CN104839258A - Food processing device - Google Patents

Abstract

The invention relates to a food processing device. A pot cover is provided with a feed inlet, helical partitions are arranged in an oil pot, three oil speed regulation mechanisms are arranged on a helical oil way from an oil inlet of the oil pot to an oil outlet of the oil pot, and a tilting tray is fixedly arranged in the oil pot at the oil outlet. The middle of the tilting tray is rotationally connected with a conveying shaft, the conveying shaft is connected with an arc-shaped strainer, and the tilting tray above a conveying mesh belt is provided with a feed channel. A screen is arranged below the discharge side of the conveying mesh belt, two sides of the middle of an upper sauce dressing frame are provided with slide rails respectively, a fixed seat and a movable seat are arranged between the slide rails, the fixed seat is connected with a first drum, the movable seat is connected with a second drum, and a sauce dressing gap for food to be processed is arranged below the discharge side of the screen and between the drums. The food processing device is simple in structure, convenient to implement and capable of processing the food to be processed and fried food such as peanuts effectively, and meets industrial production needs.

Description

A kind of food processing apparatus

Technical field

The present invention relates to a kind of food processing apparatus, be specially adapted to the food processing and production such as a ball, peanut.

Background technology

At present the food such as a ball, peanut is carried out adding man-hour, the equipment adopted is varied, but also shortage is compared for the process equipment of fried food, operating neither be very intelligent, a lot of workman is needed to carry out the interspersed operation in centre, so not only have impact on working (machining) efficiency, but also add the safety problem of employee's operation, be unfavorable for large-scale industrial production.Therefore, are objects that the present invention studies for the problems referred to above.

Summary of the invention

In order to solve existing technical deficiency, the invention provides a kind of food processing apparatus.

The invention is characterized in: a kind of food processing apparatus, comprise fried frame and upper sauce frame, the side of described fried frame is provided with oil cauldron, the opposite side of described fried frame is provided with foraminous conveyer, described oil cauldron is provided with a pot cover, it is characterized in that: described pot cover is provided with a charging aperture, be provided with an outer end in described oil cauldron and be connected to helical baffle plates on oil cauldron inwall, be positioned at the oil cauldron conduit that helical baffle plates formed and be installed on electrical heating elements, the oil cauldron being positioned at helical baffle plates center is provided with an oil-in, the oil cauldron being positioned at helical baffle plates outer end is provided with an oil-out, described oil-in is connected with the oil-out pipeline of an oil transfer pump, the oil body temporary storage tank pipeline that described oil-out and is fixed on below oil cauldron in oil cauldron frame is connected, described oil body temporary storage tank is connected with the oil-in pipeline of described oil transfer pump, described oil body temporary storage tank is provided with a cooling device, for the oil temperature of cooling for reflux, be provided with three from the oil-in of oil cauldron to the helical form oil circuit of the oil-out of oil cauldron and become 120 degree first to the 3rd oily fast governor motions distributed, the fast governor motion of each oil is positioned on different circle helical form oil circuits, described first to the 3rd oily fast governor motion includes one and is rotationally connected with speed governing rotating shaft on oil circuit helical baffle plates and radial direction and is connected to blade in speed governing rotating shaft, one side end of described speed governing rotating shaft is connected with speed governing driven gear, described speed governing driven gear is engaged by the speed governing driving gear on the stepper motor output shaft be located on pot cover and drives, on described pot cover, the fast governor motion of corresponding each oil offers one in order to run through the port of driving gear, the oil cauldron being positioned at oil-out place is installed with the swash plate that has some oil leaking holes, the side of described swash plate is immersed in oil body, the opposite side of described swash plate stretches out oil cauldron and is positioned at above the feed side of foraminous conveyer, be rotationally connected in the middle part of described swash plate and send rotating shaft together, described is sent rotating shaft to be radially connected with some arc shape strainers be positioned on swash plate end face, the pot cover being positioned at swash plate place offers one so that the opening that rotates of strainer, be positioned on the swash plate above foraminous conveyer and offer blanking conduit, the below of the exit side of described foraminous conveyer is provided with the screen cloth that is fixed on the skewed laying in sauce frame, the both sides, middle part of described upper sauce frame are respectively equipped with a slide rail, a holder be fixedly connected with slide rail and a sliding seat that can be slidably connected with slide rail is provided with between two slide rails, described holder is connected with the first cylinder through first pole pair, described sliding seat is connected with the second tin roller contour with the first cylinder through second pole pair, the upper sauce gap of band processed food be positioned at below screen cloth exit side is provided with between two cylinders, described holder is also provided with the first dip groove of submergence first cylinder lower limb, described sliding seat is also provided with the second dip groove of submergence second tin roller lower limb, described slide rail offers a conduit, the lock-screw in order to sliding seat to be fixed on slide rail is provided with in described conduit, the upper sauce frame be positioned at immediately below gap is provided with band processed food feeder.

In an embodiment of the present invention, the oil-out of described oil cauldron is provided with one deck filter screen, is also provided with one in order to control the check valve that oil body flows between the oil-in of described oil cauldron and the oil-out of described oil transfer pump.

In an embodiment of the present invention, the fried frame being positioned at the below of foraminous conveyer is provided with one in order to reclaim the oil groove of oil body.

In an embodiment of the present invention, described first cylinder and second tin roller drive rotation by the motor be located on slide rail through pulley mechanism respectively, and the slide rail be positioned at below screen cloth is provided with the accumulator tank receiving granule band processed food.

In an embodiment of the present invention, described is sent rotating shaft upper end to be provided with to send driven pulley together, and described is sent driven pulley to drive with the power transmission machine that rises be located on oil cauldron sidewall through belt transmission agency to be connected.

In an embodiment of the present invention, described cooling device is a Water-cooling circulating device; Described oil cauldron conduit comprises oil-feed district, first thermal treatment zone, second thermal treatment zone, the 3rd thermal treatment zone, pre-cooling zone and fuel-displaced district; Described oil-in is arranged at oil-feed district; Described oil-out is arranged at fuel-displaced district; Described first thermal treatment zone, second thermal treatment zone, the 3rd thermal treatment zone separately correspondence are provided with the first electrical heating elements, the second electrical heating elements, the 3rd electrical heating elements; Described first oily velocity modulation joint organization establishes is in first thermal treatment zone, and the second oily velocity modulation joint organization establishes is in second thermal treatment zone, and the 3rd oily velocity modulation joint organization establishes is in the 3rd thermal treatment zone.

In an embodiment of the present invention, described frame is provided with a control box, control circuit is provided with in described control box, described control circuit comprises a MCU, described MCU is connected with the drive circuit of the first to the 3rd electrical heating elements, the motor-drive circuit of first to three stepper motor corresponding with the first to the 3rd oily fast governor motion, for detecting the first temperature sensor of the first thermal treatment zone oil temperature, for detecting the second temperature sensor of the second thermal treatment zone oil temperature, for detecting the three-temperature sensor of the 3rd thermal treatment zone oil temperature, for detecting the 4th temperature sensor of oil-feed district oil temperature, for detecting the 5th temperature sensor of pre-cooling zone, for detecting the 6th temperature sensor and the oil transfer pump drive circuit in fuel-displaced district.

In an embodiment of the present invention, the temperature data that described MCU gathers according to the first to the 5th temperature sensor controls the described first to the 3rd stepper motor and the first to the 3rd electrical heating elements work, and its control strategy comprises:

Strategy one, when the first temperature sensor detects that the first thermal treatment zone oil temperature is lower than temperature T1, then MCU controls the first stepping motor speed and rises to V1, improves the heating power of the first electrical heating elements simultaneously; When the first temperature sensor detects that the first thermal treatment zone oil temperature is higher than temperature T1, then MCU controls the first stepping motor speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, makes the first thermal treatment zone oil temperature remain on T1;

Strategy two, when the second temperature sensor detects that the second thermal treatment zone oil temperature is lower than temperature T2, then MCU controls the second stepping motor speed and rises to V2, improves the heating power of the second electrical heating elements simultaneously; When the second temperature sensor detects that the second thermal treatment zone oil temperature is higher than temperature T2, then MCU controls the second stepping motor speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, the second thermal treatment zone oil temperature is reached and remains on T2;

Strategy three, detect that the 3rd thermal treatment zone oil temperature is lower than temperature T3 when three-temperature sensor, then MCU controls the 3rd stepper motor rotating speed and rises to V3, improves the heating power of the 3rd electrical heating elements simultaneously; When three-temperature sensor detects that the 3rd thermal treatment zone oil temperature is higher than temperature T3, then MCU controls the 3rd stepper motor rotating speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, the 3rd thermal treatment zone oil temperature is reached and remains on T3; The priority level of above-mentioned strategy is: strategy one is greater than strategy two, and strategy two is greater than strategy three.

Advantage of the present invention: structure of the present invention is simple, and it is convenient to implement, and effectively can carry out processing to a ball, spherical fried food etc., thus meet industrial production needs.

Accompanying drawing explanation

Fig. 1 is embodiment of the present invention overall structure schematic diagram,

Fig. 2 is the plan structure schematic diagram of embodiment of the present invention swash plate part,

Fig. 3 is the structure cross-sectional schematic of embodiment of the present invention oil cauldron part,

Fig. 4 is the plan structure schematic diagram of embodiment of the present invention oil cauldron part,

Fig. 5 be in Fig. 1 A to partial structurtes schematic diagram,

Fig. 6 is the structure cross-sectional schematic of another embodiment of the present invention oil cauldron part,

Fig. 7 is oil cauldron control circuit theory diagram of the present invention.

Detailed description of the invention

Referring to figs. 1 to Fig. 7, the present invention relates to a kind of food processing apparatus, comprise fried frame 1 and upper sauce frame 2, the side of described fried frame is provided with oil cauldron 3, the opposite side of described fried frame is provided with foraminous conveyer 4, described oil cauldron is provided with a pot cover 5, described pot cover is provided with a charging aperture 6, be provided with an outer end in described oil cauldron and be connected to helical baffle plates 7 on oil cauldron inwall, be positioned at the oil cauldron conduit that helical baffle plates formed and be installed on electrical heating elements 8, the oil cauldron being positioned at helical baffle plates center is provided with an oil-in 9, the oil cauldron being positioned at helical baffle plates outer end is provided with an oil-out 10, in order to the oil body realized in oil cauldron recycles, above-mentioned oil-in is connected with the oil-out pipeline of an oil transfer pump 33, oil body temporary storage tank 34 pipeline that described oil-out and is fixed on below oil cauldron in fried frame is connected, described oil body temporary storage tank is connected with the oil-in pipeline of described oil transfer pump, described oil body temporary storage tank is provided with cooling device 47, be provided with three from the oil-in of oil cauldron to the helical form oil circuit of the oil-out of oil cauldron and become 120 degree first oily fast governor motions 131 distributed, second oily fast governor motion 132, 3rd oily fast governor motion 133, the fast governor motion of each oil is positioned on different circle helical form oil circuits, described first to the 3rd oily fast governor motion includes one and is rotationally connected with speed governing rotating shaft 12 on oil circuit helical baffle plates and radial direction and is connected to blade 13 in speed governing rotating shaft, one side end of described speed governing rotating shaft is connected with speed governing driven gear 14, described speed governing driven gear engages driving by the speed governing driving gear 15 on the stepper motor output shaft be located on pot cover, on described pot cover, the fast governor motion of corresponding each oil offers one in order to run through the port 16 of driving gear, the oil cauldron being positioned at oil-out place is installed with the swash plate 17 that has some oil leaking holes, the side of described swash plate is immersed in oil body, the opposite side of described swash plate stretches out oil cauldron and is positioned at above the feed side of foraminous conveyer, be rotationally connected in the middle part of described swash plate and send rotating shaft 18 together, described is sent rotating shaft to be radially connected with some arc shape strainers 19 be positioned on swash plate end face, the pot cover being positioned at swash plate place offers one so that the opening that rotates of strainer, be positioned on the swash plate above foraminous conveyer and offer blanking conduit 20, the below of the exit side of described foraminous conveyer is provided with the screen cloth 21 that is fixed on the skewed laying in sauce frame, the both sides, middle part of described upper sauce frame are respectively equipped with a slide rail 22, the holder be fixedly connected with slide rail 23 and the sliding seat 24 that can be slidably connected with slide rail is provided with between two slide rails, described holder is connected with the first cylinder 25 through first pole pair, described sliding seat is connected with the second tin roller 26 contour with the first cylinder through second pole pair, the upper sauce gap 27 of band processed food be positioned at below screen cloth exit side is provided with between two cylinders, described holder is also provided with the first dip groove 28 of submergence first cylinder lower limb, described sliding seat is also provided with the second dip groove 29 of submergence second tin roller lower limb, described slide rail offers a conduit 30, the lock-screw 31 in order to sliding seat to be fixed on slide rail is provided with in described conduit, the upper sauce frame be positioned at immediately below gap is provided with band processed food feeder 32.By the control to oil fast governor motion axis of rotation direction, oil body speed is changed, with oil body in the same way, then accelerate oil body speed, reverse with oil body, then slow down oil body speed, thus reach the object of oily velocity modulation joint, and simultaneously can also overturn band processed food in blade rotary process, make its frying action better, thus indirectly ensure fried degree.

In an embodiment of the present invention, described cooling device 47 is a Water-cooling circulating device; Described oil cauldron conduit comprises the thermal treatment zone 43, the thermal treatment zone 42, second, oil-feed district 46, first, the 3rd thermal treatment zone 44, pre-cooling zone 45 and fuel-displaced district 41; Described oil-in is arranged at oil-feed district; Described oil-out is arranged at fuel-displaced district; Described first thermal treatment zone, second thermal treatment zone, the 3rd thermal treatment zone separately correspondence are provided with the first electrical heating elements, the second electrical heating elements, the 3rd electrical heating elements.Described first oily velocity modulation joint organization establishes is in first thermal treatment zone, and the second oily velocity modulation joint organization establishes is in second thermal treatment zone, and the 3rd oily velocity modulation joint organization establishes is in the 3rd thermal treatment zone.

In an embodiment of the present invention, described frame is provided with a control box, control circuit is provided with in described control box, described control circuit comprises a MCU, described MCU is connected with the drive circuit of the first to the 3rd electrical heating elements, the motor-drive circuit of described reducing motor, for detecting the first temperature sensor 52 of the first thermal treatment zone oil temperature, for detecting the second temperature sensor 53 of the second thermal treatment zone oil temperature, for detecting the three-temperature sensor 54 of the 3rd thermal treatment zone oil temperature, for detecting the 4th temperature sensor 56 of oil-feed district oil temperature, for detecting the 5th temperature sensor 55 of pre-cooling zone, for detecting the 6th temperature sensor 51 and the oil transfer pump drive circuit in fuel-displaced district.

In an embodiment of the present invention, described MCU controls described reducing motor and the first to the 3rd electrical heating elements work according to the temperature data of the first to the 5th temperature sensor collection, and its control strategy comprises:

Strategy one, when the first temperature sensor detects that the first thermal treatment zone oil temperature is lower than temperature T1, then MCU controls the first stepping motor speed and rises to V1, improves the heating power of the first electrical heating elements simultaneously; When the first temperature sensor detects that the first thermal treatment zone oil temperature is higher than temperature T1, then MCU controls the first stepping motor speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, makes the first thermal treatment zone oil temperature remain on T1;

Strategy two, when the second temperature sensor detects that the second thermal treatment zone oil temperature is lower than temperature T2, then MCU controls the second stepping motor speed and rises to V2, improves the heating power of the second electrical heating elements simultaneously; When the second temperature sensor detects that the second thermal treatment zone oil temperature is higher than temperature T2, then MCU controls the second stepping motor speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, the second thermal treatment zone oil temperature is reached and remains on T2;

Strategy three, detect that the 3rd thermal treatment zone oil temperature is lower than temperature T3 when three-temperature sensor, then MCU controls the 3rd stepper motor rotating speed and rises to V3, improves the heating power of the 3rd electrical heating elements simultaneously; When three-temperature sensor detects that the 3rd thermal treatment zone oil temperature is higher than temperature T3, then MCU controls the 3rd stepper motor rotating speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, the 3rd thermal treatment zone oil temperature is reached and remains on T3; The priority level of above-mentioned strategy is: strategy one is greater than strategy two, and strategy two is greater than strategy three.The control of temperature of the present invention can set according to processed object, and in the present embodiment, when croquette, said temperature T1 can be 60 DEG C, and temperature T2 can be 90 DEG C, and temperature T3 can be 100 DEG C; Here not as restriction, those temperature can also according to preferably empirical value setting; Its medium velocity V1 can be 2 turns/S, speed V2 can be 2.5 turns/S, speed V3 can be 2 turns/S, speed V be 1 turn/S; This speed is not also as restriction, and those speed can also be set by key circuit according to preferably empirical value; The current value of described sensor collection also shows by display module; This strategy can ensure that oil temperature is in optimum state, the temperature of oil cauldron is formed gradient, the frying action reached.

Oil transfer pump is entered in order to prevent fried broken end, the oil-out of above-mentioned oil cauldron is provided with one deck filter screen 35, in order to prevent oil body from flowing into from the oil-out of oil transfer pump when oil transportation air pump inoperative, be also provided with one between the oil-in of described oil cauldron and the oil-out of described oil transfer pump in order to control the check valve 36 that oil body flows to.

In order to be reclaimed by the oil body on foraminous conveyer, the fried frame being positioned at the below of foraminous conveyer is provided with one in order to reclaim the oil groove 37 of oil body.

Above-mentioned first cylinder and second tin roller drive rotation by the motor 38 be located on slide rail through pulley mechanism respectively, and the slide rail be positioned at below screen cloth is provided with the accumulator tank 39 receiving granule band processed food.

Above-mentioned is sent rotating shaft upper end to be provided with to send driven pulley 40 together, and described is sent driven pulley to drive with the power transmission machine 41 that rises be located on oil cauldron sidewall through belt transmission agency to be connected.

Specific implementation process: start oil transfer pump, start to send oil in oil cauldron, then electric heating assembly is opened, oil temperature is made to rise to the degree of fried needs, the center will the band of processing processed food being needed to be poured into the oil cauldron dividing plate of this device again, due to the effect of delivery pump, band is made to process food along with oil body flows from oil cauldron oil-in to oil-out, thus realize being with processed food to walk while be fried, then by the control to oil fast governor motion axis of rotation direction, oil body speed is changed, with oil body in the same way, then accelerate oil body speed, reverse with oil body, then slow down oil body speed, thus reach the object of oily velocity modulation joint, and simultaneously can also overturn band processed food in blade rotary process, make its frying action better, thus indirectly ensure fried degree.Pulled out by the arc shape strainer be positioned on oil cauldron oil-out place swash plate after being with fried getting well of processing food, strainer along with axis of rotation to the blanking conduit place of swash plate time, fried goods drops to foraminous conveyer in blanking conduit, again from the exit side guiding screen cloth of foraminous conveyer, space due to screen cloth is set to can screen granule band processed food, so process food through out-of-date at band, granule band is processed food just out screened and is dropped in accumulator tank, thus completes small band processed food recovery operation; And satisfactory band processed food continues descending, drop in gap from the exit side of screen cloth, rotated by driven by motor cylinder, and rotate cylinder by dip band and cover band processed food on, thus the upper sauce operation completed band processed food, band processed food after completing then drops in feeder, completes process.Consider and need the band of processing processed food to have individual difference, locking-adjustable screw makes sliding seat move relative to holder, thus regulates gap length, completes the process requirements of the large small band processed food of variable grain.

The foregoing is only preferred embodiment of the present invention, all equalizations done according to the present patent application the scope of the claims change and modify, and all should belong to covering scope of the present invention.

Claims (8)

1. a food processing apparatus, comprise fried frame and upper sauce frame, the side of described fried frame is provided with oil cauldron, the opposite side of described fried frame is provided with foraminous conveyer, described oil cauldron is provided with a pot cover, it is characterized in that: described pot cover is provided with a charging aperture, be provided with an outer end in described oil cauldron and be connected to helical baffle plates on oil cauldron inwall, be positioned at the oil cauldron conduit that helical baffle plates formed and be installed on electrical heating elements, the oil cauldron being positioned at helical baffle plates center is provided with an oil-in, the oil cauldron being positioned at helical baffle plates outer end is provided with an oil-out, described oil-in is connected with the oil-out pipeline of an oil transfer pump, the oil body temporary storage tank pipeline that described oil-out and is fixed on below oil cauldron in oil cauldron frame is connected, described oil body temporary storage tank is connected with the oil-in pipeline of described oil transfer pump, described oil body temporary storage tank is provided with a cooling device, for the oil temperature of cooling for reflux, be provided with three from the oil-in of oil cauldron to the helical form oil circuit of the oil-out of oil cauldron and become 120 degree first to the 3rd oily fast governor motions distributed, the fast governor motion of each oil is positioned on different circle helical form oil circuits, described first to the 3rd oily fast governor motion includes one and is rotationally connected with speed governing rotating shaft on oil circuit helical baffle plates and radial direction and is connected to blade in speed governing rotating shaft, one side end of described speed governing rotating shaft is connected with speed governing driven gear, described speed governing driven gear is engaged by the speed governing driving gear on the stepper motor output shaft be located on pot cover and drives, on described pot cover, the fast governor motion of corresponding each oil offers one in order to run through the port of driving gear, the oil cauldron being positioned at oil-out place is installed with the swash plate that has some oil leaking holes, the side of described swash plate is immersed in oil body, the opposite side of described swash plate stretches out oil cauldron and is positioned at above the feed side of foraminous conveyer, be rotationally connected in the middle part of described swash plate and send rotating shaft together, described is sent rotating shaft to be radially connected with some arc shape strainers be positioned on swash plate end face, the pot cover being positioned at swash plate place offers one so that the opening that rotates of strainer, be positioned on the swash plate above foraminous conveyer and offer blanking conduit, the below of the exit side of described foraminous conveyer is provided with the screen cloth that is fixed on the skewed laying in sauce frame, the both sides, middle part of described upper sauce frame are respectively equipped with a slide rail, a holder be fixedly connected with slide rail and a sliding seat that can be slidably connected with slide rail is provided with between two slide rails, described holder is connected with the first cylinder through first pole pair, described sliding seat is connected with the second tin roller contour with the first cylinder through second pole pair, the upper sauce gap of band processed food be positioned at below screen cloth exit side is provided with between two cylinders, described holder is also provided with the first dip groove of submergence first cylinder lower limb, described sliding seat is also provided with the second dip groove of submergence second tin roller lower limb, described slide rail offers a conduit, the lock-screw in order to sliding seat to be fixed on slide rail is provided with in described conduit, the upper sauce frame be positioned at immediately below gap is provided with band processed food feeder.

2. a kind of food processing apparatus according to claim 1, is characterized in that: the oil-out of described oil cauldron is provided with one deck filter screen, is also provided with one in order to control the check valve that oil body flows between the oil-in of described oil cauldron and the oil-out of described oil transfer pump.

3. a kind of food processing apparatus according to claim 2, is characterized in that: the fried frame being positioned at the below of foraminous conveyer is provided with one in order to reclaim the oil groove of oil body.

4. a kind of food processing apparatus according to claim 3, it is characterized in that: described first cylinder and second tin roller drive rotation by the motor be located on slide rail through pulley mechanism respectively, the slide rail be positioned at below screen cloth is provided with the accumulator tank receiving granule band processed food.

5. a kind of food processing apparatus according to claim 4, is characterized in that: described is sent rotating shaft upper end to be provided with to send driven pulley together, and described is sent driven pulley to drive with the power transmission machine that rises be located on oil cauldron sidewall through belt transmission agency to be connected.

6. a kind of food processing apparatus according to claim 1, is characterized in that: described cooling device is a Water-cooling circulating device; Described oil cauldron conduit comprises oil-feed district, first thermal treatment zone, second thermal treatment zone, the 3rd thermal treatment zone, pre-cooling zone and fuel-displaced district; Described oil-in is arranged at oil-feed district; Described oil-out is arranged at fuel-displaced district; Described first thermal treatment zone, second thermal treatment zone, the 3rd thermal treatment zone separately correspondence are provided with the first electrical heating elements, the second electrical heating elements, the 3rd electrical heating elements; Described first oily velocity modulation joint organization establishes is in first thermal treatment zone, and the second oily velocity modulation joint organization establishes is in second thermal treatment zone, and the 3rd oily velocity modulation joint organization establishes is in the 3rd thermal treatment zone.

7. a kind of food processing apparatus according to claim 6, it is characterized in that: described frame is provided with a control box, control circuit is provided with in described control box, described control circuit comprises a MCU, described MCU is connected with the drive circuit of the first to the 3rd electrical heating elements, the motor-drive circuit of first to three stepper motor corresponding with the first to the 3rd oily fast governor motion, for detecting the first temperature sensor of the first thermal treatment zone oil temperature, for detecting the second temperature sensor of the second thermal treatment zone oil temperature, for detecting the three-temperature sensor of the 3rd thermal treatment zone oil temperature, for detecting the 4th temperature sensor of oil-feed district oil temperature, for detecting the 5th temperature sensor of pre-cooling zone, for detecting the 6th temperature sensor and the oil transfer pump drive circuit in fuel-displaced district.

8. a kind of food processing apparatus according to claim 7, it is characterized in that: the temperature data that described MCU gathers according to the first to the 5th temperature sensor controls the described first to the 3rd stepper motor and the first to the 3rd electrical heating elements work, and its control strategy comprises:

Strategy one, when the first temperature sensor detects that the first thermal treatment zone oil temperature is lower than temperature T1, then MCU controls the first stepping motor speed and rises to V1, improves the heating power of the first electrical heating elements simultaneously; When the first temperature sensor detects that the first thermal treatment zone oil temperature is higher than temperature T1, then MCU controls the first stepping motor speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, makes the first thermal treatment zone oil temperature remain on T1;

Strategy two, when the second temperature sensor detects that the second thermal treatment zone oil temperature is lower than temperature T2, then MCU controls the second stepping motor speed and rises to V2, improves the heating power of the second electrical heating elements simultaneously; When the second temperature sensor detects that the second thermal treatment zone oil temperature is higher than temperature T2, then MCU controls the second stepping motor speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, the second thermal treatment zone oil temperature is reached and remains on T2;

Strategy three, detect that the 3rd thermal treatment zone oil temperature is lower than temperature T3 when three-temperature sensor, then MCU controls the 3rd stepper motor rotating speed and rises to V3, improves the heating power of the 3rd electrical heating elements simultaneously; When three-temperature sensor detects that the 3rd thermal treatment zone oil temperature is higher than temperature T3, then MCU controls the 3rd stepper motor rotating speed and reduces to V, and strengthens the power of oil transfer pump, to improve oil circulation speed, the 3rd thermal treatment zone oil temperature is reached and remains on T3; The priority level of above-mentioned strategy is: strategy one is greater than strategy two, and strategy two is greater than strategy three.