CN115381272B - Solar heat-storage automatic cooking device - Google Patents

Abstract

The invention discloses a solar heat-storage automatic cooking device, which comprises a heat storage box and an automatic frying pan; the solar heating pipe is arranged in the ternary carbonate storage cavity; the automatic frying pan is arranged at the top of the heat storage box, and the oil storage cavity is provided with a liquid level adjusting mechanism; the oil storage cavity is also provided with a baking mechanism, a first oven and a second oven. According to the invention, electric energy generated by the solar panel is used for heating ternary carbonate in the ternary carbonate storage cavity and oil in the oil storage cavity, heat is stored, and the liquid level of the high-temperature oil is raised through the liquid level adjusting mechanism during cooking, so that the high-temperature oil contacts the automatic frying pan, the string baking mechanism, the first oven and the second oven, cooking is completed, and electricity consumption is reduced.

Description

Solar heat-storage automatic cooking device

Technical Field

The invention belongs to the field of cooking appliances, and particularly relates to a solar heat storage automatic cooking device.

Background

The existing frying pan basically adopts a semicircular structure with uniform heat transfer, and a handle is additionally arranged, so that the frying is manually performed, the phenomenon of sticking the pan is otherwise caused, and when a large number of dishes are made, the arms of a user can be painful, so that the use is inconvenient.

Along with the progress of scientific and technological, in order to reduce working strength and improve working efficiency, the catering industry generally selects an automatic cooking device capable of automatically cooking to cook, and the automatic cooking device drives the cooking pot to roll, swing and shake through a driving mechanism after food materials are placed into the cooking pot, so that the processing of the food materials is completed.

The existing automatic stir-frying cooker is mainly electric heating, such as the automatic stir-frying cooker disclosed in Chinese patent with publication number CN212546563U, which comprises: a pot body; the pot cover is arranged at the top of the pot body and comprises a pot cover main body, a glass cover, a silica gel clamping pad and a sealing ring, wherein the top of the pot cover is provided with a groove; the control handle is arranged at the top of the pot cover and comprises a handle upper cover, a gear motor and a handle lower cover, wherein the gear motor is arranged between the handle upper cover and the handle lower cover and is fixed through screws.

The automatic stir-frying cooker has the following defects: because the time of cooking in the household is generally in the peak power stage, the automatic stir-frying cooking can cause the increase of the price of electric charge; the current automatic stir-frying machine has single function, and along with the improvement of life quality of people, the cooking modes are more and more, for example, people more and more like to eat roasted food, and the automatic stir-frying machine obviously does not have the function of roasting food materials.

Disclosure of Invention

The invention aims to provide a solar heat-storage automatic cooking device, which aims to solve the problems of high electricity charge, single function and the like caused by high electricity consumption of the conventional automatic stir-frying machine.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention relates to a solar heat-storage automatic cooking device, which comprises a heat storage box and an automatic frying pan; the heat storage tank comprises an oil storage cavity, a ternary carbonate storage cavity, a solar heating pipe and a plurality of superconducting pipes, wherein oil is filled in the oil storage cavity, ternary carbonate is filled in the ternary carbonate storage cavity, the oil storage cavity and the ternary carbonate storage cavity are separated by a partition plate, superconducting liquid is filled in the superconducting pipes, one end of each superconducting pipe extends into the oil storage cavity, the other end of each superconducting pipe extends into the ternary carbonate storage cavity, and the solar heating pipe is arranged in the ternary carbonate storage cavity and used for connecting a solar panel; the automatic stir-frying pan comprises a pan body and a pan cover, wherein the pan body is fixed on the upper surface of the heat storage box, the pan bottom of the pan body is sunk into the oil storage cavity, the pan cover is covered at the opening of the pan body, a stir-frying mechanism is arranged on the pan cover and is connected with a power supply, the stir-frying mechanism comprises a motor, a rotating shaft, a stirring rod and a first ultrasonic oscillator, the motor is fixed on the pan cover, the rotating shaft is connected with an output shaft of the motor, the stirring rod is arranged on the rotating shaft, and the first ultrasonic oscillator is fixed at the bottom of the rotating shaft.

According to the solar heat storage automatic cooking device, the solar panel is used for generating electricity and acting on ternary carbonate in the ternary carbonate storage cavity, the ternary carbonate is heated and melted, the temperature can reach 600 ℃, the ternary carbonate in the ternary carbonate storage cavity and oil in the oil storage cavity exchange heat through superconducting liquid in the superconducting liquid pipe, the oil temperature can be controlled to be 250-300 ℃, and finally, the high-temperature oil is used for heating food in the automatic cooking pot; therefore, the device can store heat by using ternary carbonate under the condition of sufficient sunlight for use in cooking, and the electricity consumption is reduced.

Preferably, the oil storage cavity be furnished with liquid level adjustment mechanism, liquid level adjustment mechanism includes oil storage pipe, piston and piston rod, oil storage pipe bottom is equipped with uncovered, oil storage pipe's bottom extends to the bottom of oil storage cavity, piston and oil storage pipe sliding connection, and the outer lane of piston and the inner wall in close contact with of oil storage pipe, the upper surface of piston is connected with the bottom of piston rod through the ball axle, the outer lane of piston rod is equipped with the screw thread, the piston pipe is connected with the roof screw thread of oil storage pipe. The liquid level adjusting mechanism is used for adjusting the height of oil in the oil storage cavity, when cooking is not needed, the piston rod lifts the height of the piston, and then part of oil in the oil storage cavity enters the oil storage pipe, so that the liquid level heights in the oil storage cavity and the oil storage pipe are the same, and at the moment, the oil in the oil storage cavity is not in contact with the automatic frying pan, namely the automatic frying pan cannot be heated; when cooking is needed, the piston is pressed down by the piston rod, so that the oil in the piston pipe is pressed into the oil storage cavity, the oil level in the oil storage cavity is raised and is contacted with the automatic frying pan, and then food materials in the automatic frying pan are heated.

Preferably, a plug is arranged on the pot cover, and the motor and the first ultrasonic oscillator are electrically connected with the plug; the top of heat storage case be equipped with the terminal that is used for connecting the power, the top of terminal is equipped with the socket, plug and socket cooperation, after covering the pot cover, motor and first ultrasonic oscillator just can switch on the power, convenient connection.

Preferably, a plurality of stirring rods are arranged, and the stirring rods are uniformly arranged on the circumference of the rotating shaft according to the circumference; the stirring rod comprises a connecting part and a stirring part, wherein the connecting part is in an inverted L shape, one end of the connecting part is fixed with the rotating shaft, and the stirring part is fixed at the bottom of the connecting part; the stirring part is obliquely arranged relative to the horizontal plane. Set up a plurality of puddlers and with the stirring portion slope setting of puddler, help promoting the efficiency of stirring food material.

Preferably, a plurality of skewer baking mechanisms are arranged in the heat storage box, and each skewer baking mechanism comprises a heating cylinder and a meat fork; the heating cylinder is fixed on the side wall of the heat storage box and extends into the oil storage cavity, one end of the outer side of the heating cylinder is provided with an opening, and the end plate of the inner side of the heating cylinder is provided with a jack; the meat roasting fork comprises a fork rod, a cover plate and a hand-held part, wherein the fork rod is of a hollow structure, oil is filled in the hollow structure of the fork rod, the end part of the fork rod is inserted into an insertion hole of the heating cylinder, the cover plate is arranged at the end part of the fork rod, the cover plate is matched with the opening of the heating cylinder, and the hand-held part is fixed at one side of the cover plate, which faces backwards from the fork rod; the circumference of the fork rod is also uniformly provided with a plurality of heat conducting fins according to the circumference. The skewer mechanism is used for making skewers, the fork rod of the skewer is of a central control structure, oil is filled in the skewer, the end part of the skewer is in contact with the heating cylinder after the skewer is arranged on the heating cylinder, and when the skewer mechanism is used, the oil in the oil storage cavity heats the heating cylinder, the skewer is heated from the outside of the skewer, the heating cylinder also transmits heat to the fork rod, the fork rod transmits heat to the heat conducting fin, and the heat conducting fin heats the skewer from the inside of the skewer, so that the barbecue efficiency is improved.

Preferably, a display screen is embedded on the handheld part, a second ultrasonic oscillator is arranged below the handheld part, a first power module is arranged in the handheld part, and the display screen and the second ultrasonic oscillator are connected with the first power module; the inside of fork arm or apron be equipped with temperature sensor, temperature sensor and display screen communication connection. The temperature sensor is used for monitoring the temperature of the baking strings, and the second ultrasonic oscillator is used for carrying out high-frequency oscillation on the baking strings, so that the progress of the baking strings is monitored in real time, and seasonings of the baking strings are enabled to better permeate into the baking strings.

Preferably, a first oven is arranged in the heat storage box, the top of the first oven is fixed with the top plate of the heat storage box, the first oven extends into the oil storage cavity, and the top of the first oven is provided with an opening; the first oven is provided with a pressing column, a third ultrasonic oscillator and a second power module are arranged at the top of the pressing column, and the third ultrasonic oscillator is electrically connected with the second power module.

The first oven is mainly used for manufacturing flat foods such as pancake, omelette and the like, food materials can be flattened by the pressing column during cooking, and the food materials are subjected to high-frequency oscillation through the third ultrasonic oscillator, so that condiments can be better infiltrated into the food materials.

Preferably, a second oven is further embedded in the side wall of the heat storage box, and the second oven is located in the oil storage cavity. The second oven has the same function as the traditional oven and is mainly used for baking bread and the like.

Preferably, the ternary carbonate storage cavity is positioned below the oil storage cavity, and an electric heating pipe is further arranged in the ternary carbonate storage cavity.

Preferably, a palletizing robot is further arranged on the upper surface of the heat storage box and used for taking and placing a pot cover of the automatic cooking pot, a meat fork of the skewer baking mechanism, a pressing column of the first oven and a box door of the second oven.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

1. the solar heat-storage automatic cooking device comprises a heat storage device and an automatic frying pan, wherein the heat storage device comprises an oil storage cavity and a ternary carbonate storage cavity, a solar heating pipe used for connecting a solar panel is arranged in the ternary carbonate storage cavity, ternary carbonate in the ternary carbonate storage cavity is heated through the solar heating pipe in sunny days, heat is stored in the ternary carbonate storage cavity, heat in the ternary carbonate is transferred to oil in the oil storage cavity through a superconducting pipe filled with superconducting liquid, the automatic frying pan is heated through high-temperature oil, cooking is completed, power consumption is hardly consumed under the weather condition of continuous sunny days, and the electricity consumption cost is low.

2. The ternary carbonate storage cavity of the solar heat storage automatic cooking device is internally provided with the electric heating pipe connected with municipal electricity, the municipal electricity can be used for heating ternary carbonate even under the weather condition of continuous overcast and rainy, and the ternary carbonate storage cavity have heat preservation functions, so that the ternary carbonate can be heated in a valley electricity period, municipal electricity is not required to be started in a peak electricity period, the ternary carbonate heated in the valley electricity period and oil in the ternary carbonate storage cavity are directly used for heating food materials, and electricity cost is further saved by reasonably distributing electricity.

3. The solar heat-storage automatic cooking device is additionally provided with the string baking mechanism, the first oven and the second oven, and the string baking mechanism, the first oven or the second oven is selected to bake food according to the shape of dishes, so that the requirements of people on different dishes are met.

4. The invention relates to a baking string mechanism in a solar heat storage automatic cooking device, which comprises a heating cylinder and a baking fork, wherein the baking fork is of a hollow structure, oil is filled in the hollow structure, the end part of the baking fork is in close contact with the heating cylinder, a heat conducting sheet is arranged on the periphery of the baking fork, the heating cylinder heats baking strings from outside to inside, and the baking fork and the heat conducting sheet heat the baking strings from inside to outside, so that uniform heating of the baking strings is realized, and the baking efficiency and the taste of the baking strings are improved.

5. According to the solar heat storage automatic cooking device, the automatic dish frying pan, the string baking mechanism and the first oven are respectively provided with the first ultrasonic oscillator, the second ultrasonic oscillator and the third ultrasonic oscillator, and the seasoning is promoted to permeate into food materials in a high-frequency oscillation mode, so that the taste of dishes is better.

Drawings

Fig. 1 is a perspective view of a solar heat-storage automatic cooking device according to embodiment 1;

fig. 2 is a plan view of the solar heat-storage automatic cooking device (one meat roasting fork is pulled out) according to embodiment 1;

FIG. 3 is a cross-sectional view A-A of the solar thermal automatic cooking apparatus shown in FIG. 2;

FIG. 4 is a cross-sectional view B-B of the solar heat-accumulating automatic cooking apparatus shown in FIG. 2;

FIG. 5 is a C-C cross-sectional view of the solar heat-accumulating automatic cooking apparatus shown in FIG. 2;

fig. 6 is a perspective view of the solar heat-storage automatic cooking device according to embodiment 2.

Reference numerals: the three-dimensional code identification system comprises a 1-heat storage box, a 11-oil storage cavity, a 111-oil storage pipe, a 112-piston, a 113-piston rod, a 12-ternary carbonate storage cavity, a 13-solar heating pipe, a 14-super-catheter, a 15-electric heating pipe, a 2-automatic dish frying pan, a 21-pan body, a 22-pan cover, a 23-motor, a 24-rotating shaft, a 25-stirring rod, a 251-connecting part, a 252-stirring part, a 26-first ultrasonic oscillator, a 27-plug, a 28-binding post, a 29-socket, a 3-baking string mechanism, a 31-heating cylinder, a 32-baking fork, a 321-fork rod, a 322-cover plate, a 323-handheld part, a 324-conducting sheet, a 325-display screen, a 326-second ultrasonic oscillator, a 327-temperature sensor, a 328-first power module, a 4-first oven, a 5-pressing post, a 51-third ultrasonic oscillator, a 52-second power module, a 6-second oven, a 7-stacking robot and a 71-two-dimensional code identification system.

Detailed Description

The following detailed description of the present invention clearly and fully describes the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1 and 2, the solar heat-storage automatic cooking device according to the present invention comprises a heat storage box 1, an automatic wok 2, a skewer mechanism 3, a first oven 4 and a second oven 6.

Referring to the figures 3-5, the heat storage box 1 is wrapped with an asbestos heat preservation layer and an expanded perlite heat preservation layer, and is used for avoiding outward temperature transmission inside the heat storage box 1, and comprises an oil storage cavity 11, a ternary carbonate storage cavity 12, a solar heating pipe 13, an electric heating pipe 15 and a plurality of superconducting pipes 14. The ternary carbonate storage cavity 12 is positioned below the oil storage cavity 11, oil is filled in the oil storage cavity 11, a vacuum ceramic ball is arranged in the oil, the vacuum ceramic ball floats on the surface of the oil, when the automatic frying pan 2, the baking mechanism 3, the first baking oven 4 and the second baking oven 6 are not heated by high-temperature oil, the ternary carbonate storage cavity 12 is filled with ternary carbonate, the oil storage cavity 11 and the ternary carbonate storage cavity 12 are separated by a baffle, the superconducting liquid pipe 14 is filled with superconducting liquid, the superconducting liquid pipe 14 penetrates through the baffle, and the joint of the superconducting liquid pipe 14 and the baffle is sealed, so that one end of the superconducting liquid pipe 14 extends into the oil storage cavity 11, and the other end extends into the ternary carbonate storage cavity 12. The solar heating pipe 13 and the electric heating pipe 15 are arranged in the ternary carbonate storage cavity 12, electric plugs are arranged at the ends of the solar heating pipe 13 and the electric heating pipe 15 and are embedded in the heat storage box 1, the electric plugs of the solar heating pipe 13 are used for being connected with a solar panel, and the electric plugs of the electric heating pipe 15 are used for being connected with municipal electricity.

Referring to fig. 3, the oil storage chamber 11 is provided with a liquid level adjusting mechanism, the liquid level adjusting mechanism comprises an oil storage pipe 111, a piston 112 and a piston rod 113, the bottom of the oil storage pipe 111 is provided with an opening, the bottom of the oil storage pipe 111 extends to the bottom of the oil storage chamber 11, a gap exists between the oil storage pipe and a partition plate, the piston 112 is slidably connected with the oil storage pipe 111, the outer ring of the piston 112 is tightly contacted with the inner wall of the oil storage pipe 111, the upper surface of the piston is connected with the bottom of the piston rod 113 through a ball shaft, the piston rod 113 can rotate relative to the piston 112, the outer ring of the piston rod 113 is provided with threads, the piston rod 113 is in threaded connection with the top plate of the oil storage pipe 111, and further, the piston 112 cannot move upwards due to oil pressure when the piston rod 113 is not operated manually. The liquid level adjusting mechanism is used for adjusting the height of the oil in the oil storage cavity 11, when cooking is not needed, the piston rod 113 lifts the height of the piston 112, so that part of the oil in the oil storage cavity 11 enters the oil storage tube 111, the liquid levels in the oil storage cavity 11 and the oil storage tube 111 are the same, namely the liquid level in the oil storage cavity 11 is reduced, and at the moment, the liquid level of the oil in the oil storage cavity 11 is lower than that of the automatic wok 2, the skewer baking mechanism 3, the first oven 4 and the second oven 6; when cooking is needed, the piston 112 is pressed down by the piston rod 113, so that the oil pressure in the oil storage pipe 111 enters the oil storage cavity 11, the oil level in the oil storage cavity 11 rises, the baking string mechanism 3, the first oven 4 and the second oven 6 are in contact with the automatic frying pan, and then the food materials in the automatic frying pan 2, the baking string mechanism 3, the first oven 4 and the second oven 6 are heated, and as the bottom of the automatic frying pan 2 is lower than the upper surface of the heat storage box 1, the vacuum ceramic balls can move around when contacting the automatic frying pan 2, and the bottom of the automatic frying pan 2 can still contact high-temperature oil.

Referring to fig. 3, the automatic cooking pot 2 comprises a pot body 21 and a pot cover 22, the pot body 21 is fixed on the upper surface of the heat storage tank 1, the bottom of the pot body 21 sinks into the oil storage cavity 11, the pot cover 22 covers the opening of the pot body 21, a cooking mechanism is arranged on the pot cover 22 and comprises a motor 23, a rotating shaft 24, a stirring rod 25 and a first ultrasonic oscillator 26, the motor 23 is fixed on the pot cover 22, the rotating shaft 24 is connected with an output shaft of the motor 23 and is derived into the pot body 21, the stirring rod 25 is arranged on the rotating shaft 24 and used for stirring food during cooking, and the first ultrasonic oscillator 26 is fixed at the bottom of the rotating shaft 26. The cooking mechanism is connected with an external power supply, and the specific connection mode is as follows: the cooker cover 22 on be equipped with plug 27, motor 23 and first ultrasonic oscillator 26 all are connected with the plug 27 electricity, the top of heat-retaining case 1 is equipped with the terminal 28 that is used for connecting the power, the top of terminal 28 is equipped with socket 29, after covering cooker cover 22, plug 27 on the cooker cover 22 just in time inserts in socket 29, through the on-off of the switch control power on terminal 28, and then the switch of control motor 23 and first ultrasonic oscillator 26.

The stirring rods 25 of the cooking mechanism are arranged in a plurality, and the stirring rods 25 are uniformly arranged on the circumference of the rotating shaft according to the circumference; the stirring rod 25 comprises a connecting part 251 and a stirring part 252, wherein the connecting part 251 is in an inverted L shape, one end of the connecting part 251 is fixed with the rotating shaft 24, and the stirring part 252 is fixed at the bottom of the connecting part 251; the stirring part 252 is obliquely arranged relative to the horizontal plane, so that the efficiency of stirring food materials in the cooking process is improved.

Referring to fig. 4, the baking mechanism comprises a heating cylinder 31 and a meat fork 32, wherein the heating cylinder 31 is fixed on the side wall of the heat storage box 1 and extends into the oil storage cavity 11, one end of the outer side of the heating cylinder 31 is provided with an opening, and an inner side end plate of the heating cylinder 31 is provided with an inserting hole; the meat roasting fork 32 comprises a fork rod 321, a cover plate 322 and a hand-held part 323, wherein the fork rod 321 is of a hollow structure, oil is filled in the hollow structure of the fork rod 321, the end part of the fork rod 321 is inserted into an insertion hole of the heating cylinder 31, the cover plate 322 is arranged at the end part of the fork rod 321, the cover plate 322 is matched with an opening of the heating cylinder 31, the hand-held part 323 is fixed on one side of the cover plate 322, which faces back to the fork rod 321, and a plurality of heat conducting fins 324 are uniformly distributed in the circumferential direction of the fork rod 321. The display screen 325 and the alarm are embedded on the hand-held part 323, a second ultrasonic oscillator 326 is arranged below the hand-held part 323, a first power module 328 is arranged in the hand-held part 323, the display screen 325 and the second ultrasonic oscillator 326 are connected with the first power module 328, and the first power module 328 adopts a rechargeable battery module; the inside of the fork rod 321 or the cover plate 322 is provided with a temperature sensor 327, and the temperature sensor 327 is in communication connection with the display screen 325. The skewer baking mechanism is used for manufacturing skewers, fork rods 321 of the skewers 32 are of a central control structure, oil is filled in the fork rods, after the skewers 32 are arranged on the heating cylinders 31, the end parts of the skewers 32 are in contact with the heating cylinders 31, when the skewers are used, the oil in the oil storage cavity heats the heating cylinders 31, the skewers are heated from the outside of the skewers, the heating cylinders 31 also transmit heat to the fork rods 321, the fork rods 321 transmit heat to the heat conducting strips 324, and the heat conducting strips 324 heat the skewers from the inside of the skewers, so that the efficiency of meat roasting is improved; the temperature sensor 327 is used for monitoring the temperature of the skewer, is favorable for monitoring the progress of the skewer in real time, and when the temperature of the fork rod 321 reaches 180 ℃ and lasts 10-20 minutes, the alarm gives an alarm, and the second ultrasonic oscillator 326 is used for carrying out high-frequency oscillation on the skewer, so that the seasonings of the skewer can be better infiltrated into the skewer.

Referring to fig. 5, the top of the first oven 4 is fixed to the top plate of the heat storage tank 1, and the first oven 4 extends into the oil storage cavity 11, and the top of the first oven 4 is provided with an opening. The first oven 4 is mainly used for manufacturing flat foods such as pancake baking and omelet, is provided with a pressing column 5, a third ultrasonic oscillator 51 and a second power module 52 are arranged at the top of the pressing column 5, the third ultrasonic oscillator 51 is electrically connected with the second power module 52, the second power module 52 adopts a chargeable battery module, and the third ultrasonic oscillator 51 is used for carrying out high-frequency oscillation on the flat foods, so that condiments can better permeate into the flat foods.

Referring to fig. 3, the second oven 6 is inlaid on the side wall of the heat storage box 1, the second oven 6 is located in the oil storage cavity 11, and the second oven 6 has the same function as a conventional oven and is mainly used for baking bread and the like.

According to the solar heat storage automatic cooking device, electricity is generated through the solar panel and acts on ternary carbonate in the ternary carbonate storage cavity, the ternary carbonate is heated and melted, the temperature can reach 600 ℃, the ternary carbonate in the ternary carbonate storage cavity and oil in the oil storage cavity exchange heat through superconducting liquid in the superconducting liquid pipe, the oil temperature can be controlled to be 250-300 ℃, when the solar heat storage automatic cooking device is in a stop state, the piston 112 is positioned at a higher position, the liquid levels of the oil in the oil storage cavity 11 and the oil storage pipe 111 are the same, and the liquid level of the oil in the oil storage cavity 11 is lower than the heights of the bottoms of the automatic frying pan 2, the baking mechanism 3, the first oven 4 and the second oven 6; when the automatic cooking device is used, the piston rod 113 is rotated, so that the piston rod 113 pushes the piston 112 downwards, the piston 112 moves downwards, the oil pressure in the oil storage pipe 111 is led into the oil storage cavity 11, the liquid level of the oil in the oil storage cavity 11 rises, the baking string mechanism 3, the first oven 4 and the second oven 6 are not in contact with the bottom of the automatic cooking pot 2, and the food in the automatic cooking pot is heated by high-temperature oil. Here, the volume of the oil storage pipe is made as large as possible, so that the liquid level difference of the oil in the oil storage tank 11 is enough before and after use, and the liquid level of the oil is lower than that of the string baking mechanism 3, the first oven 4 and the second oven 6 when not in use. The device can store heat by using ternary carbonate under the condition of sufficient sunlight for use in cooking, so that the electricity consumption is reduced; even under the weather of long-term overcast and rainy, municipal electricity can be used for heating ternary carbonate in the ternary carbonate storage cavity 12 and oil in the oil storage cavity 11 in the valley electricity period, heat is stored, in the peak electricity period cooking process, the ternary carbonate and the oil heat in the oil storage cavity 11 are utilized for cooking food materials, and electricity consumption is further saved in a power consumption distribution mode.

In the invention, in order to enable the high-temperature oil to better contact with the bottom of the pot body 21 and improve the heat conduction efficiency between the high-temperature oil and the pot body 21, the pot body 21 is fixed on the upper surface of the heat storage box 1, so that the pot cover 22 is opened during cleaning, clean water is poured into the pot body 21, the pot body is cleaned, then the water is taken out by a spoon and is poured out, and the pot body 21 can be cleaned after repeated for several times, and the cleaning process is similar to a rural firewood stove.

Example 2

The embodiment is further provided with an automatic extraction mechanism on the upper surface of the heat storage box on the basis of embodiment 1, the automatic extraction mechanism comprises a control system and a palletizing robot 7, the upper surface of a pot cover 22 of the automatic cooking pot, the front side surface of a meat roasting fork 32, the upper surface of a pressing column 5 and the box door of a second oven 6 are all printed with unique two-dimension codes for positioning, and the palletizing robot 7 is internally provided with a sound control analysis system and a two-dimension code recognition system 71.

When the intelligent oven is used, a user sends instructions to the palletizing robot 7 through sound, such as opening a pot cover, lifting (pressing) a pressing column, extracting (inserting) a meat roasting fork, opening (closing) a second oven door and the like, the voice control analysis system analyzes the user's intention and transmits the user's intention to the control system, the control system gives corresponding instructions to the palletizing robot 7, the palletizing robot 7 is started, a two-dimensional code recognition system 71 is used for searching a two-dimensional code of a control object, the control object is positioned after the two-dimensional code is scanned, and corresponding actions are executed according to the instructions.

It should be noted that in the above two embodiments, a wind power generation device may be further added, that is, a wind power generation heating tube is added in the ternary carbonate storage cavity for connecting the wind power generation device.

In addition, the liquid level adjusting mechanism can also be arranged outside the oil storage cavity 11, the volume of the oil storage pipe 111 can be large enough, the oil storage pipe 111 is communicated with the oil storage cavity 11 through an oil pipe, the liquid level of the full oil stored in the oil storage pipe 111 is lower than the bottom surface of the oil storage cavity 11, the oil in the oil storage cavity 11 can be completely transferred into the oil storage pipe 111, and the phenomenon that the oil is aged due to the fact that the super liquid guide pipe 14 heats the oil under the condition of not using the oil is avoided.

The present invention has been described in detail with reference to the embodiments, but the description is only the preferred embodiments of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention should be considered as falling within the scope of the present invention.

Claims (9)

1. The utility model provides a solar energy heat-retaining automatic cooking device which characterized in that: it comprises a heat storage box and an automatic frying pan; the heat storage tank comprises an oil storage cavity, a ternary carbonate storage cavity, a solar heating pipe and a plurality of superconducting pipes, wherein oil is filled in the oil storage cavity, ternary carbonate is filled in the ternary carbonate storage cavity, the oil storage cavity and the ternary carbonate storage cavity are separated by a partition plate, superconducting liquid is filled in the superconducting pipes, one end of each superconducting pipe extends into the oil storage cavity, the other end of each superconducting pipe extends into the ternary carbonate storage cavity, and the solar heating pipe is arranged in the ternary carbonate storage cavity and used for connecting a solar panel; the automatic dish frying pan comprises a pan body and a pan cover, wherein the pan body is fixed on the upper surface of the heat storage box, the pan bottom of the pan body is sunk into the oil storage cavity, the pan cover is covered at the opening of the pan body, a dish frying mechanism is arranged on the pan cover and is connected with a power supply, the dish frying mechanism comprises a motor, a rotating shaft, a stirring rod and a first ultrasonic oscillator, the motor is fixed on the pan cover, the rotating shaft is connected with an output shaft of the motor, the stirring rod is arranged on the rotating shaft, and the first ultrasonic oscillator is fixed at the bottom of the rotating shaft; the oil storage cavity be furnished with liquid level adjustment mechanism, liquid level adjustment mechanism includes oil storage pipe, piston and piston rod, oil storage pipe bottom is equipped with uncovered, oil storage pipe's bottom extends to the bottom of oil storage cavity, piston and oil storage pipe sliding connection, and the outer lane of piston and the inner wall in close contact with of oil storage pipe, the upper surface of piston is connected with the bottom of piston rod through the ball axle, the outer lane of piston rod is equipped with the screw thread, the roof threaded connection of piston pipe and oil storage pipe.

2. The solar heat storage automatic cooking device according to claim 1, wherein: the pot cover is provided with a plug, and the motor and the first ultrasonic oscillator are electrically connected with the plug; the top of heat storage case be equipped with the terminal that is used for connecting the power, the top of terminal is equipped with the socket, plug and socket cooperation.

3. The solar heat storage automatic cooking device according to claim 1, wherein: the stirring rods are arranged in a plurality, and are uniformly arranged on the circumference of the rotating shaft according to the circumference; the stirring rod comprises a connecting part and a stirring part, wherein the connecting part is in an inverted L shape, one end of the connecting part is fixed with the rotating shaft, and the stirring part is fixed at the bottom of the connecting part; the stirring part is obliquely arranged relative to the horizontal plane.

4. The solar heat storage automatic cooking device according to claim 1, wherein: a plurality of skewer baking mechanisms are arranged in the heat storage box, and each skewer baking mechanism comprises a heating cylinder and a meat fork; the heating cylinder is fixed on the side wall of the heat storage box and extends into the oil storage cavity, one end of the outer side of the heating cylinder is provided with an opening, and the end plate of the inner side of the heating cylinder is provided with a jack; the meat roasting fork comprises a fork rod, a cover plate and a hand-held part, wherein the fork rod is of a hollow structure, oil is filled in the hollow structure of the fork rod, the end part of the fork rod is inserted into an insertion hole of the heating cylinder, the cover plate is arranged at the end part of the fork rod, the cover plate is matched with the opening of the heating cylinder, and the hand-held part is fixed at one side of the cover plate, which faces backwards from the fork rod; the circumference of the fork rod is also uniformly provided with a plurality of heat conducting fins according to the circumference.

5. The solar heat storage automatic cooking device according to claim 4, wherein: the display screen is embedded on the handheld part, the second ultrasonic oscillator is arranged below the handheld part, the first power module is arranged in the handheld part, and the display screen and the second ultrasonic oscillator are connected with the first power module; the inside of fork arm or apron be equipped with temperature sensor, temperature sensor and display screen communication connection.

6. The solar heat storage automatic cooking device according to claim 4, wherein: the heat storage box is internally provided with a first oven, the top of the first oven is fixed with the top plate of the heat storage box, the first oven extends into the oil storage cavity, and the top of the first oven is provided with an opening; the first oven is provided with a pressing column, a third ultrasonic oscillator and a second power module are arranged at the top of the pressing column, and the third ultrasonic oscillator is electrically connected with the second power module.

7. The solar heat storage automatic cooking device according to claim 6, wherein: the side wall of the heat storage box is also embedded with a second oven which is positioned in the oil storage cavity.

8. The solar heat storage automatic cooking device according to claim 1, wherein: the ternary carbonate storage cavity is positioned below the oil storage cavity, and an electric heating pipe is further arranged in the ternary carbonate storage cavity.

9. The solar heat storage automatic cooking device according to claim 1, wherein: the upper surface of the heat storage box is also provided with a palletizing robot which is used for taking and placing a pot cover of an automatic cooking pot, a meat fork of a skewer baking mechanism, a pressing column of a first oven and a box door of a second oven.