KR101123150B1 - Apparatus for refining edible oil and thereof method - Google Patents

Abstract

The present invention provides a cooking oil refining apparatus and method capable of regenerating cooking oil of high purity by refining high temperature cooking oil used in fried food and the like in real time. The oil refining apparatus is driven as a power generation signal supplied from a power supply unit is input, and one side is connected to an inlet of a pumping member and a pumping member stored in the cooking oil heating vessel to generate power for real-time circulating purification of heated high temperature cooking oil. And the other side is connected to the cooking oil refining line, the cooking oil refining line comprising an inlet line connected to the cooking oil heating vessel, one side is connected to the outlet of the pumping member, the other side is connected to the cooking oil heating vessel, cooking oil refining line, A control unit for refining high temperature cooking oil in real time to regenerate it into high purity cooking oil, and controlling the power generation signal supplied to the pumping member electrically connected to the power supply, and performing a general control operation related to the real-time circulating purification of the high temperature cooking oil. It includes.

Cooking Oil, Refined, High Temperature, Real Time

Description

Apparatus and method for cooking oil refinery {APPARATUS FOR REFINING EDIBLE OIL AND THEREOF METHOD}

The present invention relates to an cooking oil refining apparatus, and more particularly to an cooking oil refining apparatus and method capable of real-time purification of hot cooking oil.

In general, cooking oil is used to cook a fried food by heating or frying. When cooking fried foods, impurities such as wastes are included in cooking oil during frying. Therefore, in the case of a restaurant specializing in fried foods that continue to fry, cooking oil should be replaced periodically.

On the other hand, when the cooking oil used for frying is continuously used, the purity of the cooking oil is gradually lowered, making it difficult to maintain optimum temperature conditions for heating the cooked product. In addition, carcinogens may be generated as impurities or the like contained in the cooking oil are burned or heated.

In order to solve these problems, frequent replacement with new cooking oil is expensive. In this process, a large amount of waste cooking oil is generated, and therefore, a high cost is required to process the waste cooking oil.

In addition, when a new cooking oil is used, the quality of the cooked cooked food may be significantly reduced depending on the number of times the cooked food is cooked. In addition, by disposing of the cooking oil used more than the proper recovery has become a major cause of environmental pollution and resource waste.

The present invention provides a cooking oil refining apparatus and method capable of regenerating cooking oil of high purity by refining high temperature cooking oil used in fried food and the like in real time.

The present invention also provides a cooking oil refining apparatus and method capable of suppressing rancidity and chemical change of cooking oil by circulating and refining hot cooking oil in real time even when cooking a cooked product.

In addition, by using a high-quality cooking oil that is always purified by cooking oil in a high temperature state in real time to provide a cooking oil refining apparatus and method that can minimize the generation of waste cooking oil and minimize the water content to prevent the cooking oil is deteriorated do.

The oil refining apparatus is driven as a power generation signal supplied from a power supply unit is input, and one side is connected to an inlet of a pumping member and a pumping member stored in the cooking oil heating vessel to generate power for real-time circulating purification of heated high temperature cooking oil. And the other side is connected to the cooking oil refining line, the cooking oil refining line comprising an inlet line connected to the cooking oil heating vessel, one side is connected to the outlet of the pumping member, the other side is connected to the cooking oil heating vessel, cooking oil refining line, A control unit for refining high temperature cooking oil in real time to regenerate it into high purity cooking oil, and controlling the power generation signal supplied to the pumping member electrically connected to the power supply, and performing a general control operation related to the real-time circulating purification of the high temperature cooking oil. It includes.

The pumping member is electrically connected to the power supply and rotates in response to the input of the power generation signal, and coupled to the shaft coupled to the motor, the high temperature food rotary pump having a housing for guiding the rotation of the impeller, The impeller and the housing may be formed with a heat-resistant coating layer for high temperature food.

The refining member is connected to the inlet line and the inlet filter for refining the edible oil flowing from the cooking oil heating vessel to the inlet of the pumping member, and the discharge filter is connected to the discharge line for refining the edible oil discharged to the cooking oil heating vessel from the outlet of the pumping member. It may include.

The inlet filter includes an inlet housing made of stainless steel having an inlet and an outlet of cooking oil, and a first filter mounted in the inlet housing to purify foreign substances introduced into the inlet housing, wherein the first filter purifies particles of 0.22 mm or more. Stainless steel twill mesh can be included.

The discharge filter includes a discharge housing made of stainless steel having an inlet and an outlet of cooking oil, and a second filter mounted in the discharge housing and purifying foreign substances introduced into the discharge housing, wherein the second filter purifies particles larger than 0.07 mm. Stainless steel twill mesh can be included.

The inlet filter replaces the first filter and is mounted in the inlet housing, and further includes a third filter for purifying foreign matter introduced into the inlet housing, wherein the third filter may include a stainless twill mesh network for removing particles larger than 0.05 mm. Can be. The stainless twill mesh can be formed by a twilled dutch weave.

The inlet filter further includes a catalyst introduced into the third filter and added during the refining of the high-temperature cooking oil, wherein the catalyst is at least one material selected from the group consisting of nano silicon dioxide, nano active aluminum oxide, and vegetable antioxidant. It can be formed as. The amount of catalyst introduced may be 0.4% of the edible oil to be purified.

The exhaust filter replaces the second filter and is mounted in the exhaust housing, and further includes a fourth filter for purifying foreign matter introduced into the exhaust housing, wherein the fourth filter is a high temperature nomax bag filter for removing particles of 0.005 mm or more. (nomex bag filter) may be included.

The cooking oil refining apparatus may further include a fixing cap coupled to the upper side of the cartridge of the high-temperature food nomax bag filter to maintain the cartridge seated in the discharge housing.

The cooking oil refining line may include a coupling structure of the heat-resistant flexible hose and the coupling member.

The cooking oil refiner is electrically connected to the power supply to be turned on / off, and is switched on and off by being electrically connected to the main switch to control the standby state according to the switching. It is provided on the driving switch for transmitting the power generation signal supplied to the pumping member in the state, one side of the pumping member, the first cooling fan that is rotated as it is electrically connected to the power supply and driven, and around the purification member The second cooling fan may further include a second cooling fan which is electrically connected to and driven by the power supply unit. The apparatus may further include a timer electrically connected to the driving switch to control the driving time of the pumping member.

The cooking oil refining apparatus may further include a cleaning member coupled to an end connected to the cooking oil heating vessel in the inlet line to remove foreign substances remaining in the cooking oil heating vessel. The cleaning member may have a brush made of stainless steel in a circumferential direction to form a suction net.

The cooking oil refining apparatus further includes a case having a plurality of holes and forming an inner space, wherein a pumping member and a refining member are respectively installed in the inner side of the case, and corresponding switches and inlet and discharge lines are coupled to the plurality of holes. Can be.

On the other hand, in the cooking oil refining method, the pumping step is driven in accordance with the power generation signal supplied from the power supply unit is driven to store the cooking oil in the heating vessel to generate the power required for the real-time circulating purification of the heated hot cooking oil, the pumping member and cooking oil A refining step of sucking the cooking oil stored in the cooking oil heating container with the cooking oil refining line connecting the heating vessel, refining the high-temperature cooking oil in real time by refining the high-temperature cooking oil through a refining member disposed in a plurality of steps in the cooking oil refining line, The discharge step of discharging the refined cooking oil in the cooking oil refining line to the cooking oil heating vessel, intercepts the power generation signal supplied to the pumping member according to the input control signal, and performs the overall control operation related to the real-time circulation of high-temperature cooking oil A control step.

The refining step may include a general refining step performed during a frying operation having a set daily refining number or less, and a special refining step carried out in a state where the daily refining number is exceeded.

The general refining step is a first filtering step of refining particles of 0.22 mm or more through a first filter disposed between the cooking oil heating vessel and the pumping member in the cooking oil refining line, and disposed between the pumping member and the cooking oil heating vessel in the cooking oil refining line. The second filter may include a second filtering step of purifying the cooking oil through the second filter.

The special refining step includes a third filtering step of purifying cooking oil through a third filter disposed to replace the first filter, and a fourth filtering step of purifying cooking oil through a fourth filter disposed to replace the second filter. can do. The special purification step can be done with the general purification step completed.

The first to third filters may include a twill mesh network made of stainless steel, and the fourth filter may include a nomax bag filter for high temperature food.

The third filtering step further includes a catalyst inside the third filter to purify the cooking oil, and the catalyst may be formed of one or more materials selected from the group consisting of nano silicon dioxide, nano active aluminum oxide, and vegetable antioxidant. have. The amount of catalyst introduced may be 0.4% of the edible oil to be purified.

In the control step, it is possible to control the refinement time of the high-temperature cooking oil through a timer to control the driving time of the pumping member.

The cooking oil refining apparatus and method have the effect of preventing the rancidity and chemical change of the cooking oil by refining the cooking oil in real time even during the cooking of the fried food using the high temperature cooking oil.

In addition, by refining hot cooking oil in real time, the cooking oil freshness and the preparation can be maintained in a high quality state at all times.

In addition, it is possible to prevent the deterioration of the cooking oil by removing the water contained in the cooking oil, it is possible to minimize the generation of waste cooking oil.

In the process of refining high-temperature cooking oil, the cooking oil used in the cooking oil heating vessel can be used by refining the impurities or foreign substances generated during the frying cooking using catalyst as necessary to provide clean and delicious tempura at all times. It works.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the specification and drawings, the same reference numerals denote the same elements.

1 is a view showing a connection relationship between the cooking oil purification apparatus and the cooking oil heating container according to an embodiment of the present invention.

The cooking oil refining apparatus 100 includes a pumping member 10, a refining member 20, and a controller 30.

The pumping member 10 is driven as a power generation signal supplied from a power supply unit (not shown) is input, and generates power required for real-time circulating purification of the heated high temperature cooking oil stored in the cooking oil heating vessel 110. Here, the power supply unit refers to AC power supplied to a home or a branch, and may use a stored power as needed.

The cooking oil purification line 40 is provided between the pumping member 10 and the cooking oil heating container 110. Edible oil refining line 40 is divided into an inlet line 42 and the discharge line (44). Inlet line 42 is one side is connected to the inlet of the pumping member 10 and the other side is connected to the cooking oil heating vessel (110). Discharge line 44 is one side is connected to the outlet of the pumping member 10 and the other side is connected to the cooking oil heating vessel (110).

The refining member 20 is connected to the cooking oil refining line 40, refining the high-temperature cooking oil in a plurality of stages in real time to regenerate the cooking oil of high purity. In this case, the cooking oil refining line 40 is provided between the pumping member 10 and the cooking oil heating vessel 110 and the refining member 20, respectively. For example, suppose that each purification member 20 is connected to an inlet and an outlet of the pumping member 10. The purification member 20 connected to the inlet side of the pumping member 10 is a first purification member, and the purification member 20 connected to the outlet of the pumping member 10 is a second purification member. In this case, the cooking oil refining line 40 is the cooking oil heating vessel 110 and the first refining unit, the first refining member and the pumping member 10, the pumping member 10 and the second refining member, the second refining member and It is disposed over the cooking oil heating vessel (110). Edible oil refining line 40 includes a coupling structure of the heat-resistant flexible hose and the coupling member. Therefore, the connection of the pumping member 10 and the refining member 20 provided in the cooking oil refining line 40 may be connected by a heat-resistant flexible hose and a coupling member, respectively.

The control unit 30 is electrically connected to the power supply to intercept the power generation signal supplied to the pumping member 10, and performs the overall control operation related to the real-time circulating purification of high-temperature cooking oil. The control unit 30 may be a kind of microprocessor. The control unit 30 is driven as power is supplied from the power supply unit, and control modes such as a standby mode and a refining mode related to cooking oil refining may be preprogrammed. Such programming data may be stored in a separate memory. The programming data may be read in accordance with an input signal to generate a corresponding control signal.

The pumping member 10 includes a motor 12 and a pump 14. The motor 12 is electrically connected to the power supply and rotates in response to the input of the power generation signal. The pump 14 is axially coupled to the motor 12 and interlocked, and is configured based on the coupling structure of the impeller and the housing. The housing guides the rotation of the impeller, and a separate configuration for pumping cooking oil may be added between the impeller and the housing. The pump 14 consists of a rotary pump for high temperature food. The portion where the hot cooking oil is in contact with the impeller and the housing is formed with a heat-resistant coating layer for hot food. As the heat-resistant coating layer is formed at the portion rotated in the pump 14, the friction coefficient is small, which reduces the frictional resistance between the impeller and the housing.

It is assumed that the impeller and the housing are formed of cast iron, and the impeller and the housing have no coating layer. In this case, the friction coefficient of the impeller and the housing is expected to be about 1.7 kg㎨. Under these conditions, hot cooking oil can circulate through the pump, creating scale in the impeller and housing. In addition, wear between the two components is expected due to the friction between the impeller and the housing, and foreign materials resulting from the wear of the impeller and the housing and a mixture of hot cooking oil passing between the impeller and the housing may be generated.

Alternatively, embodiments of the present invention form a heat-resistant coating layer for hot food in the impeller and the housing. In this case, the friction coefficient of the impeller and the housing can be reduced to about 0.01 kg㎨. As described above, when the heat-resistant coating layer for high temperature food is formed in the impeller and the housing, the friction coefficient of the impeller and the housing is reduced as compared with the case without the coating layer. As a result, the frictional resistance in the rotating structure between the impeller and the housing can be reduced. In addition, it is possible to reduce the generation of foreign matter such as scale generated due to friction between the impeller and the housing. Therefore, even if the high-temperature cooking oil circulated through the pump 14 in real time, the generation of scale and foreign matter is reduced, it is possible to circulate the high-temperature cooking oil more safely and quickly.

2 is a partially cutaway perspective view illustrating a coupling relationship between a purification member and a filter according to an exemplary embodiment of the present invention, and FIG. 2 is a cross-sectional view illustrating the purification member of FIG. 1.

The purifying member 20 includes an inlet filter 22 and an outlet filter 24. The inlet filter 22 and the outlet filter 24 may be classified according to the size of the filtration particles, and may be classified according to the inlet side or the outlet side position based on the pumping member 10.

The inlet filter 22 is connected to the inlet line 42 to purify the edible oil introduced into the inlet of the pumping member 10 from the cooking oil heating vessel 110. The inlet filter 22 includes an inlet housing 220 and a first filter 210. For reference, the drawings shown in FIGS. 2 and 3 show the inlet filter 22.

2 and 3, the inlet housing 220 includes an inlet 222 and an outlet 224 of edible oil, and is formed of a cylindrical stainless steel (SUS316) part of which is opened. Inlet housing 220 includes a body, cover 230, handle 232.

The body has a size in which the filter is built, and has a cylindrical shape with an open top. The upper side of the body has a flange shape at the periphery of the opened hole. The upper one side of the body is provided with an inlet 222, the lower is provided with an outlet 224. A locking member is coupled to the inside of the body for coupling with the filter. The locking member is formed in the shape of a Korean consonant L-shaped cross-section.

The cover 230 is coupled to an opening portion at the upper side of the body. The packing 234 is coupled to the coupling surface of the cover 230 and the body. A groove in which the packing 234 is seated is disposed on at least one side of the coupling surface of the cover 230 and the body. The cover 230 and the body are coupled via fastening bolts 236. To this end, at least one side of the cover 230 and the body is machined with a screw groove to which the fastening bolt 236 is fastened. For example, when a screw groove is processed in the cover 230, a fastening hole is processed in the body. The arrangement of the screw grooves and the fastening holes can be machined in positions opposite each other.

The handle 232 is coupled to the central side of the cover 230. The handle 232 may be separately coupled to the cover 230 and may be integrally provided as necessary. The handle 232 may be formed in various forms through a design change.

4 is a perspective view showing a filter according to an embodiment of the present invention, Figure 5 is a cross-sectional view showing the filter of FIG.

4 and 5, the first filter 210 is mounted in the inflow housing 220 to purify foreign substances contained in the hot cooking oil flowing into the inflow housing 220. The first filter 210 includes an upper member 212, a lower member 214, and a filtering net 216. The upper member 212 is formed in a flange shape by extending in the circumferential direction on the upper side in the cylindrical shape. The upper member 212 supports the upper portion of the filter net 216, the flange portion is caught by the locking member to maintain the state in which the first filter 210 is coupled to the inside of the inlet housing 220. The lower member 214 is formed in a cylindrical shape and supports the lower portion of the filter net 216. The filter net 216 is connected to the upper member 212 and the lower member 214, respectively. The filter net 216 of the first filter 210 is formed of a stainless twill mesh net that purifies particles of 0.22 mm or more.

The discharge filter 24 is connected to the discharge line 44 to purify the edible oil discharged to the cooking oil heating vessel 110 from the outlet of the pumping member 10.

The exhaust filter 24 comprises an exhaust housing, a second filter.

The discharge housing is made of stainless steel (SUS316) having an inlet and an outlet of cooking oil. The second filter is mounted in the discharge housing and purifies the foreign matter introduced into the discharge housing. The second filter is formed of a stainless twill mesh net that purifies particles larger than 0.07 mm.

The inflow filter 22 is mounted in the inflow housing 220 to replace the first filter 210, and further includes a third filter for purifying foreign substances introduced into the inflow housing 220. The third filter is formed of a stainless twill mesh net that removes particles larger than 0.05 mm. The stainless twill mesh that forms the first to third filters is formed in a twilled dutch weave manner.

For reference, the inlet housing 220 has a shape similar to the outlet housing. If necessary, the inlet housing 220 and the outlet housing may be used interchangeably with each other without separate division. Therefore, detailed description of the discharge housing is omitted. Meanwhile, the first filter 210 to the third filter also have similar shapes to each other. The difference between the first filter 210 and the third filter may be classified by the size of the mesh network for refining the particles. Therefore, detailed description of the second filter and the third filter will be omitted.

The inflow filter 22 further includes a catalyst introduced into the third filter and added during the refining of the high temperature cooking oil. The catalyst is formed from one or more materials selected from the group consisting of nano silicon dioxide, nano active aluminum oxide, and vegetable antioxidants. Here, the catalyst may be formed in powder form, and a detailed description of the production method and the mixing ratio of the materials for the catalyst will be omitted. The flow rate of catalyst consists of 0.4% of the edible oil refined. Here, the inflow of the catalyst is a value calculated through experiments of various conditions. The flow rate of the catalyst may be added or decreased around 0.4%, but considering the filtration efficiency, it is preferable to maintain the ratio of 0.4%.

The discharge filter 24 is mounted in the discharge housing in place of the second filter, and further includes a fourth filter for purifying foreign matter introduced into the discharge housing. The fourth filter is formed of a high temperature nomex bag filter for removing particles of 0.005 mm or more. Edible oil refining apparatus 100 further includes a fixing cap coupled to the upper side of the cartridge of the high-temperature food nomax bag filter to maintain the cartridge seated in the discharge housing.

Meanwhile, the cooking oil refining apparatus 100 further includes a main switch 32, a driving switch 34, a first cooling fan 16, a second cooling fan 18, and a timer 36.

The main switch 32 is electrically connected to the power supply and switched on / off, and interrupts the operation standby state as it is switched. The driving switch 34 is electrically connected to the main switch 32 and switched on / off and transmits a power generation signal supplied to the pumping member 10 in the switched on state. The first cooling fan 16 is provided on one side of the pumping member 10 and rotates as it is electrically connected to and driven by a power supply unit. The second cooling fan 18 is provided around the purification member 20, and rotates as it is electrically connected to and driven by a power supply unit. The timer 36 is electrically connected to the driving switch 34 to interrupt the driving time of the pumping member 10.

The cooking oil refining apparatus 100 further includes a cleaning member 50 which is coupled to an end connected to the cooking oil heating vessel 110 in the inlet line 42 to remove foreign substances remaining in the cooking oil heating vessel 110. The cleaning member 50 forms an inlet shape in a brush type to remove most of the fry powder and particles adhering to the bottom surface and the wall surface of the cooking oil heating vessel 110. Cleaning member 50 is made of a stainless steel brush is arranged in the circumferential direction in the form of a suction net.

The cooking oil refining apparatus 100 further includes a case having a plurality of holes and forming an inner space. The pumping member 10 and the refining member 20 are respectively mounted on the inside of the case, and the corresponding switches are provided in the plurality of holes. The flow and inlet lines 42 and outlet lines 44 are combined. That is, the case is processed in each hole in which the main switch 32, the drive switch 34 is mounted, each hole in which the inlet line 42 and the discharge line 44 is fitted is also processed. The arrangement of holes respectively processed in the case may be variously arranged according to the design change. For example, the holes corresponding to the inlet line 42 and the outlet line 44 may be machined in the same line on one side of the case.

1 to 5 will be described in the cooking oil purification method according to an embodiment of the present invention.

First, it is assumed that the pumping member 10 is driven as the power generation signal supplied from the power supply unit is input. The power generation signal supplied from the power supply unit is divided into a standby state in which the main switch 32 is turned on, and a driving state in which the main switch 32 and the drive switch 34 are turned on.

The pumping member 10 is driven while the main switch 32 and the driving switch 34 are turned on. In accordance with the driving of the pumping member 10 is stored in the cooking oil heating vessel 110 generates power required for real-time circulating purification of the heated high-temperature cooking oil.

The pumping member 10 is connected to the cooking oil heating vessel 110 through the cooking oil refining line 40.

When the pumping member 10 is driven while the cooking oil refining line 40 is connected to the pumping member 10 and the cooking oil heating vessel 110, the cooking oil heating vessel (through the inlet line 42 of the cooking oil refining line 40) Inhale cooking oil stored in 110).

And refining the high-temperature cooking oil in real time through the refining member 20 disposed in a plurality of stages in the cooking oil refining line 40 to a high-purity cooking oil.

The cooking oil refined in the cooking oil refining line 40 is discharged to the cooking oil heating vessel 110 through the discharge line 44.

The controller 30 controls the power generation signal supplied to the pumping member 10 according to the input control signal. And a control step of performing an overall control operation related to the real-time circulating purification of the hot cooking oil.

The refining step includes a general refining step carried out during a frying operation having a set daily refining number or less, and a special refining step carried out in a state where the daily refining number is exceeded. Here, the general purification step generally refers to a filtration process carried out as needed in the frying process. And the special purification step refers to a purification step that is finally finished in the state where the general purification step is completed. Therefore, the general purification step can be carried out repeatedly several times on the basis of the day, the special purification step can be carried out about once a day.

The general purification step is divided into a first filtering step and a second filtering step.

The first filtering step is a step of purifying particles of 0.22 mm or more through the first filter 210 disposed between the cooking oil heating vessel 110 and the pumping member 10 in the cooking oil refining line 40.

The second filtering step refers to a step of refining the cooking oil through a second filter disposed between the pumping member 10 and the cooking oil heating vessel 110 in the cooking oil refining line 40. The second filtering step is a step in which the cooking oil filtered through the first filter is filtered through the second filter. Therefore, it is possible to filter hot cooking oil in stages and in real time through the first filtering step and the second filtering step.

The special purification step includes a third filtering step and a fourth filtering step. The special purification step takes place after the general purification step is completed. Therefore, before the special purification step is performed, the first and second filtering steps, which are general purification steps, must be completed. However, in the third filtering step and the fourth filtering step, the first filter 210 and the second filter mounted on the inlet filter 22 and the outlet filter 24 are replaced with the third filter and the fourth filter, respectively. Is done. Therefore, the driving of the pumping member 10 must be stopped for the time required for the filter replacement.

The third filtering step is to refine the cooking oil through a third filter disposed to replace the first filter 210. In the third filtering step, the cooking oil filtered through the first filter and the second filter is filtered through the third filter. Therefore, hot cooking oil may be filtered step by step through the first to third filtering steps.

The third filtering step further comprises a catalyst inside the third filter to refine the cooking oil. The catalyst is formed from one or more materials selected from the group consisting of nano silicon dioxide, nano active aluminum oxide, and vegetable antioxidants. The amount of catalyst introduced may be 0.4% of the edible oil to be purified.

The fourth filtering step refers to the step of purifying the cooking oil through a fourth filter disposed to replace the second filter. The first filter 210 to the third filter is made of a twill mesh network made of stainless steel, the fourth filter is made of a nomex bag filter for high temperature food (nomex bag filter). In the fourth filtering step, particles larger than 0.005 mm may be filtered to reduce physical and chemical changes of cooking oil.

If the waste cooking oil is refined to the fiber-refining cloth by the natural dropping method, the cooking oil may be reused to some extent. However, it is difficult to sufficiently remove impurities of fine particles, and there is a problem that the purification time is long. In addition, problems such as failure to adequately cope with the rancidity and chemical changes of the cooking oil, and easily deteriorated by a large amount of water contained in the cooking oil are inherent.

An embodiment of the present invention through the cooking oil refining line 40 and the refining member 20 and the pumping member 10 connected to one side of the inlet line 42 to the high temperature cooking oil stored in the cooking oil heating vessel 110. This problem can be solved by refining hot cooking oil in real time. For example, the cooking oil refining apparatus 100 may solve the problem of a method of refining cooking oil (fried oil) used for frying at low temperature or room temperature. That is, by refining the remnants of cooking oil as quickly as possible to prevent free fatty acids, peroxides, dark red pigments, odors and chemical changes (TPM; Total Polar Material) of the cooking oil can maintain the nature of the cooking oil for a long time. In addition, the cooking oil used in the cooking oil heating vessel 110 may be used immediately by refining only oxides and impurities, or by refining animal fats, suspended solids, fatty acids, etc. discharged from chicken or other meat. You can always provide clean and delicious tempura.

On the other hand, it is possible to control the purification time of the hot cooking oil through the timer 36 to control the driving time of the pumping member 10 in the control step. For example, when the driving time of the pumping member 10 is interrupted by 3 minutes, it is possible to repeat purification about 5 times based on 10 liters when driving for 3 minutes. Therefore, by driving the pumping member 10 for a necessary time to refine the high-temperature cooking oil in real time it is possible to use the high-temperature cooking oil regenerated more quickly and conveniently.

1 is a view showing a connection relationship between the cooking oil purification apparatus and the cooking oil heating container according to an embodiment of the present invention.

2 is a partially cutaway perspective view illustrating a coupling relationship between a purification member and a filter according to an exemplary embodiment of the present invention.

3 is a cross-sectional view showing the purification member of FIG.

4 is a perspective view showing a filter according to an embodiment of the present invention.

5 is a cross-sectional view of the filter of FIG. 4.

<Description of the symbols for the main parts of the drawings>

10; Pumping member 12; motor

14; Pump 16; First cooling fan

18; Second cooling fan 20; Purification member

22; Inlet filter 24; Exhaust filter

30; Control unit 32; Main switch

34; Drive switch 36; timer

40; Cooking Oil Purification Line 42; Inflow line

44; Discharge line 50; Cleaning member

100; Cooking oil refining apparatus 110; Cooking Oil Heating Vessel

210; First filter 212; Upper member

214; Lower member 216; Strainer

220; Inlet housing 222; Inlet

224; Outlet 230; cover

232; Handle 234; packing

Claims (26)

A pumping member which is driven as a power generation signal supplied from a power supply unit is input, generates power required for real-time circulating purification of heated high temperature cooking oil stored in an cooking oil heating container, and has a heat-resistant coating layer for high temperature food formed therein; One side is connected to the inlet of the pumping member and the other side is connected to the cooking oil heating vessel, the inlet line is connected to the cooking oil heating vessel, the other side is connected to the cooking oil heating vessel, the other side is connected to the cooking oil heating vessel ; Refining member connected to the cooking oil refining line, refining the high-temperature cooking oil in a plurality of stages in real time to regenerate the cooking oil of high purity, and A control unit electrically connected to the power supply unit to control a power generation signal supplied to the pumping member, and perform an overall control operation related to the real-time circulating purification of the high temperature cooking oil Cooking oil purification apparatus comprising a. The method of claim 1, The pumping member is A motor electrically connected to the power supply and rotated according to an input of a power generation signal, and High temperature food rotary pump having a housing coupled to the motor shaft coupled to, and guides the rotation of the impeller and the impeller Including; The impeller and the housing is a cooking oil refining apparatus is formed a heat-resistant coating layer for high temperature food. 3. The method of claim 2, The tablet member is An inlet filter connected to the inlet line to purify the edible oil introduced into the inlet of the pumping member from the edible oil heating vessel, and A discharge filter connected to the discharge line to purify the cooking oil discharged to the cooking oil heating vessel from the discharge port of the pumping member; Cooking oil purification apparatus comprising a. The method of claim 3, The inlet filter is An inlet housing made of stainless steel having an inlet and an outlet of cooking oil, and A first filter mounted in the inflow housing and purifying foreign substances introduced into the inflow housing Including; The first filter is an edible oil refining apparatus comprising a stainless steel twill mesh net for refining particles of 0.22mm or more. The method of claim 3, The discharge filter is A discharge housing made of stainless steel having an inlet and an outlet of cooking oil, and A second filter mounted in the discharge housing and purifying foreign substances introduced into the discharge housing; Including; The second filter is a cooking oil refining apparatus comprising a stainless steel twill mesh net to purify particles of 0.07mm or more. 5. The method of claim 4, The inlet filter is A third filter mounted in the inflow housing to replace the first filter and purifying foreign substances introduced into the inflow housing More, The third filter is an edible oil refiner comprising a stainless steel twill mesh net for removing particles of 0.05mm or more. The method according to any one of claims 4 to 6, The stainless twill mesh network is an oil cooking apparatus is formed by a twilled dutch weave method. The method of claim 6, The inlet filter is Further comprising a catalyst introduced into the third filter and added during the purification of the high-temperature cooking oil, The catalyst is an edible oil refiner formed of at least one material selected from the group consisting of nano silicon dioxide, nano active aluminum oxide, vegetable antioxidant. The method of claim 8, The amount of the catalyst flowing in the cooking oil purification device is 0.4% of the amount of cooking oil to be purified. The method of claim 5, The discharge filter is A fourth filter which is mounted in the discharge housing to replace the second filter and purifies foreign substances introduced into the discharge housing More, The fourth filter is a cooking oil refining apparatus including a high-temperature food nomax bag filter (nomex bag filter) for removing particles of 0.005mm or more. The method of claim 10, And a fixing cap coupled to an upper side of the cartridge of the high-temperature food nomax bag filter to hold the cartridge seated on the discharge housing. The method of claim 1, The cooking oil refining line is an cooking oil refining apparatus comprising a coupling structure of the heat-resistant flexible hose and the coupling member. The method of claim 1, A main switch electrically connected to the power supply and switched on / off and intermittently operating in a standby state as switched; A drive switch electrically connected to the main switch and switched on / off and transferring a power generation signal supplied to the pumping member in a switched on state; A first cooling fan provided at one side of the pumping member, the first cooling fan being electrically connected and driven to the power supply unit, and A second cooling fan provided around the tablet member and rotating as the power supply unit is electrically connected and driven; Cooking oil refining apparatus further comprising. The method of claim 13, And a timer electrically connected to the driving switch to control the driving time of the pumping member. The method of claim 12, The inlet line is coupled to the end connected to the cooking oil heating vessel cooking oil purification apparatus further comprises a cleaning member for removing foreign matter remaining in the cooking oil heating vessel. The method of claim 15, The cleaning member is a cooking oil refining device made of a stainless steel brush is arranged in the circumferential direction in the form of a suction net. The method of claim 13, Further comprising a case having a plurality of holes to form an inner space, The pumping member and the refining member are respectively mounted to the inside of the case, the plurality of holes are cooking oil refining apparatus coupled to the corresponding switches and inlet and discharge lines. A pumping step of driving a pumping member having a heat-resistant coating layer formed thereon for high temperature food as the power generation signal supplied from the power supply unit is generated to generate power for real-time circulating purification of the heated high temperature cooking oil stored in an cooking oil heating container; A suction step of sucking the edible oil stored in the cooking oil heating container with the cooking oil refining line connecting the pumping member and the cooking oil heating container; A refining step of refining the high-temperature cooking oil in real time through a refining member disposed in a plurality of steps in the cooking oil refining line to regenerate the cooking oil of high purity; Discharging the cooking oil purified in the cooking oil refining line to the cooking oil heating vessel; A control step of intermittent power generation signal supplied to the pumping member in accordance with the input control signal, and performing the overall control operation related to the real-time circulation purification of the high temperature cooking oil Cooking oil purification method comprising a. The method of claim 18, The purification step General purification step carried out during the frying operation of less than the set number of daily tablets, and Special purification step carried out in a state in which the daily recovery number is exceeded Cooking oil purification method comprising a. The method of claim 19, The general purification step A first filtering step of purifying particles of 0.22 mm or more through a first filter disposed between the cooking oil heating container and the pumping member in the cooking oil refining line, and A second filtering step of refining the cooking oil through a second filter disposed between the pumping member and the cooking oil heating vessel in the cooking oil refining line Cooking oil purification method comprising a. 21. The method of claim 20, The special purification step A third filtering step of purifying cooking oil through a third filter disposed to replace the first filter, and Fourth filtering step of purifying the cooking oil through a fourth filter disposed to replace the second filter Cooking oil purification method comprising a. The method of claim 21, The special purification step is a cooking oil purification method made in the state where the general purification step is completed. The method of claim 21, The first filter to the third filter comprises a twill mesh net of stainless steel, the fourth filter comprises a high-temperature food nomax bag filter (nomex bag filter). The method of claim 21, In the third filtering step further comprises a catalyst inside the third filter to refine the cooking oil, The catalyst is an edible oil purification method is formed of one or more materials selected from the group consisting of nano silicon dioxide, nano active aluminum oxide, vegetable antioxidant. The method of claim 24, The amount of the catalyst introduced is cooking oil purification method of 0.4% of the amount of cooking oil to be purified. The method of claim 18, Cooking oil purification method for controlling the purification time of the high-temperature cooking oil through a timer to control the driving time of the pumping member in the control step.

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