CN210055661U - Quick refrigerated cooking utensil - Google Patents

Abstract

The utility model discloses a quick-cooling cooking utensil, which comprises a pot body and a pot cover covering the pot body, wherein an inner container is arranged in the pot body, the pot cover can be locked with the inner container into a whole and taken out of the pot body together, a circulating water path filled with cooling water and a water pump are also arranged in the pot body, the cooling water cools the inner container through the water pump, a temperature difference power generation module electrically connected with the water pump is arranged in the pot body, the temperature difference power generation module can transfer heat with the inner container, and the heat generated during the cooking of the inner container is transferred to the temperature difference power generation module to generate electric quantity for the work of the water pump; the utility model discloses need not extra power, rely on the difference in temperature to provide power and cool off.

Description

Quick refrigerated cooking utensil

Technical Field

The utility model relates to the technical field of household appliances, especially, indicate a quick refrigerated cooking utensil.

Background

At present, pressure cooking utensil need cool off after the culinary art is finished to step down as early as possible, traditional electric pressure cooker cooling generally adopts there are water-cooling and air-cooling two kinds of modes, but these two kinds of schemes are only fit for integral type pressure cooker, to split type pressure cooker, have a great deal of difficulties during the use, if put the problem, the power supply problem, the safety problem etc..

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a quick refrigerated cooking utensil, the utility model discloses need not extra power, rely on the difference in temperature to provide power and cool off.

In order to achieve the purpose of the utility model, the utility model adopts the following technical scheme:

the utility model provides a quick refrigerated cooking utensil, includes the pot body and covers and establishes the pot cover of the pot body, the internal inner bag that is equipped with of pot, the pot cover can with the inner bag closure is integrative, together by take out in the pot body, still be equipped with the circulation water route and the water pump that are equipped with the cooling water in the pot body, the cooling water passes through the water pump is right the inner bag cooling, the internal being equipped with of pot with the thermoelectric generation module of water pump electricity connection, thermoelectric generation module can with the inner bag carries out the heat transfer, the heat transfer that produces during the inner bag culinary art gives thermoelectric generation module, in order to produce the confession the electric quantity of water pump work.

Optionally, the thermoelectric generation module includes a hot surface and a cold surface that are disposed opposite to each other, the hot surface may perform heat transfer with the inner container, and the cold surface is located in the circulation water path and may perform heat transfer with the cooling water.

Optionally, the water pump is located in the circulation waterway and is provided with a water inlet, and the cold surface is located above the water inlet.

Optionally, the water inlet is a groove with an upward opening; or the bottom surface of the circulating water channel is an inclined surface, and the water inlet is positioned at the lowest point of the bottom surface of the circulating water channel.

Optionally, the pot body is provided with a bottom wall, the inner container is placed on the bottom wall, the circulating water path is located below the bottom wall and is separated from the inner container through the bottom wall, and the temperature difference power generation module is arranged on the lower surface of the bottom wall.

Optionally, the bottom wall protrudes upwards to form a boss, and the thermoelectric generation module is arranged in the boss.

Optionally, the bottom wall is provided with a water return port communicated with the circulating water path.

Optionally, the pot body is provided with a bottom wall, the inner container is placed on the bottom wall, the circulating water path is located below the bottom wall and is separated from the inner container through the bottom wall, the thermoelectric generation module is arranged on the upper surface of the bottom wall, and the bottom of the inner container is in contact with the thermoelectric generation module.

Optionally, the water pump is provided with a water outlet, the water outlet is connected with a water conveying pipeline, the upper part of the pot body is provided with a spraying opening, and the water conveying pipeline communicates the water outlet with the spraying opening.

Optionally, a water outlet communicated with the circulating waterway is arranged at the bottom of the pot body.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses well inner bag is convenient for directly place at the dining table, through the thermoelectric generation module, relies on the difference in temperature to provide power and cools off, need not extra power, and it is all very convenient when using or picking up just can cool off with higher speed with extra power.

2. The utility model discloses medium temperature difference power generation module includes hot side and cold side, and hot side carries out the heat transfer with the inner bag, and cold side carries out the heat transfer with the cooling water, increases the difference in temperature of hot side and cold side, and according to the characteristic of thermoelectric generation module, the difference in temperature is big more, and output is big more to increase the power of water pump.

3. The utility model discloses well cold side is located the top of water inlet, because the water inlet inhales the cooling water, makes near the cooling water velocity of flow of water inlet very fast, can accelerate the flow of cold side below cooling water like this, makes the cooling water can cool off cold side better enough to further increase the difference in temperature of cold side and hot side.

4. The bottom wall of the pot body of the utility model is provided with the water return port, after cooling water is sprayed on the inner container, the cooling water flows down along the inner wall of the pot body and flows to the bottom wall, and then returns to the circulating water path again along the water return port to form circulation; and the cooling water is cooled through the inner wall of the pot body in the circulating process.

5. The utility model discloses well pot body upper portion sets up sprays the mouth, makes and sprays the position just to pot body high temperature steam position, can be faster cool off to more fast uncapping.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the embodiments of the present invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the embodiments of the invention and not to limit the embodiments of the invention.

Fig. 1 is an exploded view of a rapid cooling cooking appliance according to an embodiment of the present invention;

fig. 2 is a sectional view of the pot body in the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

The utility model provides a quick refrigerated cooking utensil, establish including the pot body and lid the pot cover of the pot body, the internal inner bag that is equipped with of pot, the pot cover can with the inner bag closure is integrative, together by take out in the pot body, still be equipped with the circulation water route and the water pump that are equipped with the cooling water in the pot body, the cooling water passes through the water pump is right the inner bag cooling, the internal being equipped with of pot with the thermoelectric generation module that the water pump electricity is connected, thermoelectric generation module can with the inner bag carries out the heat transfer, the heat transfer that produces during the inner bag culinary art gives thermoelectric generation module, in order to produce the confession the electric quantity of water pump work.

As shown in fig. 1 and fig. 2, the embodiment provides a quick-cooling cooking utensil, including pot body 1 and the pot cover 2 that covers pot body 1, pot cover 2 rotationally establishes on pot body 1, is equipped with the ascending chamber that holds of opening in the pot body 1, holds and has placed inner bag 3 in the chamber, and pot cover 2 has the locking station with inner bag 3 and the unblock station with inner bag 3. Specifically, the cover teeth are arranged on the cooker cover 2, the cooker teeth are arranged on the inner container 3, when the cooker cover 2 rotates to a locking station, the cover teeth are meshed with the cooker teeth, pressure cooking can be conducted at the moment, when the cooker cover 2 rotates to an unlocking station, the cover teeth and the cooker teeth are staggered, and the cooker cover 2 can be opened and can be separated from the inner container 3. After the pressure cooking of the cooking appliance is finished, at the moment, the pot cover 2 is locked with the inner container 3, the pot cover 2 is lifted, the pot cover 2 and the inner container 3 are taken out of the pot body 1 together, and the pot cover and the inner container are directly placed on a dining table and are very convenient to use or collect.

As shown in fig. 2, a circulating water path 4 filled with cooling water, a water pump 5 and a thermoelectric generation module 6 are also arranged in the pot body 1. After cooking is finished, cooling water in the circulating water path 4 is used for spraying and cooling the inner container 3 through the water pump 5, so that the pressure in the inner container 3 is reduced, and the cover is opened as soon as possible. The thermoelectric generation module 6 is electrically connected with the water pump 5, the thermoelectric generation module 6 can be in heat transfer with the inner container 3, the heat generated during the cooking of the inner container 3 is transferred to the thermoelectric generation module 6, and the thermoelectric generation module 6 utilizes the heat to generate the electric quantity for the work of the water supply pump 5. The utility model discloses a thermoelectric generation module 6 relies on the difference in temperature that produces when inner bag 3 cooks to provide power and cools off, need not extra power, just can make 5 work of water pump, cools off with higher speed.

As shown in figure 2, the diameter of the accommodating cavity in the pot body 1 is larger than that of the inner container 3, so that the inner container 3 can be conveniently taken and placed, for example, the diameter of the accommodating cavity is larger than that of the inner container 3 by 1-2 cm. The pot body 1 is provided with a bottom wall 101, the bottom wall 101 is positioned at the bottom of the accommodating cavity, the inner container 3 is arranged in the accommodating cavity, and the bottom of the inner container 3 is contacted with the bottom wall 101. The circulating water path 4 is a closed cavity and is located below the bottom wall 101, and the circulating water path 4 is separated from the bottom of the inner container 3 through the bottom wall 101. Be equipped with thermoelectric generation module 6 on the lower surface of diapire 101, thermoelectric generation module 6 is the plate body structure, including relative hot face and the cold face 601 that sets up, hot face and cold face 601 are located thermoelectric generation module 6's upper surface and lower surface respectively, and thermoelectric generation module 6's hot face and the lower surface laminating of diapire 101. The diapire 101 is the heat conduction material, and the heat that produces when inner bag 3 cooks passes through diapire 101 by the bottom of inner bag 3 and transmits the hot face for thermoelectric generation module 6, makes thermoelectric generation module 6's hot face and cold face 601 produce great difference in temperature to make thermoelectric generation module 6 produce the electric quantity of working pump 5.

As shown in fig. 2, the thermoelectric generation module 6 is located in the circulation water path 4, and the water level of the circulation water path 4 contacts with the cold surface 601 of the thermoelectric generation module 6, that is, the cold surface 601 of the thermoelectric generation module 6 is located in the cooling water of the circulation water path 4, and can transfer heat with the cooling water, so that the cooling water can cool the cold surface 601 of the thermoelectric generation module 6, thereby further increasing the temperature difference between the hot surface and the cold surface 601, according to the characteristics of the thermoelectric generation module 6, the larger the temperature difference is, the larger the output power is, and thereby the power of the water pump 5 is increased.

As shown in fig. 2, the bottom wall 101 protrudes upward to form a boss, the thermoelectric generation module 6 is disposed inside the boss, the upper surface of the boss contacts with the bottom of the inner container 3, and the lower surface of the boss contacts with the hot surface of the thermoelectric generation module 6, so that the thermoelectric generation module 6 can realize better heat transfer with the bottom of the inner container 3 through the boss.

In some embodiments, the thermoelectric generation module 6 may also be directly placed on the upper surface of the bottom wall 101, the hot surface of the thermoelectric generation module 6 is directly contacted with the bottom of the inner container 3, the cold surface of the thermoelectric generation module 6 is contacted with the upper surface of the bottom wall 101, and the circulating water path 4 is located below the bottom wall 101 and is separated from the thermoelectric generation module 6 and the inner container 3 by the bottom wall 101.

As shown in fig. 2, be equipped with the return water mouth 7 with circulation water route 4 intercommunication on the diapire 101, return water mouth 7 is located the both sides of boss respectively for in will holding the cooling water recovery inflow circulation water route 4 in the cavity, realize the used cyclically of cooling water.

As shown in fig. 2, the water pump 5 is provided with a water outlet 502, the water outlet 502 is connected with a water conveying pipeline, the upper part of the pot body 1 is provided with a spraying opening 8, the spraying opening 8 is positioned in the accommodating cavity and faces the upper part of the liner 3, and the water conveying pipeline communicates the water outlet 502 with the spraying opening 8. The cooling water in the water pump 5 is upwards transported to the spraying port 8 through the water delivery pipeline, the spraying port 8 sprays the cooling water towards the upper part of the inner container 3, the cooling water is cooled, the cooled cooling water downwards flows along the inner wall of the pot body 1 and flows to the bottom wall 101, and the cooling water is recycled in the water return port 7 in the bottom wall 101 flowing into the water circulation pipeline 4. In the embodiment, the cooled high-temperature water can be cooled to a certain extent through the inner wall of the pot body 1, so that the circulation efficiency is improved. And spray the mouth 8 and be located 1 upper portions of the pot body, high temperature steam department is on 1 upper portions of the pot body, and the position of spraying is just to 1 high temperature steam position of the pot body, and direct cooling gas can reduce pressure fast, can be faster cool off to more fast uncapping.

In the embodiment, the water pump 5 is a submersible pump, is disposed in the circulation water path 4, and is immersed in the cooling water. In some embodiments, the water pump 5 may be a normal water pump without being immersed in the cooling water.

As shown in fig. 2, the water pump 5 is provided with a water inlet 501, and the water inlet 501 is immersed in the cooling water for sucking the cooling water into the water pump 5. The cold surface 601 of the thermoelectric generation module 6 is located above the water inlet 501, and the water inlet 501 sucks cooling water, so that the flow speed of the cooling water near the water inlet 501 is high, the flow of the cooling water below the cold surface 601 can be accelerated, the cooling water can better cool the cold surface 601, and the temperature difference between the cold surface 601 and the hot surface is further increased.

In the embodiment, the water inlet 501 is a groove with an upward opening and is located at the bottom of the circulating water path 4, so that the cooling water in the circulating water path 4 can flow to the water inlet 501. In some embodiments, the bottom surface of the circulating water path 4 is an inclined surface, and the water inlet 501 is located at the lowest point of the bottom surface of the circulating water path 4, so that the cooling water flows to the water inlet 501.

In the embodiment, the bottom of the pot body 1 is provided with a water outlet 9 communicated with the circulating water path 4, so that the circulating water path 4 can change water conveniently.

In the embodiment, a water storage cavity 10 is arranged at the side part of the pot body 1, and the water storage cavity 10 is communicated with the circulating water path 4. The volume of the water storage cavity 10 is 1-2L. The water return port 7 is respectively communicated with the water storage cavity 10 and the circulating water path 4. Be equipped with circulation baffle 11 between circulation water route 4 and the return water mouth 7, circulation baffle 11 is located the below of return water mouth 7, and circulation baffle 11 highly has the height when 1L water for circulation water route 4 internal storage. The cooling water flowing into the circulation water passage 4 through the water return port 7 flows into the circulation water passage 4 along the circulation baffle plate 11.

Although the embodiments of the present invention have been described above, the description is only for the convenience of understanding the present invention, and the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a quick refrigerated cooking utensil, includes the pot body and covers and establishes the pot cover of the pot body, the internal inner bag that is equipped with of pot, the pot cover can with the inner bag closure is integrative, together by take out in the pot body, still be equipped with the circulation water route and the water pump that are equipped with the cooling water in the pot body, the cooling water passes through the water pump is right the inner bag cooling, a serial communication port, the internal being equipped with of pot with the thermoelectric generation module that the water pump electricity is connected, thermoelectric generation module can with the inner bag carries out the heat transfer, the heat transfer that produces during the inner bag culinary art gives thermoelectric generation module, in order to produce the confession the electric quantity of water pump work.

2. The rapid cooling cooking appliance according to claim 1, wherein the thermoelectric generation module comprises a hot surface and a cold surface which are oppositely arranged, the hot surface can transfer heat with the inner container, and the cold surface is positioned in the circulating water path and can transfer heat with the cooling water.

3. The rapid cooling cooking appliance of claim 2, wherein the water pump is located within the circulating water path and has a water inlet, and the cold surface is located above the water inlet.

4. The rapid cooling cooking appliance of claim 3, wherein the water inlet is an upwardly opening groove; or the bottom surface of the circulating water channel is an inclined surface, and the water inlet is positioned at the lowest point of the bottom surface of the circulating water channel.

5. The rapid cooling cooking appliance according to claim 1, wherein the pan body is provided with a bottom wall, the inner container is placed on the bottom wall, the circulating water path is located below the bottom wall and is separated from the inner container through the bottom wall, and the thermoelectric generation module is arranged on the lower surface of the bottom wall.

6. The rapid cooling cooking appliance of claim 5, wherein the bottom wall is upwardly convex to form a boss, and the thermoelectric generation module is disposed within the boss.

7. The rapid cooling cooking appliance according to claim 5, wherein the bottom wall is provided with a water return port communicating with the circulation water path.

8. The rapid-cooling cooking appliance according to claim 1, wherein the pot body is provided with a bottom wall, the inner container is placed on the bottom wall, the circulating water path is located below the bottom wall and is separated from the inner container through the bottom wall, the thermoelectric generation module is arranged on the upper surface of the bottom wall, and the bottom of the inner container is in contact with the thermoelectric generation module.

9. The quick cooling cooking utensil of claim 1 wherein the water pump has a water outlet connected to a water delivery line, the upper portion of the pot body has a spray opening, and the water delivery line communicates the water outlet with the spray opening.

10. The rapid cooling cooking appliance of claim 1, wherein a water outlet communicated with the circulating water path is formed at the bottom of the pot body.

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