CN211199154U - Flax seed frying pan capable of separating impurities from outlet materials - Google Patents

Abstract

A sesame seed frying pan capable of separating impurities from outlet materials comprises a frying pan, wherein a discharge chute is arranged at the discharge opening end of the frying pan, a screening device is arranged below the discharge chute, the feed opening end of the screening device is communicated with the discharge opening end of the discharge chute, the screening device comprises a screening component and a powder and scrap collecting component, the screening component is arranged below the discharge chute, the feed opening end of the screening component is communicated with the discharge opening end of the discharge chute, the powder and scrap collecting component is arranged at the feed opening end of the screening component, and the inlet end of the powder and scrap collecting component is communicated with the screening component; the utility model discloses a screening part can sieve out the piece in the sesame seed, the great impurity of powder final stage granule to collect piece, powder through the breading collecting element, reduce powder, the piece in the sesame seed and to scattering all around, prevent that powder, piece can bond on the chute, lead to the reduction of the sesame seed mobility in the chute, cause the sesame seed unloading not smooth, and the great impurity of granule then is discharged.

Description

Flax seed frying pan capable of separating impurities from outlet materials

Technical Field

The utility model relates to a linseed oil production facility technical field especially relates to a can be to export sesame seed frying pan of material impurity separation.

Background

At present, after being fried by a frying pan, flax seeds are directly discharged to a screw conveyor from a chute at the outlet end of the frying pan and then enter an oil press for oil pressing, but when the flax seeds are discharged to the screw conveyor from the chute, powder and scraps in the flax seeds not only scatter around to cause poor environment of a production workshop, but also part of the powder and the scraps can be bonded on the chute to cause reduction of the flowability of the flax seeds in the chute, so that the flax seeds are not smooth to be discharged; in addition, mixing the powder, crumbs and flaxseed together into an oil press for pressing results in an increase in the impurity content of the pressed crude oil.

Disclosure of Invention

In view of the above, there is a need for a sesame seed frying pan capable of separating impurities from the export material.

The utility model provides a can be to sesame seed frying pan of export material impurity separation, is including frying the system pot, fry the discharge gate end of system pot and be provided with ejection of compact chute, be provided with screening plant in the below of ejection of compact chute, screening plant's feed inlet end and the discharge gate end intercommunication of ejection of compact chute, screening plant includes screening part, cuttings collecting element, and screening part sets up in the below of ejection of compact chute, and screening part's feed inlet end and the discharge gate end intercommunication of ejection of compact chute, cuttings collecting element set up the feed inlet end at screening part, and cuttings collecting element's entry end and screening part intercommunication to the piece, the powder that will sieve come out are collected.

Preferably, the screening part is including the screening support body, a screening section of thick bamboo, driving motor, the screening support body sets up the below at ejection of compact chute, the slope of screening support body sets up, the one end that the screening support body is located the cuttings collecting element promptly is higher than the one end that the cuttings collecting element was kept away from to the screening support body, two end fixing of screening support body are provided with the location guide rail, install the support runner in the location guide rail, two tip embedding of screening section of thick bamboo are in the location guide rail, and contact with the support runner, and a screening section of thick bamboo can be followed and support the relative rotation of runner, driving motor is fixed to be set up the one end of keeping away from the cuttings collecting element at the screening support body, and driving motor and a screening section of thick bamboo fixed.

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.

Preferably, 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.

Preferably, the feed inlet end of a screening section of thick bamboo is fixed and is provided with the inlet pipe, and the entry end of inlet pipe and the discharge gate end intercommunication of ejection of compact chute, the exit end of inlet pipe extend to the inside of a screening section of thick bamboo along the feed inlet end of a screening section of thick bamboo, and the inlet pipe is located the inside top of a screening section of thick bamboo.

Preferably, the outlet end of the feeding pipe is detachably provided with a dispersing nozzle which is fan-shaped.

Preferably, a discharge groove is fixedly arranged below one end, far away from the powder collecting component, of the screening cylinder, so that large-particle impurities after screening can be discharged.

Preferably, the top detachable of screening support body is provided with the sealed cowling, and the sealed cowling will be screened the first half parcel of section of thick bamboo and sealed.

Preferably, be provided with under the screening support body and connect the material part, connect the material part including connecing feed bin, change the silo, connect the fixed setting in the screening support body in material bin under, change the silo setting and connecing one side of feed bin, and change the silo and connect the bottom exit end intercommunication in feed bin.

Preferably, the powder collecting part comprises a powder guide pipe and a powder collector, the powder collector is arranged at the feed port end of the sieving cylinder, the opening end of the powder guide pipe is communicated with the powder collector, the inlet end of the powder guide pipe is communicated with the feed port end of the sieving cylinder, and the inlet end of the powder guide pipe is horn-shaped.

The utility model adopts the above technical scheme, its beneficial effect lies in: the utility model discloses an including stir-fry system pot, the discharge gate end of stir-fry system pot is provided with the ejection of compact chute, be provided with screening plant in the below of ejection of compact chute, the feed inlet end of screening plant communicates with the discharge gate end of ejection of compact chute, screening plant includes screening part, cuttings collecting member, screening part sets up in the below of ejection of compact chute, the feed inlet end of screening part communicates with the discharge gate end of ejection of compact chute, cuttings collecting member sets up the feed inlet end at screening part, the entry end and the screening part intercommunication of cuttings collecting member to the piece, the powder that will sieve out are collected; the utility model discloses a screening part can sieve out the piece in the sesame seed, the great impurity of powder final stage granule to collect piece, powder through the breading collecting element, reduce powder, the piece in the sesame seed and to scattering all around, prevent that powder, piece can bond on the chute, lead to the reduction of the sesame seed mobility in the chute, cause the sesame seed unloading not smooth, and the great impurity of granule then is 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 diagram of the screening device of the present invention.

Figure 4 is the utility model discloses the cross-sectional structure schematic diagram that screening part and material receiving part are connected.

Figure 5 is the structure schematic diagram of the screening frame body of the utility model.

Fig. 6 is a schematic structural view of the sieving cylinder of the present invention.

In the figure: the device comprises a frying pan 01, a discharge chute 11, a power assembly 12, a screening device 05, a screening component 51, a screening frame body 511, a positioning guide rail 5111, a supporting rotating wheel 5112, a sealing cover 5113, a screening cylinder 512, a supporting rotary disc 5121, a strip-shaped screen hole 5122, a feeding pipe 5123, a distributing nozzle 5124, a discharging groove 5125, a driving motor 513, a powder scrap collecting component 52, a powder guide pipe 521, a powder collector 522, a material receiving component 53, a material receiving bin 531 and a material transferring groove 532.

Detailed Description

Referring to fig. 1 to 6, an embodiment of the present invention provides a sesame seed frying pan capable of separating impurities from an export material, including a frying pan 01, the frying pan 01 is driven by a power assembly 12 disposed at a feeding port end of the frying pan 01, the power assembly 12 is a combination of a motor and a reducer, a discharging port end of the frying pan 01 is provided with a discharging chute 11, a screening device 05 is disposed below the discharging chute 11, the feeding port end of the screening device 05 is communicated with the discharging port end of the discharging chute 11, the screening device 05 includes a screening component 51 and a powder collecting component 52, the screening component 51 is disposed below the discharging chute 11, the feeding port end of the screening component 51 is communicated with the discharging port end of the discharging chute 11, the powder collecting component 52 is disposed at the feeding port end of the screening component 51, and an inlet end of the powder collecting component 52 is communicated with the screening component 51, so as to separate screened chips, And (5) collecting powder. The chips and the impurities with larger powder-final-stage particles in the flax seeds can be screened out through the screening component 51, and the chips and the powder are collected through the powder collecting component 52, 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 discharging chute 11, the flowability of the flax seeds in the discharging chute 11 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 11, 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.

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 11, 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.

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 (10)

1. The utility model provides a can be to sesame seed frying pan of export material impurity separation, including frying the system pot, its characterized in that: fry the discharge gate end of system pot and be provided with ejection of compact chute, be provided with screening plant in the below of ejection of compact chute, the feed inlet end of screening plant and the discharge gate end intercommunication of ejection of compact chute, screening plant includes screening part, cuttings collection component, and screening part sets up in the below of ejection of compact chute, and screening part's feed inlet end and the discharge gate end intercommunication of ejection of compact chute, cuttings collection component set up the feed inlet end at screening part, and cuttings collection component's entry end and screening part intercommunication to the piece, the powder that will sieve come out are collected.

2. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 1, is characterized in that: screening part is including the screening support body, a screening section of thick bamboo, driving motor, the screening support body sets up the below at ejection of compact chute, screening support body slope sets up, the one end that the screening support body is located the cuttings collecting element promptly is higher than the screening support body and keeps away from the one end of cuttings collecting element, two end fixing of screening support body are provided with the location guide rail, install the support runner in the location guide rail, two tip imbeds in the location guide rail of a screening section of thick bamboo, and contact with the support runner, and a screening section of thick bamboo can be followed and support the runner and rotate relatively, driving motor is fixed to be set up the one end of keeping away from cuttings collecting element at the screening support body, and driving motor and a screening section of thick bamboo fixed connection, rotate with.

3. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 2, is characterized in that: and the 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 rotating wheels.

4. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 3, wherein: the screening drum is characterized in that strip-shaped screen holes are formed in the outer wall of the screening drum, the strip-shaped screen holes are arranged along the axial direction of the screening drum, and the strip-shaped screening holes are distributed along the outer wall of the screening drum in a circumferential equidistant mode.

5. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 4, is characterized in that: the feed inlet end of a screening section of thick bamboo is fixed and is provided with the inlet pipe, and the entry end of inlet pipe and the discharge gate end intercommunication of ejection of compact chute, the exit end of inlet pipe extend to the inside of a screening section of thick bamboo along the feed inlet end of a screening section of thick bamboo, and the inlet pipe is located the inside top of a screening section of thick bamboo.

6. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 5, is characterized in that: the outlet end of the feeding pipe is detachably provided with a scattering nozzle which is fan-shaped.

7. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 5, is characterized in that: screening section of thick bamboo is kept away from the fixed row of being provided with material groove in below of cuttings collection component one end to discharge the large granule impurity after will screening.

8. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 2, is characterized in that: the top detachable of screening support body is provided with the sealed cowling, and the sealed cowling will be screened the first half parcel of section of thick bamboo and sealed.

9. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 8, wherein: be provided with under the screening support body and connect the material part, connect the material part including connecing feed bin, change the silo, connect the fixed setting in screening support body in material bin under, change the silo setting and in the one side that connects the feed bin, and change the silo and connect the bottom exit end intercommunication in feed bin.

10. The sesame seed frying pan capable of separating impurities in an outlet material as claimed in claim 1, is characterized in that: the powder collecting component comprises a powder guide pipe and a powder collector, the powder collector is arranged at the feed port end of the sieving cylinder, the opening end of the powder guide pipe is communicated with the powder collector, the inlet end of the powder guide pipe is communicated with the feed port end of the sieving cylinder, and the inlet end of the powder guide pipe is horn-shaped.

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