CN212560141U - Novel efficient rotary type heat-conducting oil frying pan - Google Patents

Abstract

The utility model discloses a novel high-efficiency rotary heat-conducting oil frying pan, which comprises a heat-conducting oil storage tank and a support, wherein the heat-conducting oil storage tank is obliquely arranged and is fixedly arranged on the upper part of the support, an upper seed frying cylinder and a lower seed frying cylinder are arranged inside the heat-conducting oil storage tank and parallel to the outer surface of the heat-conducting oil storage tank, the upper part of the upper seed frying cylinder is provided with a charging opening, the lower part of the lower seed frying cylinder is provided with a material outlet, and, be provided with the connector between seed cylinder one side tail end down, the connector will be gone up the inside intercommunication of frying seed cylinder and frying seed cylinder down, is provided with auger A in going up the seed cylinder, is provided with auger B in frying the seed cylinder down, and the top of conduction oil storage tank is provided with the conduction oil filler, and conduction oil storage tank bottom is provided with the oil extraction pipe, installs high temperature resistant valve on the oil extraction pipe, and the bottom of conduction oil storage tank is provided with the recess that sinks, is provided with the electrothermal tube in the recess that sinks. The device avoids the defects of the frying pan used at present, and can ensure that the produced fried seeds have high quality, small smoke quantity and less burnt seeds.

Description

Novel efficient rotary type heat-conducting oil frying pan

Technical Field

The utility model relates to an equipment field is used in the processing of linseed oil, concretely relates to novel high-efficient gyration formula conduction oil frying pan.

Background

In the traditional process for preparing edible cooked linseed oil in northwest China, the first step is to fry raw linseed seeds to be cooked. For a long time, a rotary frying pan heated by coal is used for frying in the frying process. Since the state puts forward a policy of changing coal into electricity, many manufacturers turn to stir-frying by using an electromagnetic heating rotary frying pan. Coal-fired heating rotary frying pan: the furnace body is a square or rectangular furnace body built by cement bricks and stones, a rectangular pit is arranged below the furnace body and is used for containing burnt coal ash, a square or rectangular furnace chamber is built by high-temperature-resistant clay materials above the pit, and a grate is arranged at the bottom of the furnace chamber. The upper part of the furnace chamber is provided with a rotatable iron cylinder frying pan, and a spiral channel is arranged in the cylinder frying pan. The spiral channel functions as: when the cylinder rotates clockwise, the spiral channel can feed the flax seed materials into the hearth. When the drum is inverted, the screw channel transports the flaxseed material out of the furnace. When the device works, coal is added into the hearth and ignited, the iron cylindrical frying pan is heated and baked by using the high temperature of the combustion of the coal, and the raw flax seeds in the frying pan can be fried thoroughly by the continuous rotation of the frying pan. Electromagnetic heating rotary frying pan: the electromagnetic heating technology is a heating technology which is widely used at present, and an electromagnetic heating rotary frying pan used in the preparation process of edible cooked linseed oil is improved by adding an electromagnetic heating device on the basis of a coal-fired heating rotary frying pan. The spiral channel structure inside the cylindrical frying pan is completely consistent with the structure of the coal-fired heating rotary cylindrical frying pan. The difference is that the furnace body is not built by cement bricks and stones, but a steel frame is used for supporting the cylindrical frying pan, the outer wall of the cylindrical frying pan is wrapped with an asbestos fiber heat-insulating layer with the thickness of about one centimeter, and an electromagnetic coil is wound on the heat-insulating layer. In addition, an electromagnetic control box connected with the heating device is arranged, the electromagnetic coil is connected with the control box through a reversing device, and the wiring reversing device is composed of an insulating disc fixed on a shaft of the cylindrical frying pan, a copper ring on the edge disc and a carbon brush contacted with the copper ring. Except the heating mode, the working mode of the rotary frying pan is completely consistent with the working mode of a coal-fired heating rotary frying pan.

The coal-fired frying pan has the disadvantages of large discharge amount of waste smoke and waste gas and environmental pollution. The electric power consumed when the electromagnetic frying pan is used is large; the electro-thermal conversion efficiency of electromagnetic heating is lower than that of resistance-type electro-thermal conversion, and because the electro-thermal frequency conversion controller of electromagnetic heating needs to consume certain electric power, the electro-thermal conversion efficiency of electromagnetic heating is lower than that of resistance-type electro-thermal conversion; the electromagnetic heating has high use cost and maintenance cost, the working condition of an oil pressing workshop is particularly complex, the oil pressing workshop is an environment polluted by high temperature, high humidity, much dust and much smoke, and is more precise instrument equipment, the problem is more likely to occur when the oil pressing workshop is used on the ground, an electromagnetic heating electric frequency conversion controller belongs to the precise instrument equipment, the equipment is expensive, the use cost is high, the operation failure rate is high in the complex severe environment, the maintenance is difficult, and the maintenance cost is higher; the electromagnetic heating temperature rise is too large, so that smoke generated during working is large, sesame seeds are easy to be burnt, more harmful substances are generated, and the inherent fragrance of the sesame seeds is lost. Therefore, a new flax seed frying pan is needed to replace the coal-fired frying pan or the electromagnetic frying pan to avoid the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the problem that prior art exists, provide a novel high-efficient gyration conduction oil frying pan, overcome the not enough of prior art when it is used, use the conduction oil as heating medium, improved the thermal efficiency, practiced thrift the electric energy, flue gas and burnt when can reducing the fried seed stick with paste, keep the original fragrant smell of edible oil, use cost and maintenance cost are all lower in the in-service use moreover.

The utility model discloses a following technical scheme realizes:

a novel high-efficiency rotary heat-conducting oil frying pan comprises a heat-conducting oil storage tank and a support, wherein the heat-conducting oil storage tank is obliquely arranged and fixedly installed on the upper portion of the support, an upper seed frying cylinder and a lower seed frying cylinder are arranged in the heat-conducting oil storage tank in parallel with the outer surface of the heat-conducting oil storage tank, two ends of the upper seed frying cylinder and the lower seed frying cylinder protrude out of two ends of the heat-conducting oil storage tank, a charging opening is formed in the upper portion of one end of the upper seed frying cylinder with a high horizontal position, a material outlet is formed in the lower portion of one end of the lower seed frying cylinder with a high horizontal position, a connecting opening is formed between the tail ends of the upper seed frying cylinder and the lower seed frying cylinder with a low horizontal position, the connecting opening connects the inner portions of the upper seed frying cylinder and the lower seed frying cylinder, an auger A is arranged, the oil-gas heat transfer device is characterized in that an oil discharge pipe is arranged at the bottom of the heat transfer oil storage tank, a high-temperature-resistant valve is installed on the oil discharge pipe, a sinking groove is formed in the bottom of the heat transfer oil storage tank, and an electric heating pipe is arranged in the sinking groove.

Further, a novel high-efficient gyration formula conduction oil frying pan, auger A sets up to mutual reverse auger with auger B, and auger A rotates with auger B syntropy, but nevertheless is opposite direction to the material and impels, through setting up auger A and auger B are reverse, can be so that follow the material export discharge behind the auger through two parallel arrangement from the material charge door entering to accomplish the system process of frying to the material.

Further, a novel efficient rotary type heat-conducting oil frying pan is characterized in that a heat-insulating layer is arranged on the outer surface of the heat-conducting oil storage tank, the thickness of the heat-insulating layer is set to be larger than or equal to 10cm, the heat-insulating layer is made of high-temperature-resistant asbestos or mineral wool, and the heat-insulating layer guarantees that the heat inside the heat-conducting oil storage tank cannot be lost and damaged by high temperature.

Further, a novel efficient rotary type heat conduction oil frying pan, the heat conduction oil storage tank can be set to be square or oval, and an upper seed frying cylinder and a lower seed frying cylinder which are arranged inside the heat conduction oil storage tank are arranged in parallel from top to bottom. The position relation between the heat conduction oil storage tank and the seed frying cylinder is used for ensuring that materials in the seed frying cylinder can be uniformly heated.

Further, a novel high-efficient gyration formula conduction oil frying pan, the conduction oil filler is set up in the highest position department of conduction oil storage tank, be connected with the inflation oil tank on the conduction oil filler, the conduction oil filler can be regarded as the gas vent and discharge the surplus gas in the conduction oil storage tank after the heat conduction oil heating volume expansion. The gas in the heated heat conduction oil is discharged in time, so that the heat conduction oil storage tank can be prevented from being damaged due to the pressure generated by the gas.

Further, a novel high-efficient gyration formula conduction oil frying pan, auger A is located the feed port end and auger B is located the material exit end and respectively is provided with drive sprocket in same position, the last drive chain that is provided with of drive sprocket, auger A and auger B are connected to drive chain, be provided with the motor on the drive sprocket on auger A or auger B, be provided with the speed reducer between motor and the drive sprocket. The motor drives the speed reducer, the rotating speed of the speed reducer is adjusted to about 2 revolutions per minute, and therefore the frying time of the materials in the seed frying cylinder is met.

Furthermore, the novel efficient rotary type heat conduction oil frying pan is designed in such a way that the included angle between the heat conduction oil storage tank and the horizontal ground is 10-30 degrees, the original residual gas is favorably discharged due to the heating expansion of the heat conduction oil in the heat conduction oil storage tank, and the heat conduction oil in the heat conduction oil storage tank is convenient for convective heat transfer.

Further, a novel high-efficient gyration formula conduction oil frying pan, be provided with intelligent temperature controller probe between conduction oil storage tank outer wall and the heat preservation, the switch that intelligence temperature controller was used for the control power, when the heat conduction oil temperature rise to 250 ℃, the heating power supply is cut off to intelligence temperature controller, and when the temperature was in 250 ℃, the heating power supply was opened to intelligence temperature controller for the heat conduction oil temperature remains at 250 ℃ throughout. This temperature is the most suitable temperature range for stir-frying seeds.

Further, be provided with the auger blade on auger A (4) and auger B (5), the clearance between the lower part inner wall of auger blade on auger A (4) and last fried seed drum (2) sets up to be less than 1mm, and the clearance between the upper portion inner wall of auger blade on auger A (4) and last fried seed drum (2) sets up to between 5mm-8mm, the clearance between the lower part inner wall of auger blade on auger B (5) and lower fried seed drum (3) sets up to be less than 1mm, and the clearance between the upper portion inner wall of auger blade on auger B (5) and lower fried seed drum (3) sets up to between 5mm-8 mm. So set up and to transmit the material in frying the seed drum totally, material can not appear in the in-service use is detained in frying the seed drum to influence the processingquality of material.

At present, there are a great deal of shortcomings in the coal-fired frying pan or the electromagnetic frying pan used in the process of preparing edible cooked linseed oil, so this application provides a novel high-efficient rotary type conduction oil frying pan, including the conduction oil storage tank and place 2 seed frying cylinders which are equidistant and arranged in the conduction oil storage tank from top to bottom in parallel as the basis, the both ends of the upper and lower seed frying cylinders protrude out of the both ends of the conduction oil storage tank, and both ends are respectively provided with a baffle and a bearing, the both ends of the conduction oil storage tank are sealed and welded, two spiral propelling augers with shafts which rotate in the same direction but propel in opposite directions are respectively placed in the upper and lower seed frying cylinders, a conduction oil filling port is arranged on the upwarp side position of the right side box body of the conduction oil storage tank, an oil discharge pipe is arranged on the bottom sinking side position of the left. The outside of the whole heat-conducting oil storage tank is an external heat-insulating layer (wrapped by a high-temperature-resistant asbestos heat-insulating layer with the thickness of not less than 10 CM), a transmission chain wheel is respectively arranged on the right central shaft head of the upper seed frying cylinder and the right central shaft head of the lower seed frying cylinder, the upper chain wheel and the lower chain wheel are connected by a chain, a speed reducer and a motor are also connected to the right central shaft head of the lower seed frying cylinder, and the whole heat-conducting oil storage tank. In actual use, heat conducting oil is added into the heat conducting oil storage tank through the heat conducting oil filling port, a proper thermal expansion volume needs to be reserved, a power switch is turned on, the electric heating pipe heats the heat conducting oil, the power switch is controlled by an intelligent temperature controller, when the temperature of the heat conducting oil rises to 250 ℃, the temperature controller cuts off a heating power supply, when the temperature is lower than 250 ℃, the temperature controller turns on the heating power supply to enable the temperature of the heat conducting oil to be always kept at about 250 ℃, and the proper temperature range is used for frying seeds. The motor is started to drive the speed reducer, the speed reducer adjusts the rotating speed to about 2 revolutions per minute, because two spiral propelling augers with shafts in opposite directions are respectively arranged in the upper seed frying cylinder and the lower seed frying cylinder, when the speed reducer drives the lower spiral shaft, the spiral shaft on the upper side is simultaneously driven to rotate at a constant speed through chain transmission, but the spiral propelling auger blades in the upper seed frying cylinder and the lower seed frying cylinder are in opposite propelling directions to form a rotary channel, the flaxseed material enters the upper seed frying cylinder through the feeding port, the auger pushes the flaxseed material to continuously roll and advance, when reaching the end, the flaxseed falls into the lower seed frying cylinder through a connecting port between the upper seed frying cylinder and the lower seed frying cylinder, the flaxseed material rolls and advances in opposite directions under the pushing of the auger, when reaching the end, the flaxseed is discharged through the material outlet, the raw flaxseed continuously rolls and advances in a high-temperature channel, forming a continuous production flow. When the heat conducting oil needs to be cleaned or replaced, the high-temperature resistant valve is opened, the heat conducting oil is discharged from the oil discharging pipe, and the frying pan is also suitable for all material varieties needing to be baked and fried.

To sum up, the utility model discloses a following beneficial effect:

1. the utility model relates to a novel high-efficient gyration formula conduction oil frying pan can guarantee the fried seed high quality of production through the accurate control to the conduction oil temperature, and the volume of giving off smoke is little, and it is few to paste the seed.

2. The utility model relates to a novel high-efficient gyration formula conduction oil frying pan has avoided coal-fired seed of frying compared with coal-fired frying pan, discharges waste gas in a large number, and the waste residue is compared with the electromagnetism seed of frying, and it is showing to practice thrift the electric energy effect.

3. The utility model relates to a novel high-efficient gyration formula conduction oil frying pan, simple structure does not have accurate instrument and equipment, and the operation is reliable in the complex environment, and the maintenance is simple and convenient, and use cost is low, has certain energy storage function moreover, can utilize the low ebb electrical heating conduction oil at night, improves the furnace temperature to 250 ℃ for use during the normal production.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

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

Fig. 2 is a schematic view of the structure of the vertical cross section of the present invention.

Reference numbers and corresponding part names in the drawings:

1-heat-conducting oil storage tank, 2-upper seed frying cylinder, 3-lower seed frying cylinder, 4-auger A, 5-auger B, 6-heat-conducting oil, 7-connecting port, 8-motor, 9-speed reducer, 10-sinking groove, 11-charging port, 12-material outlet, 13-heat-conducting oil filling port, 14-oil discharge pipe, 15-high-temperature-resistant valve, 16-electric heating pipe, 17-bracket, 18-heat-insulating layer, 19-transmission chain and 20-expansion oil tank.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1-2, a novel efficient rotary heat-conducting oil frying pan comprises a heat-conducting oil storage tank 1 and a support 17, wherein the heat-conducting oil storage tank 1 is obliquely arranged and fixed on the upper portion of the support 17, an upper seed-frying cylinder 2 and a lower seed-frying cylinder 3 are arranged inside the heat-conducting oil storage tank 1 and parallel to the outer surface of the heat-conducting oil storage tank 1, two ends of the upper seed-frying cylinder 2 and the lower seed-frying cylinder 3 protrude out of two ends of the heat-conducting oil storage tank 1, a feed opening 11 is arranged on the upper portion of the end of one side, which is higher, of the upper seed-frying cylinder 2, a material outlet 12 is arranged on the lower portion of the end of one side, which is higher, of the lower seed-frying cylinder 3, a connecting opening 7 is arranged between the tail ends of the lower sides of the upper seed-frying cylinder 2 and the lower seed-frying cylinder 3, the, the improved seed frying device is characterized in that an auger B5 is arranged in the seed frying cylinder 3, heat conduction oil 6 is filled in the heat conduction oil storage tank 1, a heat conduction oil filling port 13 is formed in the top of the heat conduction oil storage tank 1, an oil discharge pipe 14 is arranged at the bottom of the heat conduction oil storage tank 1, a high-temperature-resistant valve 15 is installed on the oil discharge pipe 14, a sinking groove 10 is formed in the bottom of the heat conduction oil storage tank 1, and an electric heating pipe 16 is arranged in the sinking.

Concretely, auger A4 sets up to the auger of mutual reverse with auger B5, and auger A4 rotates with auger B5 syntropy, but is the opposite direction to the material and impels. By reversely arranging the auger A4 and the auger B5, the materials entering from the charging hole 11 can be discharged from the material outlet 12 after passing through the two parallel augers, thereby completing the stir-frying process of the materials.

Specifically, the outer surface of the heat conduction oil storage tank 1 is provided with a heat insulation layer 18, the thickness of the heat insulation layer 18 is set to be more than or equal to 10cm, and the heat insulation layer 18 is made of high-temperature-resistant asbestos or mineral wool. The heat-insulating layer 18 is made of high-temperature-resistant asbestos, and the heat-insulating layer 18 ensures that heat in the heat-conducting oil storage tank is not lost and is not damaged by high temperature.

Specifically, the heat conduction oil storage tank 1 can be set to be square or oval, the heat conduction oil storage tank (1) can be set to be square or oval, and an upper seed frying cylinder (2) and a lower seed frying cylinder (3) which are arranged inside the heat conduction oil storage tank (1) are arranged in parallel from top to bottom. The position relation between the heat conducting oil storage tank 1 and the seed frying cylinder is used for ensuring that materials in the seed frying cylinder can be uniformly heated.

Specifically, the heat conduction oil filling port 13 is arranged at the highest position of the heat conduction oil storage tank 1, the heat conduction oil filling port 13 is connected with an expansion oil tank 20, and the heat conduction oil filling port 13 can be used as an exhaust port to exhaust residual gas in the heat conduction oil storage tank 1 after the heating volume of the heat conduction oil 6 expands. The gas in the heated heat transfer oil 6 is discharged in time, so that the heat transfer oil storage tank 1 can be prevented from being damaged due to the pressure generated by the gas.

Concretely, auger A4 is provided with drive sprocket with auger B5 on being located the center pin of the one end of material export 12, the last drive chain 19 that is provided with of drive sprocket, auger A4 and auger B5 are connected to drive chain 19, the last motor 8 that is connected with of drive sprocket, be provided with speed reducer 9 between motor 8 and the drive sprocket. The motor drives the speed reducer, the rotating speed of the speed reducer is adjusted to about 2 revolutions per minute, and therefore the frying time of the materials in the seed frying cylinder is met.

Specifically, the included angle between the heat conduction oil storage tank 1 and the horizontal ground is 10-30 degrees. So design can be effectual with the gas outgoing that produces in the heating process when filling up the conduction oil in the conduction oil storage tank 1, the conduction oil convection heat transfer in the conduction oil storage tank of also being convenient for moreover. So design lies in because the conduction oil heating inflation in the conduction oil storage tank, is favorable to discharging original surplus gas, the conduction oil convection heat transfer in the conduction oil storage tank of being convenient for simultaneously.

Specifically, be provided with intelligent temperature controller probe between 1 outer wall of conduction oil storage tank and the heat preservation, the switch that intelligence temperature controller was used for the control power, rises to 250 ℃ when the conduction oil temperature, and the heating power is cut off to the intelligence temperature controller, and when the temperature was in 250 ℃, the heating power was opened to the intelligence temperature controller for 6 temperatures of conduction oil remain at 250 ℃ all the time. This temperature is the most suitable temperature range for stir-frying seeds.

It is specific, be provided with the auger blade on auger A4 and the auger B5, the clearance between the lower part inner wall of auger blade on auger A4 and last fried seed drum 2 sets up to be less than 1mm, and the clearance between the upper portion inner wall of auger blade on auger A4 and last fried seed drum 2 sets up to between 5mm-8mm, the clearance between the lower part inner wall of auger blade on auger B5 and lower fried seed drum 3 sets up to be less than 1mm, and the clearance between the upper portion inner wall of auger blade on auger B5 and lower fried seed drum 3 sets up to between 5mm-8 mm. So set up and to transmit the material in frying the seed drum totally, material can not appear in the in-service use is detained in frying the seed drum to influence the processingquality of material.

In actual use, the conduction oil filling port 13 is used for filling the conduction oil 6 into the conduction oil storage tank 1, a proper thermal expansion volume needs to be reserved, the power switch is turned on, the electric heating pipe 16 is used for heating the conduction oil 6, the power switch is controlled by the intelligent temperature controller, when the temperature of the conduction oil 6 rises to 250 ℃, the temperature controller cuts off a heating power supply, when the temperature is lower than 250 ℃, the temperature controller starts the heating power supply, so that the temperature of the conduction oil 6 is always maintained at about 250 ℃, and the proper temperature range is used for frying seeds. The motor 8 is started to drive the speed reducer 9, the speed reducer 9 adjusts the rotating speed to about 2 revolutions per minute, because two spiral propelling augers with shafts in opposite directions are respectively arranged in the upper seed frying cylinder 3 and the lower seed frying cylinder 3, when the speed reducer 9 drives the lower spiral shaft, the auger A4 and the auger B5 which are arranged on the upper side are driven by the transmission chain 19 to rotate at the same speed, but the propelling directions of the augers in the upper seed frying cylinder and the lower seed frying cylinder are opposite to each other to form a revolving channel, the flaxseed material enters the upper seed frying cylinder from the feeding port 11, the auger pushes the flaxseed material to continuously roll and advance, when reaching the end, the flaxseed material falls into the lower seed frying cylinder 3 from the connecting port 7 between the upper seed frying cylinder and the lower seed frying cylinder, the flaxseed material rolls and advances in the opposite directions under the pushing of the auger, the flaxseed material is discharged from the material outlet 12 when reaching the end, the raw flaxs, forming a continuous production flow. When the heat conducting oil 6 needs to be cleaned or replaced, the high-temperature resistant valve 15 is opened, the heat conducting oil 6 is discharged from the oil discharging pipe 14, and the frying pan is also suitable for all kinds of materials needing to be fried.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. The utility model provides a novel high-efficient gyration formula conduction oil frying pan, its characterized in that includes conduction oil storage tank (1) and support (17), conduction oil storage tank (1) slope sets up and installs and fixes on the upper portion of support (17), conduction oil storage tank (1) inside and conduction oil storage tank (1) surface parallel are provided with fry seed drum (2) and fry seed drum (3) down, the both ends of going up to fry seed drum (2) and fry seed drum (3) down are outstanding in the both ends setting of conduction oil storage tank (1), it is provided with charge door (11) to go up to fry seed drum (2) and be located one side end department upper portion of height, it is provided with material outlet (12) to fry seed drum (3) one side end department lower part that is located the height down, it is provided with between the tail end connector (7) to go up to fry seed drum (2) and fry seed drum (3) down, connector (7) will go up the inside intercommunication of frying seed drum (2) and frying seed drum (3) down, it is provided with auger A (4) in seed drum (2) to go up to fry, it is provided with auger B (5) in seed drum (3) to fry down, built-in conduction oil (6) of conduction oil storage tank (1), the top of conduction oil storage tank (1) is provided with conduction oil filler (13), conduction oil storage tank (1) bottom is provided with oil extraction pipe (14), install high temperature resistant valve (15) on oil extraction pipe (14), the bottom of conduction oil storage tank (1) is provided with sinking groove (10), be provided with electrothermal tube (16) in sinking groove (10).

2. The novel efficient rotary heat conducting oil frying pan according to claim 1, wherein the packing auger A (4) and the packing auger B (5) are arranged as mutually opposite packing augers, and the packing auger A (4) and the packing auger B (5) rotate in the same direction but push materials in opposite directions.

3. The novel efficient gyration type conduction oil frying pan according to claim 1, characterized in that the outer surface of the conduction oil storage tank (1) is provided with a heat insulation layer (18), the thickness of the heat insulation layer (18) is set to be more than or equal to 10cm, and the heat insulation layer (18) is made of high temperature resistant asbestos or mineral wool.

4. The novel efficient gyration type conduction oil frying pan according to claim 1, characterized in that the conduction oil storage tank (1) can be set to be square or oval, and the upper seed frying cylinder (2) and the lower seed frying cylinder (3) arranged inside the conduction oil storage tank (1) are arranged in parallel up and down.

5. The novel efficient rotary type conduction oil frying pan according to claim 1, characterized in that the conduction oil filling port (13) is arranged at the highest position of the conduction oil storage tank (1), an expansion oil tank (20) is connected to the conduction oil filling port (13), and the conduction oil filling port (13) can be used as an exhaust port to discharge residual gas in the conduction oil storage tank (1) after the heating volume of the conduction oil (6) expands.

6. The novel efficient rotary heat conduction oil frying pan according to claim 1, wherein a transmission chain wheel is arranged on a central shaft at one end of the material outlet (12) of the packing auger A (4) and the packing auger B (5), a transmission chain (19) is arranged on the transmission chain wheel, the packing auger A (4) and the packing auger B (5) are connected by the transmission chain (19), a motor (8) is connected to the transmission chain wheel, and a speed reducer (9) is arranged between the motor (8) and the transmission chain wheel.

7. The novel efficient gyration type conduction oil frying pan according to claim 1, characterized in that the included angle between the conduction oil storage tank (1) and the horizontal ground is 10-30 degrees.

8. The novel efficient rotary type conduction oil frying pan according to claim 1, wherein an intelligent temperature controller probe is arranged between the outer wall of the conduction oil storage tank (1) and the heat insulation layer, the intelligent temperature controller is used for controlling the switch of a power supply, when the temperature of the conduction oil rises to 250 ℃, the intelligent temperature controller cuts off the heating power supply, and when the temperature is lower than 250 ℃, the intelligent temperature controller turns on the heating power supply, so that the temperature of the conduction oil (6) is always maintained at 250 ℃.

9. The novel efficient rotary heat conduction oil frying pan according to claim 1, characterized in that auger blades are arranged on auger A (4) and auger B (5), a gap between the auger blade on auger A (4) and the lower inner wall of the upper seed frying cylinder (2) is set to be smaller than 1mm, a gap between the auger blade on auger A (4) and the upper inner wall of the upper seed frying cylinder (2) is set to be between 5mm and 8mm, a gap between the auger blade on auger B (5) and the lower inner wall of the lower seed frying cylinder (3) is set to be smaller than 1mm, and a gap between the auger blade on auger B (5) and the upper inner wall of the lower seed frying cylinder (3) is set to be between 5mm and 8 mm.

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