CN213882943U - Food processor - Google Patents

Abstract

The utility model discloses a food processor. Wherein, cooking machine includes: a cup body; the refrigeration device comprises an evaporator and a compressor connected with the evaporator, and the evaporator is configured to refrigerate the cup body. The utility model discloses a cooking machine, cooking machine can refrigerate the cup through setting up refrigerating plant for the food temperature in the cup reduces, thereby after handling good food, can be fast with the food cooling in the cup through refrigerating plant, and then realize the effect of drinking immediately, it is long when having reduced user's waiting.

Description

Food processor

Technical Field

The utility model relates to the technical field of household appliances, particularly, relate to a cooking machine.

Background

At present, the existing food processor can grind and heat food, the cooked food after heating is very hot, and a user needs to spend a long time waiting for the food to be cooled before eating, so that the user has short dining time and is scalded.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

Therefore, the utility model provides a food processor.

The utility model provides a pair of cooking machine, include: a cup body; the refrigeration device comprises an evaporator and a compressor connected with the evaporator, and the evaporator is configured to refrigerate the cup body.

The utility model provides a food processer, including cup and refrigerating plant, the food processer can refrigerate the cup through setting up refrigerating plant promptly for food temperature in the cup reduces, thereby after handling good food, can cool down the food in the cup fast through refrigerating plant, and then realizes the effect of instant drinking, and it is long when having reduced user's waiting. The refrigerating device comprises a heat exchange flow path formed by a compressor and an evaporator, and the evaporator refrigerates the cup body, so that the cooling speed of food in the cup body is increased.

It will be appreciated that the compressor is connected in series with the evaporator to form a heat exchange flow path.

Furthermore, the refrigerating device also comprises a condenser and other refrigerating components, wherein the condenser, the evaporator and the compressor are connected in series. Also refrigerate the cup through compressor refrigerating system, and compressor refrigerating system's refrigeration efficiency is fast, refrigeration efficiency is high, consequently through this refrigerating plant, can be after handling food, cool down to the food in the cup fast and high-efficiently. It can be understood that the refrigerating device can refrigerate the inside of the cup body, namely, the ambient temperature in the cup body can be reduced through the refrigerating device, so that the temperature of food in the cup body is reduced, and the food is enabled to reach the temperature suitable for eating.

Specifically, after food in the cup ground and the heat treatment through cooking machine stirring, food is cooked, start refrigerating plant, lower the temperature to cooking machine's cup through the evaporimeter, make the food temperature in the cup fall to the temperature that can eat relatively fast, the user pours the back with the food in the cup, can directly eat, also namely, the user need not spend longer time just can eat after cooling food, user's time has been saved, convenience is provided for user's life, and simultaneously, make the user can not scalded by overheated food.

Specifically, when food in the cup is fruit juice or vegetable juice, after the cooking machine grinds solid-state fruit or vegetable into juice, refrigerating plant work is cooled off cup internal environment for food temperature in the cup descends, has guaranteed the taste and the nutrition of food, simultaneously, keeps the freshness of food, prolongs the storage time of food. That is, through refrigerating plant's setting, can also make the food of ice sensation, and then satisfy different users' taste.

According to the utility model provides an above-mentioned cooking machine can also have following additional technical characterstic:

in the above technical solution, further, the evaporator is disposed outside the cup body.

In this technical scheme, the evaporimeter setting is in the outside of cooking machine cup, also namely cools off the outer wall of cup earlier through the evaporimeter, then the heat conduction through the cup is with cold volume transmission to the food in the cup, like this, not only can play refrigerated effect to the food in the cup through the evaporimeter, can also reduce refrigerating plant's setting and to the taking of cup inner space, guaranteed cooking machine's volume.

It can be understood that the evaporator is disposed outside the cup body, and includes that the evaporator is directly connected to the outer wall surface of the cup body, or the evaporator is connected to the outer wall surface of the cup body through other structures, or a certain gap is formed between the evaporator and the outer wall surface of the cup body.

In the above technical solution, further, the evaporator at least partially extends into the cup body.

In this technical scheme, inside at least some stretches into the cup of cooking machine of evaporimeter, like this, the evaporimeter can be directly and food contact, has improved the refrigeration efficiency of evaporimeter for food can rapid cooling, saves long when the user waits.

In any of the above technical solutions, further, the evaporator is disposed outside the cup body, and the evaporator is spirally disposed along an outer wall surface of the cup body.

In this technical scheme, under the condition that the evaporimeter set up the cup outside at cooking machine, the evaporimeter is the heliciform ground and is set up along the cup outer wall surface. Like this, when refrigerating plant cooled off the cup, guaranteed that the even outer wall to the cup of evaporimeter cools off, increased the cooling area of cup outer wall, can make the rapid reduction of the ambient temperature in the cup for refrigeration speed, save user's wait for a long time. Meanwhile, the evaporator is arranged in a spiral mode, the refrigerating area of the evaporator can be increased, and refrigerating efficiency is further accelerated.

In any of the above technical solutions, further, the evaporator is detachably connected to the cup body.

In this technical scheme, the evaporimeter can be dismantled with the cup and be connected, like this, can dismantle the evaporimeter when needs wash the cup to the washing of cup is convenient for.

Generally, the heat exchange tube of the evaporator is a copper tube, and the evaporator is disassembled after the cup body is cleaned, so that the situation that the copper tube is corroded and rusted after being soaked in liquid can be avoided.

In any one of above-mentioned technical scheme, further, the cooking machine still includes: the cup body is arranged in the hollow cavity, and the evaporator is arranged in the shell; wherein, the shell is detachably connected with the cup body.

In this technical scheme, the cooking machine still includes the casing, the evaporimeter sets up on the casing, play the effect of bearing to the evaporimeter through the casing, the casing surrounds into the cavity, the cup sets up in the cavity, and like this, the evaporimeter can be to cavity body refrigeration, and then to setting up the cup refrigeration in the cavity, wherein, the casing can be dismantled with the cup and be connected, just also be connected through the dismantlement of casing with the cup, realize being connected with dismantling of cup of evaporimeter, and then when avoiding directly dismantling the evaporimeter, cause the condition that the evaporimeter damaged. Simultaneously, the setting of casing can also play the effect of protection to the evaporimeter, reduces the damage of evaporimeter, has improved cooking machine's life, also makes cooking machine have pleasing to the eye effect.

In any of the above technical solutions, further, the housing further includes: a first housing including a hollow cavity; the first shell is arranged in the second shell and connected with the second shell, the first shell and the second shell surround to form an interlayer, and the evaporator is arranged in the interlayer.

In this technical scheme, the casing still includes first casing and second casing, and wherein, first casing forms the cavity, and the second casing is connected with first casing to, first casing sets up in the second casing, forms the intermediate layer between first casing and the second casing, and the evaporimeter sets up in the intermediate layer between first casing and the second casing. The evaporator is accommodated in the interlayer, so that the evaporator can be prevented from being exposed outside, and the overall attractiveness of the food processor is improved.

Further, first casing is made by the higher material of coefficient of heat conductivity, for example aluminium, stainless steel, copper aluminium alloy etc. to promote first casing to the heat conduction efficiency of cup, the second casing is made by the lower material of coefficient of heat conductivity, for example pottery, rubber etc. and then avoids the cold volume that the evaporimeter produced to the transmission in the environment, has further improved the refrigeration efficiency to the cup.

In any of the above technical solutions, further, the evaporator is attached to the first housing.

In this technical scheme, the evaporimeter sets up the outer wall at first casing to the laminating also makes evaporimeter and first casing direct contact on the outer wall of first casing, can promote the heat conduction efficiency of evaporimeter to first casing like this, accelerates the transfer rate of temperature, has further accelerated the cooling rate of cup internal environment, has accelerated refrigerating plant's work efficiency.

In any one of above-mentioned technical scheme, further, the cooking machine still includes: and the diversion hole is arranged at least one of the second shell and the first shell, is positioned at the bottom of the evaporator and is communicated with the interlayer.

In this technical scheme, the cooking machine still includes the water conservancy diversion hole, and wherein, the water conservancy diversion hole sets up on one of them of second casing and first casing at least to, the water conservancy diversion hole sets up the bottom at the evaporimeter with the intermediate layer intercommunication. So design, at the refrigerating plant during operation, the comdenstion water that produces when the evaporimeter refrigerates can be through setting up the water conservancy diversion hole outflow casing in the evaporimeter bottom for the intermediate layer bottom can not corroded because of the long-time soaking of comdenstion water, has increased the life of casing.

In any one of above-mentioned technical scheme, further, the cooking machine still includes: the phase change layer is arranged in the interlayer or on the outer wall surface of the shell.

In this technical scheme, the cooking machine still includes the layer of changing phase, and wherein, the layer of changing phase sets up in the intermediate layer between first casing and second casing, perhaps changes phase and sets up the wall outside the casing. Through the setting of phase transition layer, can store the cold volume that the evaporimeter produced in advance, when needs refrigerate the cup, establish the casing cover on the cup to the cup refrigeration, further accelerated refrigeration efficiency, it is long when reducing the user and waiting for, simultaneously, the phase transition layer still has the heat preservation effect, and then can avoid the cold volume that the evaporimeter produced to transmit the external environment in, has promoted the refrigeration efficiency of evaporimeter to food in the cup. Specifically, a phase change material is arranged in the phase change layer.

In any one of above-mentioned technical scheme, further, the cooking machine still includes: and the heat insulation layer is arranged on the outer wall surface of the shell.

In this technical scheme, cooking machine still includes the heat preservation, and wherein, the heat preservation sets up the outer wall at cooking machine casing body. On one hand, after the refrigerating device refrigerates the environment in the cup body, the environment temperature in the cup body can be kept through the heat insulation layer on the outer wall surface of the shell, so that the food in the cup body can be kept at the refrigerated temperature for a long time; on the other hand, through the setting of heat preservation, can also avoid the cold volume that the evaporimeter produced to the transmission of external environment, and then promoted refrigerating plant's refrigeration efficiency.

Specifically, the heat insulation layer is made of a material having a heat insulation effect, such as a heat insulation foam board or the like.

Specifically, when the user will drink the hot drink, the food that the cooking machine will grind heats to boiling, and food boils the back thoroughly, and refrigerating plant cools off food for food in the cup reaches the temperature that the user can eat, and refrigerating plant stops work the back, through the heat preservation of casing, can keep warm to food in the cup, makes the user in time when edible, also can keep food temperature can not become cold.

Specifically, when the user wants to drink cold drink, refrigerating plant can cool off the food in the cup, and when reaching the temperature that the user required, refrigerating plant stop work back can avoid external environment temperature to produce the influence to the temperature of the food in the cup through the heat preservation for the food in the cup keeps the temperature of cool and refreshing, simultaneously, can also increase the fresh-keeping time to the food in the cup.

In any of the above technical solutions, further, the refrigeration apparatus further includes: the condenser, the compressor, the condenser and the evaporator are connected in series to form a heat exchange flow path; the pipeline, the condenser, the compressor and the evaporator are communicated through the pipeline.

In the technical scheme, the refrigerating device further comprises a condenser and a pipeline, wherein the compressor, the condenser and the evaporator are connected in series and form a heat exchange flow path together, and therefore heat exchange of the refrigerating device is achieved.

Specifically, during the operation of the refrigeration device, the refrigerant is compressed into a high-temperature high-pressure gaseous refrigerant through the compressor, then flows into the condenser, is condensed and released in the condenser, becomes a liquid refrigerant, then flows into the evaporator, is evaporated into the gaseous refrigerant in the evaporator, absorbs a large amount of heat, and then realizes the refrigeration of the evaporator.

In any of the above technical solutions, further, the refrigeration apparatus further includes: a heat dissipation portion configured to dissipate heat from the condenser; and the throttle valve is arranged on the pipeline and is positioned between the compressor and the evaporator.

In this technical scheme, refrigerating plant still includes radiating part and choke valve, through setting up the radiating part, realizes carrying out the heat dissipation to the condenser and handles, avoids the high temperature of condenser and influences the heat transfer of heat transfer flow path. Through setting up the choke valve, improved refrigerant gasification degree, and then guaranteed the heat exchange efficiency of heat transfer flow path, also promoted the refrigeration efficiency of evaporimeter.

In any one of above-mentioned technical scheme, further, the cooking machine still includes: the cup body comprises a first port and a second port, and the cover body is covered on the first port; the pedestal, the pedestal is connected with the second port, and the pedestal includes the installation cavity, and compressor, condenser are located the installation cavity.

In this technical scheme, cooking machine still includes lid and pedestal, and cooking machine's cup includes first port and second port. Wherein, the lid is in the first port department of cup for cooking machine during operation can not have food departure cup, and it is extravagant to reduce the food in the cup, reduces the pollution to cooking machine surrounding environment simultaneously. The base includes the installation cavity, sets up refrigerating plant's compressor, condenser and evaporimeter in the installation cavity, reduces the holistic space that occupies of refrigerating plant, can also promote holistic aesthetic property.

Specifically, the lid sets up sealing device, and the lid passes through sealing device and first port sealing connection, and then at the cooking machine during operation, can avoid food to spill over by the junction of lid and cup, can also be when taking off the cup by the pedestal, play dirt-proof effect to the food in the cup.

Further, the cup body is detachably connected with the base, so that the cup body is convenient to clean and transport.

In any of the above technical solutions, further, based on that at least a portion of the evaporator extends into the cup body, the evaporator is disposed on the cover body and extends into the cup body from the cover body.

In this technical scheme, when at least a part of evaporimeter stretched into in the cup, can set up the evaporimeter on the lid of cooking machine, and then make in the evaporimeter stretched into the cup from the lid, to the food refrigeration in the cup, promoted the refrigeration efficiency of evaporimeter to food in the cup, simultaneously, set up the evaporimeter on the lid, can also make the evaporimeter dismantle along with the lid and get off, and then the washing of the cup of being convenient for.

Specifically, a part of evaporimeter is the heliciform setting on the outer wall surface of cup, and another wind sets up on the lid of cooking machine, and when the lid was covered on the casing, the evaporimeter on the lid will stretch into in the cup, and when needs refrigerating plant refrigerated to the cup, the evaporimeter can cool off the cup internal environment through the surface of cup promptly, also can directly cool off the inside air of cup through the evaporimeter for cooling rate.

In any one of above-mentioned technical scheme, further, the cooking machine still includes: the cutter is arranged on the base body, and at least one part of the cutter extends into the cup body from the second port.

In this technical scheme, the cooking machine still includes the cutter, and the cutter setting is on the pedestal, and at least partly cutter stretches into in the cup through the second port to can handle the food in the cup through the cutter.

Specifically, set up the motor on the pedestal of cooking machine, the motor drive cutter rotates, and when food in the cup need grind, the motor drive cutter rotates, and quick food grinds in the cup for food processing becomes powdered.

In any of the above technical solutions, further, the cup includes a heat-conducting cup.

In the technical scheme, the cup body is set to be the heat-conducting cup body with good heat-conducting property, so that the heat-conducting efficiency between the evaporator and the cup body is improved, the heat-conducting efficiency between the cup body and food in the cup body is also improved, and the refrigerating efficiency of the refrigerating device is further improved.

Specifically, at least a portion of the thermally conductive cup is a metal, such as stainless steel, aluminum, copper, or the like.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows a schematic structural diagram of a food processor according to an embodiment of the present invention.

Wherein, the corresponding relation between the reference numbers and the part names in fig. 1 is:

100 food processor, 102 cup body, 104 cover body, 106 seat body, 108 cutter, 200 refrigerating device, 202 evaporator, 204 condenser, 206 pipeline, 208 compressor, 210 heat dissipation part and 212 throttle valve.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A food processor 100 according to some embodiments of the present invention is described below with reference to fig. 1.

The first embodiment is as follows:

as shown in fig. 1, according to an embodiment of the present invention, the present invention provides a food processor 100, including: a cup 102 and a refrigeration unit 200.

Wherein refrigeration unit 200 includes an evaporator 202 and a compressor 208 coupled to evaporator 202, evaporator 202 is configured to refrigerate bowl 102.

The food processer 100 that this embodiment provided, including cup 102 and refrigerating plant 200, food processer 100 is through setting up refrigerating plant 200 promptly, can refrigerate cup 102 for the food temperature in the cup 102 reduces, thereby after handling good food, can be fast with the food cooling in the cup 102 through refrigerating plant 200, and then realize the effect of instant drinking, it is long when having reduced user's waiting. The refrigerating device 200 includes a heat exchange flow path formed by a compressor 208 and an evaporator 202, and cools the cup 102 through the evaporator 202, thereby increasing the cooling rate of food in the cup 102.

It is understood that the compressor 208 is connected in series with the evaporator 202 to form a heat exchange flow path, and further, the refrigeration apparatus 200 further includes a refrigeration component such as a condenser 204, and the condenser 204, the evaporator 202 and the compressor 208 are connected in series. That is, the cup 102 is refrigerated by the refrigeration system of the compressor 208, and the refrigeration system of the compressor 208 has high refrigeration efficiency, so that the refrigeration device 200 can quickly and efficiently cool the food in the cup 102 after the food is processed. It is understood that the refrigeration device 200 can refrigerate the interior of the bowl 102, i.e., the ambient temperature within the bowl 102 can be reduced by the refrigeration device 200 to lower the temperature of the food within the bowl 102 to a temperature suitable for consumption.

Specifically, the inside of the cup body 102 may be ground liquid food, such as soybean milk, peanut milk, rice paste, fruit juice, vegetable juice, and the like.

Specifically, as shown in fig. 1, the arrows indicate the flow direction of the refrigerant in the refrigeration apparatus 200.

Specifically, after food in the cup 102 is ground and heat treatment through cooking machine 100 stirring, food is cooked, start refrigerating plant 200, cup 102 to cooking machine 100 is cooled down through evaporimeter 202, make the food temperature in the cup 102 fall the temperature that can eat relatively fast, the user pours the back with the food in the cup 102, can directly eat, that is, the user need not spend longer time just can eat after cooling food, user's time has been saved, the life of giving the user provides convenience, and simultaneously, make the user can not scalded by overheated food.

Specifically, when the food in the cup body 102 is fruit juice or vegetable juice, the food processor 100 grinds the solid fruit or vegetable into juice, and the refrigerating device 200 operates to cool the environment in the cup body 102, so that the temperature of the food in the cup body 102 is reduced, the taste and nutrition of the food are ensured, meanwhile, the freshness of the food is kept, and the storage time of the food is prolonged. That is, through the arrangement of the refrigerating apparatus 200, it is also possible to make foods having an ice feeling, thereby satisfying tastes of different users.

Example two:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of the above embodiment, further: the evaporator 202 is provided outside the cup 102.

In this embodiment, the evaporator 202 is disposed outside the cup 102 of the food processor 100, that is, the evaporator 202 cools the outer wall of the cup 102 first, and then the heat conduction of the cup 102 transfers the cold energy to the food in the cup 102, so that not only the food in the cup 102 can be refrigerated through the evaporator 202, but also the space in the cup 102 is occupied by the refrigeration device 200, and the volume of the food processor 100 is ensured.

Specifically, the evaporator 202 is disposed outside the cup 102, and includes that the evaporator 202 is directly connected to the outer wall surface of the cup 102, or the evaporator 202 is connected to the outer wall surface of the cup 102 through other structures, but a certain gap may be formed between the evaporator 202 and the outer wall surface of the cup 102.

Example three:

according to an embodiment of the present invention, on the basis of the first embodiment, further: evaporator 202 extends at least partially into cup 102.

In this embodiment, at least a portion of the evaporator 202 extends into the cup 102 of the food processor 100, so that the evaporator 202 can directly contact with food, the cooling efficiency of the evaporator 202 is improved, the food can be cooled rapidly, and the waiting time of a user is saved.

Example four:

according to an embodiment of the present invention, on the basis of the third embodiment, further: because the evaporator 202 is disposed outside the cup 102, the evaporator 202 is disposed spirally along the outer wall of the cup 102.

In this embodiment, when the evaporator 202 is disposed outside the cup 102 of the food processor 100, the evaporator 202 is spirally disposed along the outer wall surface of the cup 102. Thus, when the cooling device 200 cools the cup 102, the evaporator 202 is ensured to uniformly cool the outer wall surface of the cup 102, the cooling area of the outer wall of the cup 102 is increased, the ambient temperature in the cup 102 can be rapidly reduced, the cooling speed is increased, and the waiting time of a user is saved. Meanwhile, the evaporator 202 is spirally arranged, so that the refrigerating area of the evaporator 202 can be increased, and the refrigerating efficiency is further accelerated.

Example five:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of any of the above embodiments, further: the evaporator 202 is removably attached to the cup 102.

In this embodiment, the evaporator 202 is removably attached to the bowl 102 such that the evaporator 202 can be removed when it is desired to clean the bowl 102 to facilitate cleaning of the bowl 102.

Generally, the heat exchange tube of the evaporator 202 is a copper tube, and the evaporator 202 is disassembled by cleaning the cup body 102, so that the copper tube can be prevented from being corroded and generating copper rust after being soaked in liquid.

Example six:

according to an embodiment of the present invention, on the basis of the fifth embodiment, further: food processor 100 still includes: a housing including a hollow cavity, the cup 102 being disposed within the hollow cavity, the evaporator 202 being disposed within the housing; wherein the shell is removably connected to the cup 102.

In this embodiment, food processer 100 still includes the casing, evaporimeter 202 sets up on the casing, play the effect of bearing to evaporimeter 202 through the casing, the casing encloses into the cavity, cup 102 sets up in the cavity, and like this, evaporimeter 202 can be to the cavity body refrigeration, and then refrigerate to cup 102 that sets up in the cavity, wherein, the casing can be dismantled with cup 102 and be connected, just that is to be connected through the dismantlement of casing with cup 102, realize being connected with dismantling of evaporimeter 202 and cup 102, and then when avoiding directly dismantling evaporimeter 202, cause the condition that evaporimeter 202 damaged. Simultaneously, the setting of casing can also play the effect of protection to evaporimeter 202, reduces evaporimeter 202's damage, has improved cooking machine 100's life, also makes cooking machine 100 have pleasing to the eye effect. Specifically, the housing is made of a material with a good heat conduction effect, such as metal, plastic, and the like.

Example seven:

according to an embodiment of the present invention, on the basis of the above embodiment, further: the casing still includes: a first housing and a second housing. Specifically, the first housing includes a hollow cavity, the first housing is disposed in the second housing and connected to the second housing, the first housing and the second housing form an interlayer, and the evaporator 202 is disposed in the interlayer.

In this embodiment, the housing further includes a first housing and a second housing, wherein the first housing forms a hollow cavity, the second housing is connected with the first housing, the first housing is disposed in the second housing, an interlayer is formed between the first housing and the second housing, and the evaporator 202 is disposed in the interlayer between the first housing and the second housing. The evaporator 202 is accommodated in the interlayer, so that the evaporator 202 can be prevented from being exposed, and the overall aesthetic property of the food processor 100 is improved.

Further, the first shell is made of a material with a high thermal conductivity coefficient, such as aluminum, stainless steel, etc., so as to improve the thermal conductivity efficiency of the first shell to the cup 102, and the second shell is made of a material with a low thermal conductivity coefficient, such as plastic, etc., so as to prevent the cold generated by the evaporator 202 from being transferred to the environment, thereby further improving the refrigeration efficiency of the cup 102.

Example eight:

according to an embodiment of the present invention, on the basis of the seventh embodiment, further: the evaporator 202 is attached to the first housing.

In this embodiment, the evaporator 202 is disposed on the outer wall surface of the first shell and attached to the outer wall surface of the first shell, that is, the evaporator 202 is directly contacted with the first shell, so that the heat conduction efficiency of the evaporator 202 to the first shell can be improved, the temperature transmission speed is increased, the cooling speed of the environment inside the cup 102 is further increased, and the working efficiency of the refrigeration apparatus 200 is increased.

Further, the food processor 100 further includes: and a guide hole provided in at least one of the second casing and the first casing, the guide hole being located at the bottom of the evaporator 202 and communicating with the interlayer.

In this embodiment, the food processor 100 further includes a flow guide hole, wherein the flow guide hole is provided at least on one of the second housing and the first housing, and the flow guide hole is provided at the bottom of the evaporator 202 communicating with the interlayer. So design, during refrigerating plant 200 during operation, the comdenstion water that produces when evaporimeter 202 refrigerates can be through setting up the water conservancy diversion hole outflow casing in evaporimeter 202 bottom for the intermediate layer bottom can not corroded because of the long-time soaking of comdenstion water, has increased the life of casing.

Example nine:

according to an embodiment of the present invention, on the basis of the seventh embodiment or the eighth embodiment, further: food processor 100 still includes: the phase change layer is arranged in the interlayer or on the outer wall surface of the shell.

In this embodiment, the food processor 100 further includes a phase change layer, wherein the phase change layer is disposed in the interlayer between the first casing and the second casing, or the phase change layer is disposed on the outer wall surface of the casing. Through the setting of phase transition layer, can store the cold volume that evaporimeter 202 produced in advance, when needs refrigerate cup 102, establish the casing cover on cup 102 to cup 102 refrigeration, further accelerated refrigeration efficiency, it is long when reducing the user and waiting for, simultaneously, the phase transition layer still has the heat preservation effect, and then can avoid the cold volume that evaporimeter 202 produced to transmit external environment in, has promoted the refrigeration efficiency of evaporimeter 202 to food in the cup 102. Specifically, a phase change material is arranged in the phase change layer.

Further, the food processor 100 further includes: the heat preservation layer is arranged on the outer wall surface of the shell.

In this embodiment, the food processor 100 further includes an insulating layer, wherein the insulating layer is disposed on the outer wall surface of the housing of the food processor 100. On one hand, after the refrigerating device 200 refrigerates the environment in the cup body 102, the temperature of the environment in the cup body 102 can be kept through the heat insulation layer on the outer wall surface of the shell, so that the temperature of the food in the cup body 102 can be kept at the refrigerated temperature for a long time; on the other hand, through the setting of heat preservation, can also avoid the cold volume that evaporimeter 202 produced to the transmission of external environment, and then promoted refrigerating plant 200's refrigeration efficiency.

Specifically, the heat insulation layer is made of a material having a heat insulation effect, such as a heat insulation foam board or the like.

Specifically, when the user wants to drink hot drinks, the food processor 100 heats the ground food to boiling, after the food is boiled, the refrigerating device 200 cools the food, so that the food in the cup body 102 reaches the edible temperature of the user, after the refrigerating device 200 stops working, the food in the cup body 102 can be kept warm through the heat preservation layer of the shell, and when the user cannot eat the food in time, the temperature of the food cannot be kept cool.

Specifically, when the user wants to drink cold drink, the refrigeration device 200 can cool the food in the cup body 102, and when the temperature required by the user is reached, the refrigeration device 200 stops working, and then the external environment temperature can be prevented from influencing the temperature of the food in the cup body 102 through the heat insulation layer, so that the food in the cup body 102 keeps cool and refreshing temperature, and meanwhile, the fresh-keeping time of the food in the cup body 102 can be prolonged.

Example ten:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of the above embodiment, further: the refrigeration apparatus 200 further includes: a condenser 204 and a line 206. Specifically, the compressor 208, the condenser 204, and the evaporator 202 are connected in series to constitute a heat exchange flow path, and the condenser 204, the compressor 208, and the evaporator 202 are communicated through a pipe 206.

In this embodiment, the refrigeration apparatus 200 further comprises a condenser 204 and a pipeline 206, and the compressor 208, the condenser 204 and the evaporator 202 are connected in series and together form a heat exchange flow path, thereby realizing heat exchange of the refrigeration apparatus 200.

Specifically, when the refrigeration device 200 operates, the refrigerant is compressed into a high-temperature high-pressure gaseous refrigerant by the compressor 208, and then flows into the condenser 204, is condensed and releases heat in the condenser 204 to become a liquid refrigerant, and then flows into the evaporator 202, and is evaporated into a gaseous refrigerant in the evaporator 202, so that a large amount of heat is absorbed, and further refrigeration of the evaporator 202 is realized.

Further, the refrigeration apparatus 200 further includes: a heat radiating section 210 and a throttle valve 212, the heat radiating section 210 being for radiating heat to the condenser 204; a throttle valve 212 is disposed in line 206 between compressor 208 and evaporator 202.

In this embodiment, the refrigeration apparatus 200 further includes a heat dissipation portion 210 and a throttle valve 212, and the heat dissipation portion 210 is disposed to achieve heat dissipation of the condenser 204, so as to avoid the heat exchange of the heat exchange flow path being affected by an excessively high temperature of the condenser 204. Through setting up choke valve 212, improved refrigerant gasification degree, and then guaranteed the heat exchange efficiency of heat transfer flow path, also promoted the refrigeration efficiency of evaporimeter 202.

Example eleven:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of any of the above embodiments, further: food processor 100 still includes: a cover 104 and a base 106.

Specifically, the cup 102 includes a first port and a second port, and the cover 104 covers the first port; the base 106 is connected to the second port, and the base 106 includes a mounting cavity in which the compressor 208 and the condenser 204 are disposed.

In this embodiment, the food processor 100 further includes a cover 104 and a seat 106, and the cup 102 of the food processor 100 includes a first port and a second port. Wherein, the cover body 104 covers the first port of the cup body 102, so that no food flies out of the cup body 102 when the food processor 100 works, thereby reducing the waste of food in the cup body 102 and simultaneously reducing the pollution to the surrounding environment of the food processor 100. The base includes the installation cavity, sets up compressor 208, condenser 204 and evaporimeter 202 of refrigerating plant 200 in the installation cavity, reduces the holistic space that occupies of refrigerating plant 200, can also promote holistic aesthetic property.

Furthermore, a sealing device is arranged on the cover body 104, and the cover body 104 is connected with the first port in a sealing manner through the sealing device, so that when the food processor 100 works, food can be prevented from overflowing from the joint of the cover body 104 and the cup body 102, and when the cup body 102 is taken down from the seat body 106, the food in the cup body 102 can be prevented from dust.

Further, the cup 102 is removably attached to the base, which facilitates cleaning and transportation of the cup 102.

In another embodiment, the refrigeration device 200 includes a tank disposed on a side of the housing 106, and the compressor 208 and the condenser 204 are disposed within the tank.

Example twelve:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of the third embodiment and the eleventh embodiment, further: with at least a portion of the evaporator 202 extending into the cup 102, the evaporator 202 is positioned on the lid 104 and extends from the lid 104 into the cup 102.

In this embodiment, when at least a portion of the evaporator 202 extends into the cup body 102, the evaporator 202 can be disposed on the cover 104 of the food processor 100, so that the evaporator 202 extends into the cup body 102 from the cover 104 to refrigerate the food in the cup body 102, thereby improving the refrigeration efficiency of the evaporator 202 on the food in the cup body 102, and meanwhile, the evaporator 202 is disposed on the cover 104, so that the evaporator 202 can be detached along with the cover 104, thereby facilitating the cleaning of the cup body 102.

Specifically, a part of the evaporator 202 is spirally disposed on the outer wall surface of the cup 102, and another part of the air is disposed on the cover 104 of the food processor 100, when the cover 104 is covered on the housing, the evaporator 202 on the cover 104 will extend into the cup 102, and when the refrigeration device 200 is required to refrigerate the cup 102, the evaporator 202 can cool the internal environment of the cup 102 through the outer surface of the cup 102, and can also directly cool the air inside the cup 102 through the evaporator 202, thereby increasing the cooling speed.

Example thirteen:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of the above embodiment, further: food processor 100 still includes: a cutter 108, the cutter 108 being disposed on the seat 106, at least a portion of the cutter 108 extending into the cup 102 from the second port.

In this embodiment, the food processor 100 further includes a cutter 108, the cutter 108 is disposed on the seat 106, and at least a portion of the cutter 108 extends into the cup 102 through the second port, so that the food in the cup 102 can be processed by the cutter 108.

Specifically, set up the motor on cooking machine 100's pedestal 106, motor drive cutter 108 rotates, and when the food in cup 102 needed to grind, motor drive cutter 108 rotated, and quick grinding to the food in the cup 102 for food is processed into powdered.

Example fourteen:

as shown in fig. 1, according to an embodiment of the present invention, on the basis of the above embodiment, further: cup 102 comprises a thermally conductive cup.

In this embodiment, the cup 102 is a heat-conducting cup with good heat conductivity, which improves the heat-conducting efficiency between the evaporator 202 and the cup 102, and also improves the heat-conducting efficiency between the cup 102 and the food in the cup 102, thereby improving the refrigeration efficiency of the refrigeration device 200.

Specifically, at least a portion of the thermally conductive cup is a metal, such as stainless steel, aluminum, copper, or the like.

The specific embodiment is as follows:

according to a specific embodiment of the present invention, the utility model provides a cooking machine 100, cooking machine 100 includes cup 102 and compressor refrigerating system, and compressor refrigerating system includes the heat transfer flow path that comprises compressor 208, condenser 204 and evaporimeter 202. Evaporator 202, as a cooling component, is disposed on the outside of cup 102 to cool the food in cup 102, thereby rapidly reducing the temperature of the food. Because the cup body 102 of the food processor 100 is a container for making food and also a container which needs to be refrigerated, the evaporator 202 is installed outside the cup body 102 of the food processor 100, which not only saves the space for separately installing the evaporator 202, but also improves the working efficiency of the evaporator 202 and accelerates the refrigeration speed.

Wherein, compressor refrigerating system possesses higher refrigerating capacity and efficiency than other refrigeration structure, consequently cools down cup 102 through compressor refrigerating system, can make cup 102 cooling rate faster, has saved user's time.

Further, the food processor 100 provided in this embodiment can be applied to food processor 100 products such as a soymilk machine and a wall breaking machine, and is particularly suitable for food products in which the cup body 102 of the food processor 100 is made of metal or a part of metal.

In particular, soymilk is a very favorite beverage for the nation, and generally, the user will take soymilk as a part of breakfast, while the user in the morning is often more time-intensive to go out. The existing food processor product can finish the processes of stirring and heating and boiling the soybean milk, the processed soybean milk is boiled and very hot, and can be drunk only by cooling for a long time, so that the user is more nervous in the morning. When the processor 100 is used to produce beverages such as fruit and vegetable juice, the juice should be stored at a relatively low temperature to ensure taste and nutrition. Therefore, the food processor 100 provided by the embodiment can rapidly cool the cup body 102, and provides convenience for eating drinks such as hot soybean milk or fruit juice with ice feeling.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly and include, for example, fixed connections, detachable connections, or integral connections; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. A food processor, comprising:

a cup body;

a refrigeration device including an evaporator and a compressor coupled to the evaporator, the evaporator configured to refrigerate the cup.

2. The food processor of claim 1,

the evaporator is arranged on the outer side of the cup body, or at least part of the evaporator extends into the cup body.

3. The food processor of claim 2,

based on the evaporimeter set up in the outside of cup, the evaporimeter is followed the outer wall of cup personally submits the spiral setting.

4. The food processor of claim 3, further comprising:

the cup body is arranged in the hollow cavity, and the evaporator is arranged in the shell;

wherein, the shell and the cup body are detachably connected.

5. The food processor of claim 4, wherein the housing further comprises:

a first housing comprising the hollow cavity;

the first shell is arranged in the second shell and connected with the second shell, the first shell and the second shell surround to form an interlayer, and the evaporator is arranged in the interlayer.

6. The food processor of claim 5,

the evaporator is attached to the first shell.

7. The food processor of claim 5, further comprising:

and the diversion hole is arranged in at least one of the second shell and the first shell, is positioned at the bottom of the evaporator and is communicated with the interlayer.

8. The food processor of claim 5, further comprising:

the phase change layer is arranged in the interlayer or on the outer wall surface of the shell.

9. The food processor of any one of claims 4 to 8, further comprising:

and the heat insulation layer is arranged on the outer wall surface of the shell.

10. The food processor of any one of claims 1 to 8, wherein the refrigeration device further comprises:

a condenser, the compressor, the condenser and the evaporator being connected in series to form a heat exchange flow path;

and the condenser, the compressor and the evaporator are communicated through the pipeline.

11. The food processor of claim 10, wherein the refrigeration device further comprises:

a heat dissipating portion configured to dissipate heat from the condenser;

and the throttling valve is arranged on the pipeline and is positioned between the compressor and the evaporator.

12. The food processor of claim 10, further comprising:

the cup body comprises a first port and a second port, and the cover body is covered on the first port;

the pedestal, the pedestal with the second port is connected, the pedestal includes the installation cavity, the compressor, the condenser is located in the installation cavity.

13. The food processor of claim 12,

based on at least a part of evaporimeter stretches into the cup, the evaporimeter is located on the lid and certainly the lid stretches into the cup.

14. The food processor of claim 12, further comprising:

the cutter is arranged on the seat body, and at least one part of the cutter extends into the cup body from the second port.

15. The food processor of any one of claims 1 to 8,

the cup body comprises a thermally conductive cup body.

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