, and the air generated by the fluid fan 4 is diffused all around through the isolating umbrella 48.

The detailed using method and function of the third embodiment: set up drive swivel 46 through third drive motor 45 and rotate, rotation through swivel 46 makes and mutually supports between thread groove and the screw thread, thereby drive heat preservation end cover 5 and visor 6 rebound, and the effect of cooperation swivel 10 makes heat preservation end cover 5 produce the skew with visor 6, thereby reach the effect of removing the end cover and being convenient for go up unloading, set up fixed third drive motor 45 through fixed block 44, heat cereal through heating pipe 47, the wind that makes fluid fan 4 produce through setting up of isolation umbrella 48 is to diffusion all around.

In conclusion, by means of the technical scheme, large gaps are effectively formed between grains, heat can wrap all surfaces of an object conveniently through the large gaps formed between materials due to fluid, the materials are fried to be in a dry and fragrant state conveniently, oil yield of the materials is improved conveniently, moisture in the grain skins is easily taken away by fast flowing hot air, the grain skins are weakened, and the skins are easy to fall off.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (7)

1. The utility model provides a system device is fried in peeling of raw materials extracts oil, its characterized in that, including device base (1), the upper end of device base (1) is provided with heat preservation casing (2), the inside middle part of heat preservation casing (2) is provided with fries system pot (3), the lower extreme of frying system pot (3) is provided with fluid fan (4), the upper end of heat preservation casing (2) is provided with heat preservation end cover (5), the inside middle part of heat preservation end cover (5) be provided with fry system pot (3) matched with visor (6), the inside middle part of visor (6) is provided with shelling device (7), the inside middle part of shelling device (7) is provided with chaff separator (8), the upper end of chaff separator (8) is provided with support pipeline (9), support pipeline (9) is kept away from the one end of visor (6) is provided with rotation groove (10), the one end of rotation groove (10) with heat preservation casing (2) are connected, fluid fan (4) includes fan casing (11), the inside lower extreme of casing (11) is provided with first transmission motor (12), the first transmission motor (12) upper end of first suction motor (13) is provided with suction motor (13) and turbine mounting panel (13) top is connected, the middle part of mounting panel (14) be provided with first aspiration turbine (13) matched with cooperation device (15), the upper end of cooperation device (15) is provided with second aspiration turbine (16), the inside of mounting panel (14) is close to the edge and with first aspiration turbine (13) with the corresponding position of second aspiration turbine (16) is provided with cooperation deflector (17).

2. A device for peeling and stir-frying raw material for squeezing oil according to claim 1, wherein said cooperating means (15) comprises a first face gear (18) connected to said first air suction turbine (13), said first face gear (18) is provided with a first transmission gear (19) fixed to the middle of said mounting plate (14), said first transmission gear (19) is provided with a second face gear (20) connected to said second air suction turbine (16), said second air suction turbine (16) is provided with a supporting shaft (21) connected to said mounting plate (14), said mounting plate (14) is provided with an evenly distributed ventilation slot (22) at the middle thereof, and said fan housing (11) is provided with an air discharge slot (23) at the upper end thereof.

3. The oil pressing raw material peeling and frying device according to claim 2, wherein the cooperative guide plate (17) comprises a first linkage shaft (24) arranged below the mounting plate (14) and connected with the fan housing (11), a first air deflector (25) is arranged in the middle of the first linkage shaft (24), a second linkage shaft (26) penetrating through the mounting plate (14) is arranged at the upper end of the mounting plate (14), a second air deflector (27) is arranged in the middle of the second linkage shaft (26), a first bevel gear (28) is arranged on one side of the second linkage shaft (26) at the lower end of the mounting plate (14), and a conical gear (29) matched with the first bevel gear (28) is arranged at one end of the first linkage shaft (24) adjacent to the second linkage shaft (26).

4. The oil pressing raw material peeling and frying device according to claim 3, wherein the peeling device (7) comprises an installation shell (30) connected with the protection cover (6), a second transmission motor (31) is arranged in the middle of the inside of the installation shell (30), a second transmission gear (32) connected with the installation shell (30) is arranged on one side of the second transmission motor (31), uniformly distributed connecting pipes (33) are arranged around the installation shell (30), a transmission groove (34) is formed in the position, corresponding to the second transmission gear (32), of the upper end of the connecting pipe (33), a transmission shaft (35) is arranged in the middle of the inside of the connecting pipe (33), a rotating cam (36) is arranged at the lower end of the transmission shaft (35), and a matched gear groove (37) is formed in the position, corresponding to the second transmission gear (32), of the middle of the transmission shaft (35).

5. The oil pressing raw material peeling and frying device according to claim 4, wherein the chaff separating device (8) comprises a mounting groove (38) located at the upper end of the mounting shell (30), a third transmission gear (39) matched with the second transmission gear (32) is arranged on one side of the inside of the mounting groove (38), a first exhaust turbine (40) matched with the third transmission gear (39) is arranged in the middle of the inside of the mounting groove (38), the middle of the inside of the mounting groove (38) only penetrates through the bottom of the mounting groove (38) and an air suction pipe (41) of the mounting shell (30), an air inlet hole (42) penetrating through the inner wall of the mounting groove (38) is formed in the middle of the air suction pipe (41), the air inlet hole (42) is an upward inclined through hole with the same radian as the air suction pipe (41), and an ascending device (43) is arranged at the upper end of the chaff separating device (8).

6. The oil pressing raw material peeling and frying device according to claim 5, wherein the ascending device (43) comprises a fixing block (44) connected to the upper end of the mounting groove (38), a third transmission motor (45) is disposed inside the fixing block (44), a rotating ring (46) is disposed at the upper end of the third transmission motor (45), a thread groove is disposed on the inner wall of the rotating ring (46), a thread groove is disposed at one end of the supporting pipeline (9) close to the husk separating device (8) and a thread engaged with the thread groove, a sealing ring engaged with the inner diameter of the air suction pipe (41) is disposed at the lower end of the supporting pipeline (9), and the outer diameter of the supporting pipeline (9) is slightly smaller than the inner diameter of the air suction pipe (41).

7. The oil pressing raw material peeling and frying device according to claim 6, wherein heating pipes (47) are uniformly distributed on the outer surface of the frying pan (3), an isolating umbrella (48) is arranged at the lower end of the frying pan (3), an air inlet hole penetrating through the frying pan (3) is formed at the lower end of the frying pan (3), positioning support blocks (49) are arranged on the inner walls of the heat preservation shell (2) and the heat preservation end cover (5), and a heat reflection layer is arranged on the inner wall of the protective cover (6).

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