CN211199156U

CN211199156U - Oil pressing system for frying sesame seeds

Info

Publication number: CN211199156U
Application number: CN201922081223.6U
Authority: CN
Inventors: 丁涛; 朱学银; 杨立锋; 王银东
Original assignee: Wuzhong Guojun Food Co ltd
Current assignee: Wuzhong Guojun Food Co ltd
Priority date: 2019-11-27
Filing date: 2019-11-27
Publication date: 2020-08-07
Anticipated expiration: 2029-11-27

Abstract

A system for frying sesame seeds to extract oil comprises a sesame seed frying part and a sesame seed oil extracting part, wherein the sesame seed frying part comprises a frying device, a cooling device and a screening device, the frying device can enable the temperature in the frying device to be more stable and uniform, and the sesame seeds can be guaranteed to be uniformly heated in the frying device; the cooling device can spray water to cool and humidify, and turn over the flax seeds to accelerate heat loss; the screening device reduces the scattering of powder and scraps in the flax seeds to the periphery or the adhesion of the powder and the scraps on a chute; the oil pressing part comprises an oil press, an oil residue dispersing device, a crude oil filtering device, a first oil residue conveyor, a second oil residue conveyor, a waste residue conveyor, an oil residue elevator and a waste residue elevator, wherein the oil residue dispersing device can disperse the lumpy oil residue to effectively prevent the lumpy oil residue from blocking the oil press; the crude oil filtering device can filter crude oil and can automatically stir the crude oil, so that the filtering efficiency is improved, and the labor intensity of workers is reduced.

Description

Oil pressing system for frying sesame seeds

Technical Field

The utility model relates to a sesame seed oil extraction equipment technical field especially relates to a system of extracting oil is fried to sesame seed.

Background

When the existing flax seed frying pan is used, the temperature in the frying pan is uneven, so that flax seeds are heated unevenly in the frying pan, the quality of the fried flax seeds is poor, and the subsequent oil extraction amount is greatly influenced; when the flax seeds are discharged from the frying pan, powder and scraps in the flax seeds not only scatter around to cause poor production workshop environment, but also part of the powder and scraps can be bonded on the chute to cause the flowability of the flax seeds in the chute to be reduced, so that the flax seeds are not smoothly fed; after the powder, the scraps and the flax seeds are mixed together and enter an oil press for pressing, the content of impurities in the pressed crude oil is increased; the temperature of the flax seeds just discharged from the frying pan is generally higher, and the flax seeds with the temperature higher than 40 ℃ enter an oil press to press oil, so that the nutritional ingredients in the oil are damaged, and the quality of the pressed oil is poor; the flax seeds with higher temperature are conveyed by the screw conveyor, so that the breakage rate of the flax seeds can be increased, and impurities in the crude oil can also be increased after the flax seeds are squeezed; in order to improve the oil outlet efficiency of the sesame seeds, the oil residues after the first pressing are often conveyed into an oil press again through a screw conveyor for secondary pressing, but after the oil residues are discharged from the oil press, a plurality of blocky oil residues are mixed, and after the blocky oil residues enter the feed port end of the oil press, the feed port end of the oil press is easy to block; and when filtering the crude oil, mainly adopt the mode of manual stirring to accelerate the mobility of crude oil to increase filtration efficiency, but this kind of mode can increase workman's intensity of labour intangibly.

Disclosure of Invention

In view of the above, there is a need for an oil press system for frying sesame seeds.

A sesame seed frying and oil pressing system comprises a sesame seed frying part and a sesame seed oil pressing part, wherein the sesame seed frying part comprises a frying device, a cooling device and a screening device, the screening device is arranged at a discharge port end of the frying device, an inlet end of the screening device is communicated with a discharge port end of the frying device, and the cooling device is arranged right above the discharge port end of the screening device;

the frying device comprises a frying mechanism, a feeding part and a smoke discharging part, the frying mechanism comprises a frying cylinder and a power assembly, the power assembly is arranged at the feeding port end of the frying cylinder and is fixedly connected with the frying cylinder, the frying cylinder is driven to rotate, a discharge chute is fixedly arranged at the discharge port end of the frying cylinder, a heat-preservation heating component is arranged outside the frying cylinder, the frying cylinder is wrapped inside the heat-preservation heating component by the heat-preservation heating component, a protective cover is arranged outside the heat-preservation heating component, the feeding component is arranged above the frying mechanism, and is positioned at the feed inlet end of the frying mechanism, the outlet end of the feed component passes through the protective cover and extends to the feed inlet of the frying cylinder, so as to convey the materials to the interior of the frying cylinder, the smoke exhaust component is arranged at one side of the frying mechanism, the inlet end of the smoke exhaust component penetrates through the protective cover and is respectively communicated with the discharge port end and the feed port end of the frying cylinder;

the screening device comprises a screening part, a powder collecting part and a material receiving part, wherein the screening part comprises a screening frame body, a screening cylinder and a driving motor, the screening frame body is arranged below a discharge chute, the screening frame body is obliquely arranged, namely one end of the screening frame body, which is positioned at the powder collecting part, is higher than one end, which is far away from the powder collecting part, of the screening frame body, two end parts of the screening frame body are fixedly provided with positioning guide rails, supporting rotating wheels are installed in the positioning guide rails, the two end parts of the screening cylinder are embedded into the positioning guide rails and are in contact with the supporting rotating wheels, the screening cylinder can relatively rotate along the supporting rotating wheels, the driving motor is fixedly arranged at one end, which is far away from the powder collecting part, of the screening frame body, and is fixedly connected with the screening cylinder to drive the screening cylinder to rotate, and the material receiving part is fixedly;

the cooling device comprises a supporting platform, a variable frequency motor, a water pipe and a water spraying cooling part, wherein the supporting platform is arranged right above a discharge port end of the material receiving part, the water spraying cooling part is arranged below the supporting platform, the lower end of the water spraying cooling part is positioned in the material receiving part, the upper end of the water spraying cooling part penetrates through the supporting platform and extends to the upper part of the supporting platform, the water spraying cooling part is connected with the supporting platform through a bearing, the variable frequency motor is arranged at one end above the supporting platform and is connected with the upper part of the water spraying cooling part through a transmission belt, the water pipe is arranged above the supporting platform, and the outlet end of the water pipe is right opposite to the top of the;

the linseed oil pressing part comprises an oil press, an oil residue dispersing device, a crude oil filtering device, a first oil residue conveyor, a second oil residue conveyor, a waste residue conveyor, an oil residue elevator and a waste residue elevator, wherein the oil residue dispersing device comprises an oil residue buffer bin and a shaking-out component, the oil residue buffer bin is arranged above a feed port end of the oil press, the shaking-out component is arranged in the oil residue buffer bin, and the shaking-out component is connected with the oil residue buffer bin through a bearing; the crude oil filtering device comprises a crude oil receiving part, a crude oil filtering part and a containing groove, wherein the crude oil receiving part is arranged right below an oil outlet of the oil press, the crude oil filtering part is arranged below the side of the crude oil receiving part, the outlet end of the crude oil receiving part is positioned right above the crude oil filtering part, the containing groove is arranged below the side of the crude oil filtering part, and the outlet end of the crude oil filtering part is positioned right above the containing groove; the slag notch of oil press is provided with the dregs of a fat pipe and arranges the sediment pipe, first dregs of a fat conveyer sets up the below at the dregs of a fat pipe, and dregs of a fat pipe and first dregs of a fat conveyer intercommunication, the dregs of a fat lifting machine sets up the one side at the oil press, the entry end of dregs of a fat lifting machine and the exit end intercommunication of first dregs of a fat conveyer, the exit end of dregs of a fat lifting machine and the entry end intercommunication of second dregs of a fat conveyer, the exit end and the entry end intercommunication of dregs of a fat buffer bin of second dregs of a fat conveyer, the waste residue conveyer sets up the below at row's sediment pipe, and arrange sediment pipe and waste residue conveyer intercommunication, the waste residue lifting machine sets up the opposite side at the oil press, the entry end of waste residue lifting machine and the exit end intercommunication of waste residue conveyer, in.

Preferably, the heat-insulation heating component comprises a heat-insulation barrel body, a support frame body and an adjusting component, the heat-insulation barrel body is detachably mounted on the support frame body, the heat-insulation barrel body wraps the frying barrel body in the heat-insulation barrel body, a space is reserved between the heat-insulation barrel body and the frying barrel body, the heating component is further mounted on the outer wall of the heat-insulation barrel body, the heating component is attached to the outer wall of the heat-insulation barrel body, one end of the adjusting component is detachably connected with the support frame body, and the other end of the adjusting component is; the adjusting part comprises a connecting screw rod, an adjusting nut, a first connecting lug and a second connecting lug, the first connecting lug is fixedly arranged on the support frame body, the second connecting lug is fixedly arranged on the outer wall of the heat-insulating cylinder body, one end of the connecting screw rod is connected with the first connecting lug arranged on the support frame body and is fixed through the adjusting nut, and the other end of the connecting screw rod is connected with the second connecting lug on the heat-insulating cylinder body and is fixed through the adjusting nut; the heater block includes welt, electric heating coil, and the welt passes through bolt fixed mounting on the outer wall of heat preservation barrel along the axial direction of heat preservation barrel, and electric heating coil twines on the welt to electric heating coil distributes along the outer wall heliciform of heat preservation barrel.

Preferably, the water spraying cooling part comprises a stirring mechanism and a sprinkling mechanism, the sprinkling mechanism comprises a hollow rotating shaft, a belt pulley used for connecting a transmission belt is fixedly arranged at the upper end of the hollow rotating shaft, a water receiving hopper is fixedly arranged at the top of the hollow rotating shaft and is communicated with the inside of the hollow rotating shaft, a water spraying disc is fixedly arranged at the lower end of the hollow rotating shaft and is communicated with the hollow rotating shaft, the stirring mechanism is fixedly arranged under the water spraying disc, the stirring mechanism comprises a stirring shaft, the upper end of the stirring shaft is fixedly connected with the bottom of the water spraying disc, and the lower end of the stirring shaft is detachably connected with a stirring part; the stirring component comprises a connecting sleeve, an upper stirring rod and a lower stirring rod, the connecting sleeve is sleeved at the lower end of the stirring shaft and is connected with the stirring shaft through a pin shaft, the lower stirring rod is positioned at the lower end of the stirring shaft and is fixedly connected with the connecting sleeve, the upper stirring rod is positioned above the lower stirring rod, and the upper stirring rod is fixedly connected with the connecting sleeve; the upper-layer stirring rods and the lower-layer stirring rods are distributed at equal intervals along the outer wall surface of the connecting sleeve, and the upper-layer stirring rods and the lower-layer stirring rods are arranged in a staggered mode; the bottom of the lower stirring rod is attached to the bottom of the material transferring groove.

Preferably, two end parts of the screening cylinder are fixedly provided with supporting turntables, and the supporting turntables are embedded into the positioning guide rails and are in contact with the supporting turntables; the outer wall of the screening cylinder is provided with strip-shaped screen holes, the strip-shaped screen holes are arranged along the axial direction of the screening cylinder, and the strip-shaped screening holes are circumferentially distributed at equal intervals along the outer wall of the screening cylinder; a feeding pipe is fixedly arranged at the feeding port end of the screening cylinder, the inlet end of the feeding pipe is communicated with the discharging port end of the discharging chute, the outlet end of the feeding pipe extends to the inside of the screening cylinder along the feeding port end of the screening cylinder, the feeding pipe is positioned above the inside of the screening cylinder, and a distributing nozzle is detachably arranged at the outlet end of the feeding pipe and is in a fan shape; the screening section of thick bamboo is kept away from the fixed row of material groove that is provided with in below of cuttings collecting member one end to discharge the large granule impurity after will screening.

Preferably, the scattering component comprises a pushing mechanism and a dispersing mechanism, the dispersing mechanism is installed inside the oil residue buffer bin and connected with the oil residue buffer bin through a bearing, the pushing mechanism is arranged at one end of the oil residue buffer bin, the pushing mechanism penetrates through one side surface of the oil residue buffer bin and is connected with a pin shaft of the dispersing mechanism in the oil residue buffer bin, the dispersing mechanism comprises a supporting rotating shaft, a first side plate, a second side plate and a cross rod, the supporting rotating shaft is installed inside the oil residue buffer bin, two end portions of the supporting rotating shaft are connected with the oil residue buffer bin through bearings, the first side plate and the second side plate are oppositely arranged, the first side plate and the second side plate are fixedly connected with the supporting rotating shaft through fixing rods, the cross rod is arranged between the first side plate and the second side plate, one end of the cross rod is movably connected with the first side plate, the other end of the cross rod is movably connected with the second side plate, the cross rod is distributed along the long edge direction of the first side plate and the second side plate at equal intervals, scattering columns are distributed on the surface of the cross rod along the direction of the cross rod, the pushing mechanism comprises a fixed connecting frame, a pushing rod L, one end of the pushing rod is connected with a pushing rod assembly, one end of the pushing rod assembly is connected with a push rod L, and one end of the push rod assembly, one side connecting assembly, the push rod assembly is connected with the push rod assembly, the.

Preferably, the crude oil receiving component comprises a first crude oil groove and a crude oil guiding mechanism, the first crude oil groove is arranged under an oil outlet of the oil press, the crude oil guiding mechanism is arranged in the first crude oil groove along the long side direction of the first crude oil groove and is connected with two side walls of the first crude oil groove through bearings, the crude oil guiding mechanism comprises a power motor component, a first rotating shaft, a second rotating shaft and an oil scraping component, the first rotating shaft and the second rotating shaft are oppositely arranged, the first rotating shaft and the second rotating shaft are both arranged along the short side direction of the first crude oil groove, the first rotating shaft and the second rotating shaft are both connected with two side walls of the first crude oil groove through bearings, the first rotating shaft and the second rotating shaft are connected through two oppositely arranged chains, the oil scraping component is positioned between the two chains, two end parts of the oil scraping component are respectively detachably connected with the two chains, the oil scraping components are distributed at equal intervals along the traveling direction of the two chains; the oil scraping assembly comprises a transverse connecting rod, a positioning base and a rubber guide plate, the two ends of the transverse connecting rod are respectively connected with the two chains through bolts, the positioning base is fixedly arranged on the transverse connecting rod, the rubber guide plate is arranged on the positioning base, and the rubber guide plate is detachably connected with the positioning base.

Preferably, the crude oil filtering part comprises a second crude oil groove and a crude oil stirring mechanism, the second crude oil groove is arranged below the side of the first crude oil groove, a filtering plate is detachably arranged in the second crude oil groove, the filtering plate is arranged in parallel with the bottom of the second crude oil groove, and the crude oil stirring mechanism is fixedly arranged right above the second crude oil groove; coarse oil rabbling mechanism includes the walking guide rail, electric reciprocating device, connect the lead screw, stir the board, the walking guide rail is along the fixed setting directly over the coarse oil groove of second of the long limit direction of the coarse oil groove of second, electric reciprocating device installs on the walking guide rail, and can follow walking guide rail reciprocating motion, the fixed square mouth shape connecting piece that is provided with in bottom of electric reciprocating device, square mouth shape connecting piece has been rotated in the upper end of connecting the lead screw, and be connected through the adjust knob who sets up, the lower extreme of connecting the lead screw with stir board fixed connection, and stir the minor face direction setting of board along the coarse oil groove of second.

Preferably, the stirring plate is provided with Y-shaped strip holes, the strip holes are arranged along the long side direction of the stirring plate, and the strip holes are distributed at equal intervals from top to bottom along the short side direction of the stirring plate; the strip holes are staggered from top to bottom along the direction of the short side of the stirring plate, namely the larger end of the previous strip hole is opposite to the larger end of the next strip hole.

Preferably, the oil residue buffering bin is externally provided with a heat-insulating interlayer, at least two blocking plates are fixedly arranged in the heat-insulating interlayer, the blocking plates are sequentially arranged from top to bottom, and the inside of the heat-insulating interlayer is separated into communicated S-shaped channels from top to bottom.

The utility model adopts the above technical scheme, its beneficial effect lies in: the utility model discloses can carry the dregs of fat of caking form earlier to the dregs of fat surge bin in, after the cubic dregs of fat enter into the dregs of fat surge bin, can disperse the cubic dregs of fat through the part that shakes that sets up in the dregs of fat surge bin, the dregs of fat after the dispersion enters into the feed inlet end of oil press from the dregs of fat surge bin again, can guarantee like this that to connect cubic dregs of fat to be dispersed completely, can prevent effectively that the cubic dregs of fat from blockking up the feed inlet end of oil press, and the dispersed dregs of fat enter into the oil press and carry out the secondary and squeeze, can the oil efficiency of the play of effectual improvement dregs of fat; the crude oil flowing out of the oil outlet of the oil press can be automatically scraped into the crude oil filtering component through the arranged crude oil receiving component, so that the production efficiency can be increased, the problem of high labor intensity of manual stirring of the crude oil by workers is solved, the crude oil can be filtered by utilizing the arranged crude oil filtering component, and the crude oil in the crude oil filtering component can be automatically stirred, so that the filtering efficiency is improved, and the labor intensity of the workers is reduced; the heat-preservation heating component is arranged outside the frying cylinder, and can heat and preserve heat of the frying cylinder, so that the temperature in the frying cylinder is more stable and uniform, the sesame seeds can be uniformly heated in the frying cylinder, and the smoke exhaust component can exhaust smoke generated in the frying process and perform purification treatment, so that the whole frying process is more environment-friendly; water is conveyed to the water spraying and cooling component through a water pipe, the variable frequency motor drives the water spraying and cooling component to rotate while spraying water and scattering the water onto the flax seeds, at the moment, the water spraying and cooling component turns over the flax seeds in the material receiving component, turns over the upper layer flax seeds and the lower layer flax seeds up and down, accelerates heat loss, and water sprayed from the spraying position falls onto the flax seeds, so that the flax seeds can be cooled quickly, certain humidity of the flax seeds can be guaranteed, and the breakage rate of the flax seeds in the conveying process is reduced; the screening component can screen out the chips in the flax seeds and the impurities with larger particles in the powder end stage, and the chips and the powder are collected by the powder collecting component, so that the scattering of the powder and the chips in the flax seeds to the periphery is reduced, the powder and the chips are prevented from being bonded on the chute, the flowability of the flax seeds in the chute is reduced, the blanking of the flax seeds is not smooth, and the impurities with larger particles are discharged.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of fig. 1 from another angle.

Fig. 3 is a schematic structural view of the stir-frying part of the present invention.

Fig. 4 is a schematic structural diagram of the oil pressing part of the present invention.

Fig. 5 is a schematic structural view of the frying mechanism of the present invention.

Fig. 6 is a schematic structural view of the heat-insulating heating component of the present invention.

Fig. 7 is a partial enlarged view of a portion a in fig. 6.

Fig. 8 is a partial enlarged view of fig. 6 at B.

Fig. 9 is a schematic structural diagram of the screening device of the present invention.

Figure 10 is the cross-sectional structure diagram of the connection between the sieving component and the receiving component of the present invention.

Figure 11 is the structure schematic diagram of the utility model discloses screening support body.

Fig. 12 is a schematic structural view of the sieving cylinder of the present invention.

Fig. 13 is a schematic structural view of the cooling device of the present invention.

Fig. 14 is a schematic structural view of the water spray cooling component of the present invention.

Fig. 15 is a schematic cross-sectional structure of fig. 13.

Fig. 16 is a schematic view of the sectional structure of the oil residue dispersing device of the present invention.

Fig. 17 is a schematic structural view of the scattering component of the present invention.

Fig. 18 is a schematic structural diagram of the crude oil filtering device of the present invention.

Fig. 19 is a schematic structural diagram of the crude oil filtering component of the present invention.

Fig. 20 is a partial enlarged view at C in fig. 18.

Fig. 21 is a schematic cross-sectional view of the stirring plate of the present invention.

In the drawing, a frying mechanism 01, a frying cylinder 11, a stirring piece 111, a discharging chute 112, a power assembly 12, a heat preservation heating component 13, a heat preservation cylinder 131, a supporting frame body 132, an adjusting component 133, a connecting screw 1331, an adjusting nut 1332, a first connecting lug 1333, a second connecting lug 1334, a heating component 134, a lining board 1341, an electric heating coil 1342, a protective cover 14, an access door 141, a feeding component 02, a containing bin 21, a conveyor 22, a discharging chute 23, a smoke exhaust component 03, a smoke exhaust pipe 31, a smoke purifier 32, a cooling and cooling device 04, a supporting platform 41, a variable frequency motor 42, a water pipe 43, a water spraying and cooling component 44, a stirring mechanism 441, a stirring shaft 4411, a stirring component 4412, a connecting sleeve 121, an upper stirring rod 44122, a lower stirring rod 123, a water spraying mechanism 442, a hollow rotating shaft 4421, a belt 4422, a water receiving hopper 4423, a water spraying disc 4424, a water leakage hole 44241, a sieving device 05, a sieving component 51, a sieving mechanism, a positioning guide rail 5111, a positioning guide rail 515151515112, a sealing cover 5151515151515151515151515151515151515151, a horizontal oil guide plate supporting rod assembly 7221, a horizontal oil collecting rotary rod driving rotary rod 7223, a horizontal oil collecting rotary rod 7223, a horizontal rotary rod conveying device 7223, a horizontal rotary rod 7223, a rotary rod conveying device of a rotary screen rack of a rotary screen cylinder 722, a rotary screen rack 722, a rotary screen cylinder 722, a rotary screen rack 8123, a filter rack 8123, a horizontal rotary screen rack 7223, a rotary screen rack 8123, a filter rack 8123, a rotary screen rack, a filter rack, a rotary screen rack 8123, a rotary screen rack 8121, a rotary screen rack 8123, a rotary screen rack connected with a rotary screen rack, a rotary screen rack 8123, a rotary screen cylinder 722, a rotary screen drum 7223, a rotary screen rack 8123, a rotary screen bracket 8123, a rotary screen rack 8123, a rotary screen.

Detailed Description

The embodiment of the utility model provides a sesame seed system of extracting oil of frying, including sesame seed system of frying part and sesame seed portion of extracting oil, sesame seed system of frying part is including frying the device, cooling device 04, screening plant 05, and screening plant 05 sets up at the discharge gate end of frying the system, and the entry end of screening plant 05 and the discharge gate end intercommunication of frying the system to sieve the sesame seed of accomplishing, cooling device 04 sets up directly over screening plant 05 discharge gate end, carries out cooling, humidification processing to the sesame seed of accomplishing of sieving;

referring to fig. 3, 5 and 6, the frying device comprises a frying mechanism 01, a feeding part 02 and a smoke discharging part 03, the frying mechanism 01 comprises a frying cylinder 11 and a power assembly 12, the power assembly 12 is arranged at the feeding port end of the frying cylinder 11, the power assembly 12 is fixedly connected with the frying cylinder 11 to drive the frying cylinder 11 to rotate, and the power assembly 12 is a combination of a motor and a reducer; a discharge chute 112 is fixedly arranged at the discharge end of the frying cylinder 11, a heat-insulating heating component 13 is arranged outside the frying cylinder 11, the heat-insulating heating component 13 can radiate heat to the outer wall of the frying cylinder 11, thereby transferring the heat to the frying cylinder 11, and further enabling the heat-insulating heating component 13 to heat and insulate the frying cylinder 11, so that the temperature in the frying cylinder 11 is more stable and uniform, the heat-insulating heating component 13 wraps the frying cylinder 11 in the heat-insulating heating component 13, a protective cover 14 is arranged outside the heat-insulating heating component 13, an access door 141 for maintenance is arranged on the protective cover 14, a feeding component 02 is arranged above the frying mechanism 01 and is positioned at the feed inlet end of the frying mechanism 01, the outlet end of the feeding component 02 passes through the protective cover 14 and extends to the feed inlet of the frying cylinder 11, so as to convey materials to the inside of the frying cylinder 11, a smoke exhaust component 03 is arranged at one side of the frying mechanism 01, and the entrance point of the smoke exhaust component 03 passes through the protective cover 14 and is respectively communicated with the discharge port end and the feed port end of the frying cylinder 11, so that smoke generated in the frying process can be pumped away and purified, and the whole frying process is more environment-friendly.

Referring to fig. 9 to 12, the screening device 05 includes a screening member 51 and a powder collecting member 52, the screening member 51 is disposed below the discharge chute 112, a feeding port end of the screening member 51 is communicated with a discharge port end of the discharge chute 112, the powder collecting member 52 is disposed at the feeding port end of the screening member 51, and an inlet end of the powder collecting member 52 is communicated with the screening member 51 to collect screened debris and powder. The scraps and the impurities with larger powder grade particles in the flax seeds can be screened out through the screening component 51, and the scraps and the powder are collected through the scrap collecting component 52, so that the scattering of the powder and the scraps in the flax seeds to the periphery is reduced, the powder and the scraps are prevented from being bonded on the discharging chute 112, the flowability of the flax seeds in the discharging chute 112 is reduced, the feeding of the flax seeds is not smooth, and the impurities with larger particles are discharged.

The screening component 51 comprises a screening frame body 511, a screening cylinder 512 and a driving motor 513, wherein the screening frame body 511 is arranged below the discharging chute 112, the screening frame body 511 is arranged obliquely, namely one end of the screening frame body 511, which is positioned at the powder dust collecting component 52, is higher than one end of the screening frame body 511, which is far away from the powder dust collecting component 52, so that the flax seeds are gradually and slowly screened from top to bottom when the screening cylinder 512 rotates, and in addition, when the powder collector 522 of the powder dust collecting component 52 sucks the flax seeds in the screening cylinder 512 in powder and debris manner, the flax seeds can be prevented from being sucked away; the screening device comprises a screening frame body 511, two end portions of the screening frame body 511 are fixedly provided with positioning guide rails 5111, supporting rotating wheels 5112 are installed in the positioning guide rails 5111, the supporting rotating wheels 5112 are connected with the positioning guide rails 5111 through bearings, two end portions of a screening cylinder 512 are embedded into the positioning guide rails 5111 and are in contact with the supporting rotating wheels 5112, a driving motor 513 is fixedly arranged at one end of the screening frame body 511, which is far away from a powder and scrap collecting part 52, and the driving motor 513 is fixedly connected with the screening cylinder 512 so as to drive the screening cylinder 512 to relatively rotate along the supporting rotating wheels 5112.

Referring to fig. 13 and 14, the cooling device 04 includes a supporting platform 41, a variable frequency motor 42, a water pipe 43, and a water spraying cooling component 44, the supporting platform 41 is disposed right above the discharge port end of the material receiving component 53, the water spraying cooling component 44 is installed below the supporting platform 41, the lower end of the water spraying cooling component 44 is located inside the material receiving component 53, the upper end of the water spraying cooling component 44 passes through the supporting platform 41, and extends to the upper part of the supporting platform 41, the water spray cooling component 44 is connected with the supporting platform 41 through a bearing, the variable frequency motor 42 is arranged at one end of the upper part of the supporting platform 41, the variable frequency motor 42 is connected with the upper part of the water spray cooling component 44 through a transmission belt, the water pipe 43 is arranged above the supporting platform 41, the outlet end of the water pipe 43 faces the top of the water spray cooling component 44, and the water pipe 43 is also provided with a valve which can control the water pipe 43 to be opened and closed. Open the valve on the water pipe 43, water pipe 43 carries water to water spray cooling part 44, inverter motor 42 motor drives water spray cooling part 44 and rotates on one side, spray water on one side, and scatter to the sesame seed, at this moment, water spray cooling part 44 stirs the sesame seed in the material receiving part 53, stir upper sesame seed and lower floor sesame seed from top to bottom, can connect the heat loss of the sesame seed in the material receiving part 53 with higher speed, and the water that sprays the department drops on the sesame seed, not only can cool down quick sesame seed, and can guarantee that the sesame seed has certain humidity, thereby reduce the breakage rate of the sesame seed at the in-process of carrying.

Referring to fig. 4, the linseed oil press part includes an oil press 06, an oil residue dispersing device 07, a crude oil filtering device 08, a first oil residue conveyor S1, a second oil residue conveyor S2, a waste residue conveyor S3, an oil residue elevator T1, and a waste residue elevator T2, wherein the first oil residue conveyor S1, the second oil residue conveyor S2, and the waste residue conveyor S3 are screw conveyors. The oil residue dispersing device 07 comprises an oil residue buffer bin 71 and a scattering component 72, wherein the oil residue buffer bin 71 is arranged above a feed inlet end of the oil press 06, the scattering component 72 is arranged inside the oil residue buffer bin 71, and the scattering component 72 is connected with the oil residue buffer bin 71 through a bearing. The cubic dregs of fat carry earlier to in the dregs of fat surge bin 71, the dregs of fat of caking form enter into behind the dregs of fat surge bin 71, can disperse the cubic dregs of fat through the part 72 that shakes that sets up in the dregs of fat surge bin 71, the dregs of fat after the dispersion again enters into the feed inlet end of oil press 06 in the dregs of fat surge bin 71, can guarantee like this to connect cubic dregs of fat to be dispersed completely, can effectually prevent that the cubic dregs of fat from blockking up the feed inlet end of oil press 06, and the dispersed dregs of fat enter into and carry out the secondary in the oil press 06 and squeeze, can the oily efficiency of the play of effectual improvement dregs of fat. Crude oil filter equipment 08 includes crude oil receiving component 81, crude oil filter component 82, hold groove 83, crude oil receiving component 81 sets up under the oil-out of oil press 06, crude oil filter component 82 sets up the side below at crude oil receiving component 81, and the exit end of crude oil receiving component 81 is located crude oil filter component 82 directly over, hold groove 83 and set up the side below at crude oil filter component 82, and the exit end of crude oil filter component 82 is located and holds groove 83 directly over. Can scrape the crude oil that flows from the 06 oil-out of oil press automatically to in the crude oil filter unit 82 through the crude oil receiving element 81 that sets up, multiplicable production efficiency, solve the manual big problem of crude oil intensity of labour that stirs of workman, utilize the crude oil filter unit 82 that sets up both can filter the crude oil, can stir the crude oil in the crude oil filter unit 82 automatically again to improve filtration efficiency, reduce workman intensity of labour. The slag hole of the oil press 06 is provided with an oil slag pipe G1 and a slag discharge pipe G2, the oil slag pipe G1 and the slag discharge pipe G2 are both communicated with the slag hole end of the oil press, and the slag discharge pipe G1, the slag discharge pipe G2 and the slag hole end of the oil press form a herringbone structure. The first oil residue conveyor S1 is arranged below the oil residue pipe G1, the oil residue pipe G1 is communicated with the first oil residue conveyor S1, the oil residue elevator T1 is arranged at one side of the oil press, the inlet end of the oil residue elevator T1 is communicated with the outlet end of the first oil residue conveyor S1, the outlet end of the oil residue elevator T1 is communicated with the inlet end of the second oil residue conveyor S2, the outlet end of the second oil residue conveyor S2 is communicated with the inlet end of an oil residue buffer bin, the first oil residue conveyor S1, the second oil residue conveyor S2 and the oil residue elevator T1 are used for conveying oil residues into the oil press 06 for secondary pressing, so that the oil residue oil press efficiency is improved, the waste residue conveyor S3 is arranged below the waste residue discharge pipe G2, the waste residue pipe G2 is communicated with the waste residue conveyor S3, the waste residue elevator T2 is arranged at the other side of the oil press, and the inlet end of the elevator T2 is communicated with the waste residue conveyor S3, so as to discharge and convey the squeezed waste residues.

The heat preservation heating part 13 includes the heat preservation barrel 131, support the support body 132, adjusting part 133, the heat preservation barrel 131 detachable is installed on supporting the support body 132, the heat preservation barrel 131 will fry a system section of thick bamboo 11 parcel in the inside of heat preservation barrel 131, and the heat preservation barrel 131 with fry and leave the interval between a system section of thick bamboo 11, still install the heating part 134 on the outer wall of heat preservation barrel 131, the heating part 134 is laminated with the outer wall of heat preservation barrel 131 mutually, adjusting part 133's one end can be dismantled with the support body 132 and be connected, the other end can be dismantled with the heat preservation barrel 131 and.

Referring to fig. 7, the heating member 134 includes a liner 1341 and an electric heating coil 1342, the liner 1341 is fixedly mounted on the outer wall of the heat-insulating cylinder 131 by bolts along the axial direction of the heat-insulating cylinder 131, the electric heating coil 1342 is wound on the liner 1341, so that a space is left between the electric heating coil 1342 and the heat-insulating cylinder 131, the electric heating coil 1342 is prevented from being attached to the outer wall surface of the heat-insulating cylinder 131 for a long time and damaging a protective layer outside the electric heating coil 1342, and the electric heating coil 1342 is spirally distributed along the outer wall of the heat-insulating cylinder 131, so that the outer wall of the heat-insulating cylinder 131.

Referring to fig. 8, the adjusting parts 133 are located below and at both sides of the heat insulating cylinder 131, and the adjusting parts 133 are equidistantly disposed along the axial direction of the heat insulating cylinder 131. The adjusting member 133 includes a connection screw 1331, an adjusting nut 1332, a first connection ear 1333, and a second connection ear 1334, the first connection ear 1333 is fixedly disposed on the support frame 132, the second connection ear 1334 is fixedly disposed on the outer wall of the thermal insulation cylinder 131, one end of the connection screw 1331 is connected with the first connection ear 1333 disposed on the support frame 132 and is fixed by the adjusting nut 1332, and the other end of the connection screw 1331 is connected with the second connection ear 1334 on the thermal insulation cylinder 131 and is fixed by the adjusting nut 1332. In the installation process, considering that the frying cylinder 11 is connected with the power assembly 12 through a shaft, when the heat-insulating cylinder body 131 is sleeved on the frying cylinder 11, the distance between the inner wall of the heat-insulating cylinder body 131 and the outer wall of the frying cylinder 11 cannot be completely ensured to be completely consistent, at this time, the adjusting nut 1332 can be screwed to enable the connecting screw 1331 to drive the heat-insulating cylinder body 131 to move up and down and left and right, so that the distance between the inner wall of the heat-insulating cylinder body 131 and the outer wall of the frying cylinder 11 is kept consistent, the heat radiated onto the heat-insulating cylinder body 131 by the electric heating coil 1342 is more uniform, the phenomenon that the local heat is insufficient can not occur, and the temperature of the heat radiated onto the frying cylinder 11 by the heat-insulating cylinder body 131 is stable and uniform.

The inner wall of the frying cylinder 11 is fixedly provided with material turning pieces 111, the material turning pieces 111 are distributed spirally along the inner wall of the frying cylinder 11, and a distance is reserved between the head and the tail of each two adjacent material turning pieces 111. In the process that the power component 12 drives the frying cylinder 11 to rotate, the stirring pieces 111 can enable the flax seeds in the frying cylinder 11 to be overturned ceaselessly, the phenomenon that local flax seeds are excessively heated to fry the flax seeds can be prevented, and the distance is reserved between the head and the tail of every two adjacent stirring pieces 111, so that the flax seeds in the frying cylinder 11 can be mixed more uniformly in the overturning process.

The feeding component 02 comprises a material containing bin 21 and a conveyor 22, the material containing bin 21 is arranged above the frying mechanism 01, the conveyor 22 is arranged under the material containing bin 21, the inlet end of the conveyor 22 is communicated with the outlet end of the bottom of the material containing bin 21, the outlet end of the conveyor 22 is connected with a discharging chute 23, and the discharging chute 23 penetrates through the protective cover 14 and is communicated with the feeding port end of the frying cylinder 11. Wherein, the conveyor 22 can be a screw conveyor.

The smoke exhaust component 03 comprises a smoke exhaust pipe 31 and a smoke purifier 32, wherein the inlet end of the smoke exhaust pipe 31 penetrates through the protective cover 14 and is communicated with the discharge port end and the feed port end of the frying cylinder 11 respectively, the outlet end of the smoke exhaust pipe 31 is communicated with the smoke purifier 32, smoke generated in the frying process can be pumped away and purified, and the whole frying process is more environment-friendly.

The temperature monitor is arranged on the heat-insulating cylinder body 131, the temperature on the heat-insulating cylinder body 131 can be constantly monitored by the aid of the arranged temperature monitor, so that the temperature on the heat-insulating cylinder body 131 is in a stable state, heat radiated to the frying cylinder 11 by the heat-insulating cylinder body 131 can be guaranteed to be stable, and frying quality of the flax seeds is improved.

Two ends of the sieving cylinder 512 are fixedly provided with supporting rotary discs 5121, and the supporting rotary discs 5121 are embedded into the positioning guide rails 5111 and are in contact with the supporting rotary wheels 5112.

Strip-shaped sieve holes 5122 are formed in the outer wall of the screening cylinder 512, the strip-shaped sieve holes 5122 are arranged along the axial direction of the screening cylinder 512, the strip-shaped sieve holes are circumferentially distributed at equal intervals along the outer wall of the screening cylinder 512, and when the screening cylinder 512 rotates, the flax seeds flow out of the strip-shaped sieve holes 5122.

A feed pipe 5123 is fixedly arranged at the feed inlet end of the sieving cylinder 512, the inlet end of the feed pipe 5123 is communicated with the discharge outlet end of the discharge chute 112, the outlet end of the feed pipe 5123 extends to the inside of the sieving cylinder 512 along the feed inlet end of the sieving cylinder 512, and the feed pipe 5123 is positioned above the inside of the sieving cylinder 512. The outlet end of the feed pipe 5123 is detachably provided with the scattering nozzle 5124, the scattering nozzle 5124 is fan-shaped, when the flax seeds fall along the feed pipe 5123 and are sprayed out from the scattering nozzle 5124, the scattering nozzle 5124 can scatter the flax seeds and drop downwards in a waterfall shape, and powder and debris mixed in the flax seeds are light in weight, so that the powder collector 522 can be more beneficial to sucking away the powder and debris mixed in the flax seeds through the powder guide pipe 521.

A discharge groove 5125 is fixedly arranged below one end of the screening cylinder 512 far away from the powder scrap collecting part 52, so that large-particle impurities after screening can be discharged.

The top detachable of screening support body 511 is provided with sealed cowling 5113, and sealed cowling 5113 is with the first half parcel and the sealing of screening section of thick bamboo 512, can prevent on the one hand that tiny debris from falling to in the screening section of thick bamboo 512, and on the other hand can prevent that screening section of thick bamboo 512 from throwing away partial sesame seed granule when the pivoted. The material receiving component 53 is arranged under the screening frame body 511, the material receiving component 53 comprises a material receiving bin 531 for receiving the screened flax seeds and a material transferring groove 532 for transferring the screened flax seeds, the material receiving bin 531 is fixedly arranged under the screening frame body 511, the material transferring groove 532 is arranged on one side of the material receiving bin 531, and the material transferring groove 532 is communicated with the bottom outlet end of the material receiving bin 531.

The powder collecting component 52 comprises a powder guide pipe 521 and a powder collector 522, the powder collector 522 is arranged at the feed inlet end of the sieving cylinder 512, the opening end of the powder guide pipe 521 is communicated with the powder collector 522, the inlet end of the powder guide pipe 521 is communicated with the feed inlet end of the sieving cylinder 512, and the inlet end of the powder guide pipe 521 is horn-shaped, so that the suction area of the powder guide pipe 521 can be increased, and powder and debris mixed in flaxseeds can be sucked away. Wherein, the powder collector 522 is a combination of a fan and a dust collector.

Referring to fig. 13, 14 and 15, the water spraying and cooling component 44 includes a material turning mechanism 441 and a water spraying mechanism 442, the water spraying mechanism 442 includes a hollow rotating shaft 4421, a belt pulley 4422 for connecting a transmission belt is fixedly disposed at an upper end of the hollow rotating shaft 4421, a water receiving bucket 4423 is fixedly disposed at a top of the hollow rotating shaft 4421, the water receiving bucket 4423 is communicated with an interior of the hollow rotating shaft 4421, a water spraying plate 4424 is fixedly disposed at a lower end of the hollow rotating shaft 4421, the water spraying plate 4424 is communicated with the hollow rotating shaft 4421, and a water leakage hole 44241 for discharging water is disposed on a bottom surface of the water spraying plate 4424. The stirring mechanism 441 is fixedly arranged right below the water spraying disc 4424, the stirring mechanism 441 comprises a stirring shaft 4411, the upper end of the stirring shaft 4411 is fixedly connected with the bottom of the water spraying disc 4424, and the lower end of the stirring shaft 4411 is detachably connected with a stirring part 4412. The stirring component 4412 comprises a connecting sleeve 44121, an upper stirring rod 44122 and a lower stirring rod 44123, the connecting sleeve 44121 is sleeved on the lower end of the stirring shaft 4411, the connecting sleeve 44121 is in pin connection with the stirring shaft 4411, the lower stirring rod 44123 is positioned at the lower end of the stirring shaft 4411, the lower stirring rod 44123 is fixedly connected with the connecting sleeve 44121, the upper stirring rod 44122 is positioned above the lower stirring rod 44123, and the upper stirring rod 44122 is fixedly connected with the connecting sleeve 44121. The upper stirring rod 44122 and the lower stirring rod 44123 are equidistantly distributed along the outer wall surface of the connecting sleeve 44121, and the upper stirring rod 44122 and the lower stirring rod 44123 are arranged in a staggered manner.

The water in the water pipe 43 falls to the water receiving bucket 4423 and then enters the hollow rotating shaft 4421 to be filled in the water spraying disc 4424, when the variable frequency motor 42 drives the hollow rotating shaft 4421 to rotate, the upper layer stirring rod 44122 and the lower layer stirring rod 44123 are arranged in a staggered mode, the flax seeds flowing into the rotating groove 532 can be turned over up and down, at the moment, the water is thrown out of the water spraying disc 4424 due to the effect of centrifugal force and is scattered on the flax seeds, and the water can be uniformly scattered on the flax seeds along with the continuous turning over of the flax seeds, so that the flax seeds can be cooled to be below 40 ℃ quickly.

The bottom of the lower stirring rod 44123 is attached to the bottom of the material transferring groove 532. The lower stirring rod 44123 is in a shape of a right-pentagonal column, and one end of the lower stirring rod 44123 connected with the connecting sleeve 44121 is smaller than one end of the lower stirring rod 44123 far away from the connecting sleeve 44121. The distance between the upper agitating bar 44122 and the lower agitating bar 44123 is two thirds of the depth of the material transfer groove 532. The upper stirring rod 44122 is in a shape of a right pentagonal column, and one end of the upper stirring rod 44122 connected with the connecting sleeve 44121 is larger than one end of the upper stirring rod 44122 far away from the connecting sleeve 44121. Adopt this kind of design, can make the sesame seed of lower floor in the commentaries on classics silo 532 gather together to the centre of commentaries on classics silo 532, and the sesame seed of upper strata then scatters around in the commentaries on classics silo 532, thereby form the in-process of upper strata sesame seed whereabouts in the upset and scatter around, and the sesame seed of lower floor gathers together to the centre at the in-process of upset, can accelerate the inside heat loss of sesame seed like this, can make hydroenergy fully contact with sesame seed again simultaneously, be favorable to cooling down the sesame seed, the humidification.

Referring to fig. 16, the scattering component 72 includes a pushing mechanism 721 and a dispersing mechanism 722, the dispersing mechanism 722 is installed inside the oil residue buffer bin 71, the scattering component 72 is connected with the oil residue buffer bin 71 through a bearing, the pushing mechanism 721 is disposed at one end of the oil residue buffer bin 71, the pushing mechanism 721 penetrates through one side surface of the oil residue buffer bin 71 and is connected with the dispersing mechanism 722 in the oil residue buffer bin 71 through a pin shaft, and the pushing mechanism 721 can drive the dispersing mechanism 722 to shake left and right, which is beneficial to dispersing lumpy oil residues.

Referring to fig. 17, the dispersing mechanism 722 includes a supporting shaft 7221, a first side plate 7222, a second side plate 7223, and a cross bar 7224, the supporting shaft 7221 is installed inside the oil residue surge bin 71, and two ends of the supporting shaft 7221 are connected to the oil residue surge bin 71 through bearings; the first side plate 7222 and the second side plate 7223 are both crescent-shaped, the first side plate 7222 and the second side plate 7223 are oppositely arranged, and the first side plate 7222 and the second side plate 7223 are both fixedly connected with the support rotating shaft 7221 through fixing rods; crossbar 7224 is disposed between first side plate 7222 and second side plate 7223, one end of crossbar 7224 is movably connected to first side plate 7222, the other end of crossbar 7224 is movably connected to second side plate 7223, crossbar 7224 can rotate along first side plate 7222, second side plate 7223, and crossbar 7224 is equidistantly distributed along the long side direction of first side plate 7222, second side plate 7223. The fixed post 72241 that breaks up that is provided with on horizontal pole 7224, the post 72241 that breaks up distributes on horizontal pole 7224's surface along horizontal pole 7224's circumferential direction, it is coniform to break up post 72241, when the dregs of fat of caking form whereabouts, it can prick the massive dregs of fat to break up post 72241, become little massive dregs of fat, because horizontal pole 7224's both ends and first curb plate 7222, second curb plate 7223 are swing joint, circumferential direction can, and at this moment, horizontal pole 7224 is when circumferential direction, it can break up little massive dregs of fat to break up post 72241, thereby break up massive dregs of fat completely.

The pushing mechanism 721 comprises a fixed connecting frame 7211, a push rod 7212, L-shaped connectors 7213 and a pushing assembly 7214, the pushing assembly 7214 is installed outside the pomace surge bin 71, the pushing assembly 7214 is a combination of a motor and a speed reducer, two ends of the fixed connecting frame 7211 are in pin connection with a first side plate 7222 and one side of a second side plate 7223 close to the pushing assembly 7214, one bent end of the L-shaped connector 7213 is in pin connection with the pushing assembly 7214 through a cam, the other end of the L-shaped connector 7213 is in pin connection with the push rod 7212, one end of the push rod 7212 far away from the L-shaped connector 7213 is in pin connection with the fixed connecting frame 7211, the pushing assembly 7214 drives the cam to rotate, the cam pulls L-shaped connector 7213 to rotate along the movement track of the cam and drives the push rod 7212 to do transverse reciprocating motion, so that the.

The oil residue surge bin 71 is externally provided with a heat insulation interlayer 711, at least two baffle plates 712 are fixedly arranged inside the heat insulation interlayer 711, the baffle plates 712 are sequentially arranged from top to bottom, and the inside of the heat insulation interlayer 711 is divided into communicated S-shaped channels from top to bottom. Air with heat can be introduced into the heat-insulating interlayer 711 through a pipeline, such as exhaust gas of a wok, and the air with heat can flow along an S-shaped channel formed in the heat-insulating interlayer 711, so that a certain amount of heat is provided in the oil residue buffer bin 71, and the fluidity of the oil residue temporarily stored in the oil residue buffer bin 71 can be increased.

Referring to fig. 16 to 21, the crude oil receiving member 81 includes a first crude oil groove 811 and a crude oil guiding mechanism 812, the first crude oil groove 811 is disposed right below an oil outlet of the oil press 06, the crude oil guiding mechanism 812 is installed in the first crude oil groove 811 along a long side direction of the first crude oil groove 811, and the crude oil guiding mechanism 812 is connected to two side walls of the first crude oil groove 811 through bearings, the crude oil guiding mechanism 812 includes a power motor assembly 8121, a first rotating shaft 8122, a second rotating shaft 8123, and an oil scraping assembly 8124, the first rotating shaft 8122 and the second rotating shaft 8123 are disposed opposite to each other, the first rotating shaft 8122 and the second rotating shaft 8123 are disposed along a short side direction of the first crude oil groove 811, and the first rotating shaft 8122 and the second rotating shaft 8123 are connected to two side walls of the first crude oil groove 811 through bearings, and the first rotating shaft 8122 and the second rotating shaft 8123 are connected through two chains disposed opposite to each other, the oil scraping assembly 8124 is disposed between the two chains, two ends of the oil scraping component 8124 are detachably connected with the two chains respectively, and the oil scraping component 8124 is distributed at equal intervals along the traveling direction of the two chains. Because the crude oil flowing out of the oil outlet of the oil press 06 is poor in fluidity, the first rotating shaft 8122 and the second rotating shaft 8123 can rotate under the driving of the power motor component 8121, so that the oil scraping component fixed on the chain also rotates along with the traveling direction of the chain, and the crude oil in the first crude oil groove 811 can be guided into the second crude oil groove 821.

The oil scraping assembly 8124 comprises a transverse connecting rod 81241, a positioning base 81242 and a rubber guide plate 81243, two ends of the transverse connecting rod 81241 are connected with two chains through bolts respectively, the positioning base 81242 is fixedly arranged on the transverse connecting rod 81241, the rubber guide plate 81243 is installed on the positioning base 81242, and the rubber guide plate 81243 is detachably connected with the positioning base 81242.

The constant head tank has been seted up on the one side surface that transverse connection pole 81241 is kept away from to location base 81242, and the bolt hole that supplies the bolt to pass is seted up to running through on two lateral walls of constant head tank, and rubber guide board 81243 inserts in the constant head tank to fix location base 81242 and rubber guide board 81243 mutually through the bolt.

The crude oil filter member 82 includes a second crude oil tank 821 and a crude oil agitating mechanism 822, the second crude oil tank 821 is disposed below the side of the first crude oil tank 811, a filter plate 8211 is detachably mounted inside the second crude oil tank 821, the filter plate 8211 is parallel to the bottom of the second crude oil tank 821, and the crude oil agitating mechanism 822 is fixedly mounted right above the second crude oil tank 821.

The crude oil agitating mechanism 822 comprises a traveling guide rail 8221, an electric reciprocator 8222, a connecting screw rod 8223 and an agitating plate 8224, wherein the traveling guide rail 8221 is fixedly arranged right above the second crude oil tank 821 along the long side direction of the second crude oil tank 821, the electric reciprocator 8222 is an electric slider, and the electric reciprocator 8222 is arranged on the traveling guide rail 8221 and can reciprocate along the traveling guide rail 8221; the bottom of the electric reciprocator 8222 is fixedly provided with a square-mouth-shaped connecting piece 82221, the upper end of the connecting screw rod 8223 passes through the square-mouth-shaped connecting piece 82221 and is connected with the adjusting knob 82231 through arrangement, the lower end of the connecting screw rod 8223 is fixedly connected with the stirring plate 8224, and the stirring plate 8224 is arranged along the short side direction of the second crude oil tank 821. By manually screwing the adjusting knob 82231, the distance between the stirring plate 8224 and the bottom of the second crude oil tank 821 can be adjusted according to the depth of crude oil in the second crude oil tank 821, and the electric reciprocator 8222 can be driven to reciprocate along the long side direction of the second crude oil tank 821 by utilizing the reciprocating movement of the electric reciprocator 8222 on the walking guide rail 8221, so that crude oil in the second crude oil tank 821 is stirred.

The stirring plate 8224 is provided with a Y-shaped long hole 82241, the long hole 82241 is arranged along the long side direction of the stirring plate 8224, the long holes 82241 are distributed from top to bottom along the short side direction of the stirring plate 8224 at equal intervals, when the stirring plate 8224 reciprocates back and forth, crude oil can flow in from the larger end of the Y-shaped long hole 82241 in opening and then flows out from the smaller end of the opening, the flow speed is increased when the crude oil flows out from the smaller end of the opening, and thus the crude oil in the second crude oil groove 821 can be stirred sufficiently. The elongated holes 82241 are arranged in a staggered manner from top to bottom along the short side direction of the stirring plate 8224, namely the direction of the larger end of the previous elongated hole 82241 is opposite to the direction of the larger end of the next elongated hole 82241.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a system of extracting oil is fried to linseed seed which characterized in that: the oil press comprises a sesame seed frying part and a sesame seed oil pressing part, wherein the sesame seed frying part comprises a frying device, a cooling device and a screening device, the screening device is arranged at a discharge port end of the frying device, an inlet end of the screening device is communicated with the discharge port end of the frying device, and the cooling device is arranged right above the discharge port end of the screening device;

2. The system for frying oil from sesame seeds as claimed in claim 1, wherein: the heat-insulation heating component comprises a heat-insulation barrel, a support frame body and an adjusting component, wherein the heat-insulation barrel is detachably arranged on the support frame body, the heat-insulation barrel wraps the frying barrel in the heat-insulation barrel, a space is reserved between the heat-insulation barrel and the frying barrel, the heating component is also arranged on the outer wall of the heat-insulation barrel, the heating component is attached to the outer wall of the heat-insulation barrel, one end of the adjusting component is detachably connected with the support frame body, and the other end of the adjusting component is detachably connected with the heat-insulation; the adjusting part comprises a connecting screw rod, an adjusting nut, a first connecting lug and a second connecting lug, the first connecting lug is fixedly arranged on the support frame body, the second connecting lug is fixedly arranged on the outer wall of the heat-insulating cylinder body, one end of the connecting screw rod is connected with the first connecting lug arranged on the support frame body and is fixed through the adjusting nut, and the other end of the connecting screw rod is connected with the second connecting lug on the heat-insulating cylinder body and is fixed through the adjusting nut; the heater block includes welt, electric heating coil, and the welt passes through bolt fixed mounting on the outer wall of heat preservation barrel along the axial direction of heat preservation barrel, and electric heating coil twines on the welt to electric heating coil distributes along the outer wall heliciform of heat preservation barrel.

3. The system for frying oil from sesame seeds as claimed in claim 1, wherein: the water spraying cooling part comprises a material overturning mechanism and a water spraying mechanism, the water spraying mechanism comprises a hollow rotating shaft, a belt pulley used for being connected with a transmission belt is fixedly arranged at the upper end of the hollow rotating shaft, a water receiving hopper is fixedly arranged at the top of the hollow rotating shaft and is communicated with the inside of the hollow rotating shaft, a water spraying disc is fixedly arranged at the lower end of the hollow rotating shaft and is communicated with the hollow rotating shaft, the material overturning mechanism is fixedly arranged under the water spraying disc, the material overturning mechanism comprises a stirring shaft, the upper end of the stirring shaft is fixedly connected with the bottom of the water spraying disc, and the lower end of the stirring shaft is detachably connected with a stirring part; the stirring component comprises a connecting sleeve, an upper stirring rod and a lower stirring rod, the connecting sleeve is sleeved at the lower end of the stirring shaft and is connected with the stirring shaft through a pin shaft, the lower stirring rod is positioned at the lower end of the stirring shaft and is fixedly connected with the connecting sleeve, the upper stirring rod is positioned above the lower stirring rod, and the upper stirring rod is fixedly connected with the connecting sleeve; the upper-layer stirring rods and the lower-layer stirring rods are distributed at equal intervals along the outer wall surface of the connecting sleeve, and the upper-layer stirring rods and the lower-layer stirring rods are arranged in a staggered mode; the bottom of the lower stirring rod is attached to the bottom of the material transferring groove.

4. The system for frying oil from sesame seeds as claimed in claim 1, wherein: two end parts of the screening cylinder are fixedly provided with supporting turntables which are embedded into the positioning guide rail and are in contact with the supporting turning wheels; the outer wall of the screening cylinder is provided with strip-shaped screen holes, the strip-shaped screen holes are arranged along the axial direction of the screening cylinder, and the strip-shaped screening holes are circumferentially distributed at equal intervals along the outer wall of the screening cylinder; a feeding pipe is fixedly arranged at the feeding port end of the screening cylinder, the inlet end of the feeding pipe is communicated with the discharging port end of the discharging chute, the outlet end of the feeding pipe extends to the inside of the screening cylinder along the feeding port end of the screening cylinder, the feeding pipe is positioned above the inside of the screening cylinder, and a distributing nozzle is detachably arranged at the outlet end of the feeding pipe and is in a fan shape; the screening section of thick bamboo is kept away from the fixed row of material groove that is provided with in below of cuttings collecting member one end to discharge the large granule impurity after will screening.

5. The system for frying oil extraction by using sesame seeds as claimed in claim 1, wherein the shaking-out component comprises a pushing mechanism and a dispersing mechanism, the dispersing mechanism is installed inside the oil residue buffer bin, the shaking-out component is connected with the oil residue buffer bin through a bearing, the pushing mechanism is arranged at one end of the oil residue buffer bin, the pushing mechanism penetrates through one side surface of the oil residue buffer bin and is connected with a pin shaft of the dispersing mechanism in the oil residue buffer bin, the dispersing mechanism comprises a supporting rotating shaft, a first side plate, a second side plate and a cross rod, the supporting rotating shaft is installed inside the oil residue buffer bin, two end portions of the supporting rotating shaft are connected with the oil residue buffer bin through bearings, the first side plate and the second side plate are arranged, the first side plate and the second side plate are fixedly connected with the supporting rotating shaft through fixing rods, the cross rod is arranged between the first side plate and the second side plate, one end of the cross rod is movably connected with the first side plate, the other end of the cross rod is movably connected with the second side plate, the cross rod is equidistantly distributed along the long edge direction of the first side plate, the pushing columns are fixedly arranged on the cross rod, one end of the pushing rod is fixedly connected with a pushing rod connecting assembly L, the pushing rod connecting assembly is fixedly connected with the push rod connecting rack, the push rod assembly is fixedly connected with the push rod connecting head 3535, the push rod connecting assembly is fixedly connected with the push rod connecting head, the push rod connecting assembly, the push rod assembly.

6. The system for frying oil from sesame seeds as claimed in claim 1, wherein: the crude oil receiving component comprises a first crude oil groove and a crude oil guide mechanism, the first crude oil groove is arranged right below an oil outlet of the oil press, the crude oil guide mechanism is arranged in the first crude oil groove along the long edge direction of the first crude oil groove, the crude oil guide mechanism is connected with two side walls of the first crude oil groove through bearings, the crude oil guide mechanism comprises a power motor component, a first rotating shaft, a second rotating shaft and an oil scraping component, the first rotating shaft and the second rotating shaft are arranged oppositely, the first rotating shaft and the second rotating shaft are both arranged along the short side direction of the first crude oil groove, the first rotating shaft and the second rotating shaft are connected with two side walls of the first crude oil groove through bearings, the first rotating shaft and the second rotating shaft are connected through two chains which are arranged oppositely, the oil scraping assembly is positioned between the two chains, two end parts of the oil scraping assembly are detachably connected with the two chains respectively, and the oil scraping assembly is distributed at equal intervals along the traveling direction of the two chains; the oil scraping assembly comprises a transverse connecting rod, a positioning base and a rubber guide plate, the two ends of the transverse connecting rod are respectively connected with the two chains through bolts, the positioning base is fixedly arranged on the transverse connecting rod, the rubber guide plate is arranged on the positioning base, and the rubber guide plate is detachably connected with the positioning base.

7. The system for frying oil from sesame seeds as claimed in claim 1, wherein: the coarse oil filtering part comprises a second coarse oil groove and a coarse oil stirring mechanism, the second coarse oil groove is arranged below the side of the first coarse oil groove, a filtering plate is detachably arranged in the second coarse oil groove, the filtering plate is arranged in parallel with the bottom of the second coarse oil groove, and the coarse oil stirring mechanism is fixedly arranged right above the second coarse oil groove; coarse oil rabbling mechanism includes the walking guide rail, electric reciprocating device, connect the lead screw, stir the board, the walking guide rail is along the fixed setting directly over the coarse oil groove of second of the long limit direction of the coarse oil groove of second, electric reciprocating device installs on the walking guide rail, and can follow walking guide rail reciprocating motion, the fixed square mouth shape connecting piece that is provided with in bottom of electric reciprocating device, square mouth shape connecting piece has been rotated in the upper end of connecting the lead screw, and be connected through the adjust knob who sets up, the lower extreme of connecting the lead screw with stir board fixed connection, and stir the minor face direction setting of board along the coarse oil groove of second.

8. The system for frying oil from sesame seeds as claimed in claim 7, wherein: the stirring plate is provided with Y-shaped strip holes, the strip holes are arranged along the long side direction of the stirring plate, and the strip holes are distributed at equal intervals from top to bottom along the short side direction of the stirring plate; the strip holes are staggered from top to bottom along the direction of the short side of the stirring plate, namely the larger end of the previous strip hole is opposite to the larger end of the next strip hole.

9. The system for frying oil from sesame seeds as claimed in claim 1, wherein: the outside of the oil residue buffer bin is provided with a heat-insulating interlayer, at least two baffle plates are fixedly arranged inside the heat-insulating interlayer, the baffle plates are sequentially arranged from top to bottom, and the inside of the heat-insulating interlayer is separated into communicated S-shaped channels from top to bottom.