CN114958529B - Food processor - Google Patents

Abstract

The invention provides a food processor for preparing beverage, wherein the food processor comprises: a body including a receiving cavity; a tube assembly at least partially located in the receiving chamber, the tube assembly for delivering a liquid for brewing the beverage; the gas detection device is positioned in the accommodating cavity and is used for detecting the concentration of gas formed by volatilization of the liquid in the accommodating cavity. Through setting up gas detection device in food processor, can detect the inflammable gas concentration in the holding chamber of fuselage through gas detection device, avoid because the pipeline subassembly leaks the problem that leads to holding intracavity inflammable gas concentration to rise, and then avoid the food processor because the problem of inflammable gas concentration too high and the burning or the explosion, improve the security and the reliability of food processor.

Description

Food processor

Technical Field

The invention belongs to the technical field of household appliances, and particularly relates to a food processor.

Background

The wine mixing machine in the prior art is used for preparing the base wine adopted by cocktail, so that the base wine has higher alcohol concentration, if the base wine leakage occurs in the device for storing or transmitting the base wine in the wine mixing machine, the alcohol concentration in the wine mixing machine can be increased, and under the condition of alcohol leakage, fire risks can easily occur if naked fire is encountered.

Disclosure of Invention

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

To this end, a first object of the present invention is to propose a food processor.

To achieve the above object, according to a first aspect of the present invention, there is provided a food processor for brewing a beverage, comprising: a body including a receiving cavity; a tube assembly at least partially located in the receiving chamber, the tube assembly for delivering a liquid for brewing the beverage; the gas detection device is positioned in the accommodating cavity and is used for detecting the concentration of gas formed by volatilization of liquid in the accommodating cavity.

The food processor that this application provided is used for mixing wine, and food processor includes the fuselage, is equipped with in the fuselage and holds the chamber. In the process of adjusting the food processor to the beverage, a plurality of liquids are required to be transmitted and mixed to obtain the beverage, and a pipeline assembly is further arranged in the accommodating cavity for realizing the function of transmitting the liquids. The pipeline assembly can be communicated with the container for storing liquid and the container for preparing the beverage, and the liquid in the container for storing liquid can be transmitted to the beverage container through the pipeline assembly, so that the pipeline assembly can realize the function of transmitting the liquid, and further the food processor can normally complete the beverage preparing process.

It will be appreciated that in order to enable the line assembly to be connected to a plurality of containers, a plurality of connection points need to be provided on the line assembly, and if the line assembly at the connection points is subject to problems such as loosening or damage, there is a possibility that liquid seeps out of the line assembly, and there is a risk of liquid leakage from the line assembly. The pipeline assembly is arranged in the accommodating cavity of the machine body, and understandably, the accommodating cavity is a space close to a seal, which is poor in air circulation, if the pipeline assembly has leakage problem, and leaked liquid is a volatile inflammable substance, the liquid seeped from the pipeline assembly can volatilize in the accommodating cavity, so that the concentration of gas formed by volatilization of the liquid in the accommodating cavity is increased. And the other energized parts of the food processor are also arranged in the accommodating cavity, so that the problem of combustion or explosion easily occurs in the environment of high-concentration flammable gas, and the risk is high.

Further, in order to avoid the occurrence of the combustion problem caused by the leakage of the liquid, a gas detecting device for detecting the concentration of the inflammable gas in the accommodating chamber is also provided in the food processor. Specifically, the gas detection device is located in the accommodating cavity and is used for detecting the concentration of flammable gas in the accommodating cavity. The gas detection device can detect the concentration of flammable gas in the accommodating cavity from time to time, so that the concentration of the flammable gas in the accommodating cavity can be reduced by taking certain measures when the concentration of the flammable gas exceeds the standard, the risk of combustion or explosion of the food processor is reduced, and the safety and reliability of the food processor are improved.

Through setting up gas detection device in food processor, can detect the inflammable gas concentration in the holding chamber of fuselage through gas detection device, avoid because the pipeline subassembly leaks the problem that leads to holding intracavity inflammable gas concentration to rise, and then avoid the food processor because the problem of inflammable gas concentration too high and the burning or the explosion, improve the security and the reliability of food processor.

The food processor according to the present invention may further have the following distinguishing technical features:

in the above technical solution, further, the airframe includes: a base; the housing, the base encloses with the housing and holds the chamber, leaves the distance between gas detection device and the housing.

In this embodiment, the structure of the fuselage is defined. Specifically, the fuselage includes base and casing, and base and casing enclose into the accommodation chamber, leave certain distance between gas detection device and the casing.

It will be appreciated that liquid may leak from a point or points of the piping assembly, and that the leaked liquid slowly evaporates centered around the point of leakage. In other words, with the volatilization of the liquid and the circulation of the gas, the flammable gas concentrations at all positions in the accommodating cavity can tend to be the same, otherwise, the positions of the edges of the accommodating cavity are far away from the liquid leakage point or the flammable gas concentrations at the edges of the accommodating cavity are lower due to poor air fluidity in the accommodating cavity, and if the gas detection device is arranged near the edges of the accommodating cavity of the shell, the detection result of the gas detection device is inaccurate easily. Therefore, a certain distance is reserved between the gas detection device and the shell, so that the gas detection device is located at the empty position in the accommodating cavity, and the detection accuracy of the gas detection device is improved.

Through setting up the gas detection device in the position that leaves the distance between with the casing to can make gas detection device detect the seepage of liquid in time, avoid because install the gas detection device at the edge position that holds the chamber and detect inaccurate or the untimely problem of detection that leads to, improve the accuracy and the timeliness that inflammable gas concentration detected, improve the reliability of food processor.

In the above technical solution, further, the food processor further includes: the support is arranged on the base, and the gas detection device is arranged on one side, far away from the base, of the support.

In this technical scheme, hold the intracavity and still be equipped with the support, the support is installed in the base, and gas detection device installs in the support one side of keeping away from the base. Understandably, the gas detection device is arranged on one side of the support away from the base, so that a certain distance is reserved between the gas detection device and the base, on one hand, the gas detection device can be closer to the central position of the accommodating cavity, the problem that the detection is inaccurate or untimely due to the fact that the gas detection device is arranged at the edge position of the accommodating cavity is avoided, and on the other hand, the liquid is prevented from flowing on the base to damage the gas detection device, so that the gas detection device is far away from the liquid.

The bracket is arranged on the base, and the gas detection device is arranged on one side of the bracket away from the base, so that on one hand, the gas detection device is closer to the center position of the accommodating cavity, the problem that the detection is inaccurate or untimely due to the fact that the gas detection device is arranged at the edge position of the accommodating cavity is avoided, the accuracy and timeliness of detecting the concentration of flammable gas are improved, and the reliability of the food processor is improved; on the other hand, the liquid is prevented from flowing on the base to damage the gas detection device, so that the gas detection device is far away from the liquid, a certain protection effect is achieved on the gas detection device, and the service life of the gas detection device is prolonged.

In the above technical solution, further, the food processor further includes: the liquid storage devices are arranged on the machine body and are used for containing liquid, any liquid storage device is provided with a sealing plug assembly, and liquid can flow out through the sealing plug assembly; the connector assemblies are positioned in the accommodating cavity, are matched with the sealing plug assemblies and can open or close the sealing plug assemblies, and the connector assemblies are communicated with the pipeline assemblies; and a distance is reserved between the gas detection device and the joint assembly, between the liquid storage device and the pipeline assembly.

In the technical scheme, a plurality of liquid storage devices for containing liquid are also arranged in the food processor, and the liquid storage devices are detachably arranged on the machine body. It will be appreciated that the food processor is capable of mixing seed liquids to obtain a beverage, and in order to enable the food processor to mix liquids of a desired kind at any time, a plurality of liquid storage devices are provided in the food processor, in which different kinds of liquids can be stored, so that liquids can be drawn out of the respective liquid storage devices when required by use of the respective kinds of liquids.

Further, since the liquid storage device is detachably mounted on the body, the liquid storage device can be detached from the body to supplement the liquid to the liquid storage device under the condition that the liquid in the liquid storage device is used up.

Further, the sealing plug assembly is further arranged on the liquid storage device, liquid in the liquid storage device can be discharged through the sealing plug assembly, the liquid storage device can be opened under the action of external force to discharge liquid, and the sealing plug can seal the liquid storage device under the state of being free from the action of external force. In order to cooperate the sealing plug subassembly on the stock solution device, still be equipped with a plurality of joint components in holding the intracavity, joint component and stock solution device one-to-one setting. The sealing plug assembly is movably arranged on the liquid storage device, and the sealing plug assembly can move between a first position and a second position so as to open or close the liquid storage device. The sealing plug assembly is matched with the connector assembly, when the connector assembly is propped against the sealing plug assembly, the connector assembly can push the sealing plug assembly to move to a first position under the action of external force, at the moment, the liquid storage device is opened, the connector assembly is communicated with the liquid storage device, and liquid in the liquid storage device can flow into the connector assembly; after the joint component is separated from the sealing plug component, the sealing plug component can automatically recover to the second position after the acting force of the joint component on the sealing plug component is lost, and when the sealing plug is positioned at the second position, the liquid storage device recovers to a closed state, so that liquid cannot flow out. The joint component is communicated with the pipeline component, and when the liquid in the liquid storage device flows into the joint component, the liquid can further flow into the pipeline component.

Understandably, the joint assembly is used for connecting the pipeline assembly and the liquid storage device, and liquid in the liquid storage device can be transmitted to the pipeline assembly through the joint assembly, if the joint assembly fails, the liquid is easy to seep out from the joint assembly, and then the concentration of flammable gas in the accommodating cavity is increased. To avoid this problem, the concentration of flammable gas in the accommodation chamber may be detected by a gas detection device. Further, in order to improve the accuracy of the gas detection device, a distance is reserved between the gas detection device and the joint assembly, between the gas detection device and the liquid storage device, and between the gas detection device and the pipeline assembly, so that the gas detection device is located at a relatively open position, and the accuracy of alcohol detection is improved.

By providing a plurality of liquid storage devices and a plurality of joint assemblies in the food processor, the pipeline assembly can be connected or disconnected with the liquid storage devices through connection or disconnection of the liquid storage devices and the joint assemblies. And, through making the gas detection device and joint assembly, reserve liquid device and pipeline subassembly between leave the distance, can avoid above part to cause the interference to gas detection device's detection, make gas detection device be located a comparatively open position, improve alcohol detection's accuracy.

In the above technical solution, further, the food processor further includes: the cup body is used for mixing various liquids and is communicated with any liquid storage device through the pipeline assembly.

In this technical scheme, food processor still is equipped with the cup, and the cup can hold multiple liquid, and multiple liquid can mix in the cup each other in order to obtain the drink. The cup body is connected with the pipeline assembly, so that any liquid storage device is communicated with the cup body through the pipeline assembly, and liquid in any liquid storage device can be conveyed into the cup body through the pipeline assembly to be brewed.

Through setting up the cup in food processor, can carry the liquid in arbitrary liquid storage device to the cup through the pipeline subassembly to mix multiple liquid each other in the cup, in order to obtain corresponding drink.

In the above technical solution, further, the food processor further includes: the pump body assembly is arranged on the machine body, is connected with the pipeline assembly and is used for pumping liquid in the liquid storage device into the cup body; and a distance is reserved between the gas detection device and the pump body component.

In this technical scheme, in order to be able to carry the liquid in the reservoir to the cup in, still set up the pump body subassembly in the food processor. Specifically, the pump body component is arranged on the machine body and is connected with the pipeline component, and in the state that the pump body component operates, the pump body component can pump out liquid in the liquid storage device into the pipeline component and pump the liquid in the pipeline component into the cup body.

Further, in order to avoid the pump body component from affecting the diffusion of the inflammable gas, the gas detection device is affected, and therefore, a distance is reserved between the gas detection device and the pump body component.

The working process of the food processor is as follows: the connector assembly opens the sealing plug assembly on the liquid storage device corresponding to the connector assembly, so that the liquid storage device is communicated with the pipeline assembly through the connector assembly, the pump body assembly operates to pump out liquid in the liquid storage device, the pumped liquid flows into the pipeline assembly through the connector assembly, and the pump body assembly further pumps the liquid in the pipeline assembly into the cup body.

Through setting up the pump body subassembly in food processor, can pump the liquid in the liquid storage device into the cup through the pump body subassembly to accomplish the mixing of multiple liquid, make the drink of different tastes. Through making the distance that leaves between gas detection device and the pump body subassembly, can avoid the pump body subassembly to cause the interference to gas detection device's detection, make gas detection device be located a comparatively open position, improve the accuracy that inflammable gas detected.

In the above technical solution, further, the food processor further includes: the electromagnetic valves are arranged on the pipeline assembly and are in one-to-one correspondence with the liquid storage devices, and the electromagnetic valves are used for opening or closing the liquid storage devices corresponding to the electromagnetic valves; a distance is reserved between the gas detection device and any electromagnetic valve.

In the technical scheme, a plurality of electromagnetic valves are further arranged on the pipeline assembly, and the electromagnetic valves are arranged in one-to-one correspondence with the liquid storage devices. The electromagnetic valve can open or close the pipeline component communicated with the liquid storage device corresponding to the electromagnetic valve, so that the electromagnetic valve can control the opening and closing of the liquid storage device corresponding to the electromagnetic valve. In the process of preparing the beverage, if liquid in a certain liquid storage device is needed, the liquid storage device can be opened through an electromagnetic valve corresponding to the liquid storage device, then the liquid in the liquid storage device is pumped into the cup body through the pump body assembly, and after the liquid conveying process is finished, the liquid storage device is closed through the electromagnetic valve. Thus, various liquids required can be pumped into the cup body in sequence to make drinks.

The working process of the food processor is as follows: after the liquid storage device corresponding to the required liquid is determined, the electromagnetic valve corresponding to the liquid storage device is opened, so that the liquid storage device can be communicated with the pipeline assembly. Then make the sealing plug subassembly on this liquid storage device open that this liquid storage device corresponds to make this liquid storage device communicate with the pipeline subassembly through the joint subassembly, pump body subassembly operation is in order to take out the liquid in the liquid storage device, in the liquid of taking out flows into the pipeline subassembly through the joint subassembly, pump body subassembly further pumps the liquid in the pipeline subassembly into the cup. After the liquid pumping operation is completed, the electromagnetic valve corresponding to the liquid storage device is closed, so that the liquid storage device cannot be connected into the pipeline assembly, and the liquid in the liquid storage device cannot flow into the pipeline assembly.

The electromagnetic valves corresponding to the liquid storage devices one by one are arranged on the pipeline assembly, so that the liquid storage devices are controlled to be opened and closed through the electromagnetic valves, the liquid storage devices are opened and closed as required, and the liquid of the required types is conveyed to the cup body for drink modulation. Through making the distance that leaves between gas detection device and the arbitrary solenoid valve, can avoid the solenoid valve to cause the interference to gas detection device's detection, make gas detection device be located a comparatively open position, improve the accuracy that inflammable gas detected.

In the above technical solution, further, the food processor further includes: the air outlet is arranged on the machine body, and the accommodating cavity is communicated with the outside through the air outlet.

In this technical scheme, in order to make the air that holds the intracavity can circulate with the external world, set up the air outlet on the fuselage, hold the chamber and can communicate with the external world through the air outlet. Under the condition that the concentration of the inflammable gas in the accommodating cavity is high, air with high concentration of the inflammable gas in the accommodating cavity can flow out to the external environment through the air outlet, so that the effect of reducing the concentration of the inflammable gas in the accommodating cavity is achieved through ventilation at the air outlet.

Optionally, the air outlet is provided with an isolation net to reduce external impurities from entering the accommodating cavity, and play a certain role in protecting various components in the accommodating cavity. Thereby can guarantee to hold the ventilation of chamber and external environment simultaneously, can also protect the various parts that hold the intracavity.

Through set up the air outlet on the fuselage, make hold the chamber and can take a breath with the external world through the air outlet to when holding the intracavity inflammable gas concentration higher, can be through taking a breath in air outlet department in order to reduce the inflammable gas concentration that holds the intracavity.

In the above technical solution, further, the food processor further includes: the fan assembly is arranged at the air outlet and can enable the air in the accommodating cavity to flow with the outside; and the control part is arranged on the machine body, the gas detection device and the fan assembly are electrically connected with the control part, and the control part can control the operation of the fan assembly according to the detection result of the gas detection device.

In this technical scheme, in order to accelerate the ventilation of holding chamber and external world, still be equipped with fan assembly in air outlet department, can accelerate the speed of taking a breath of holding chamber and external world through fan assembly's operation. Specifically, be equipped with the control portion who is connected with fan assembly electricity in the food processor, the fuselage is located to the control portion, and the control portion can be according to the operation of holding the flammable gas concentration control fan assembly in the chamber to can be when holding the chamber in flammable gas concentration higher, control fan assembly operation, when holding the chamber in flammable gas concentration lower, control fan assembly stop operation.

Further, the control part is electrically connected with a gas detection device, and the gas detection device detects the concentration of flammable gas in the accommodating cavity at all times and sends the detection result to the control part. The control part can judge according to the testing result of the gas testing device, when the control part judges that the flammable gas concentration in the accommodating cavity is higher, the control part can control the fan assembly to be started, or improve the rotating speed of the fan assembly, so as to accelerate the ventilation of the accommodating cavity and the outside, the air with the higher flammable gas concentration in the accommodating cavity is discharged to the outside as soon as possible, and meanwhile, the outside fresh air is introduced into the accommodating cavity, so that the flammable gas concentration in the accommodating cavity is reduced. When the control part judges that the concentration of flammable gas in the accommodating cavity is low, the control part controls the fan assembly to reduce the rotating speed or stop running so as to avoid causing energy waste.

Through setting up the fan subassembly in air outlet department to with the control portion and fan subassembly gas detection device electricity are connected, thereby can make the control portion judge whether to hold the inflammable gas concentration in the chamber according to gas detection device's testing result and pass through, and then according to the operation mode of judging result control fan subassembly, in order to hold the intracavity inflammable gas concentration higher time, open the fan subassembly or improve the fan subassembly rotational speed, accelerate and hold chamber and external ventilation speed, reduce and hold the intracavity inflammable gas concentration, when holding intracavity inflammable gas concentration lower, close the fan subassembly or reduce the fan subassembly rotational speed, avoid causing the energy extravagant.

In the above technical solution, further, the control portion controls the fan assembly to operate when the gas detecting device detects that the concentration of the flammable gas in the accommodating cavity is greater than or equal to a preset threshold.

In this technical scheme, the control portion prestores the first threshold value of inflammable gas concentration, and when gas detection device detects that hold intracavity inflammable gas concentration and be greater than or equal to this first threshold value of predetermineeing, it is higher to indicate to hold intracavity inflammable gas concentration, and control portion control fan subassembly operation this moment to accelerate and hold chamber and external air flow, reduce and hold intracavity inflammable gas concentration. When the gas detection device detects that the concentration of flammable gas in the accommodating cavity is smaller than the first preset threshold value, the concentration of the flammable gas in the accommodating cavity is lower, and the control part controls the fan to stop running at the moment, so that energy waste is avoided.

In the above technical solution, further, the food processor further includes: and the prompting device is electrically connected with the gas detection device, and sends out prompting information under the condition that the gas detection device detects that the concentration of flammable gas in the accommodating cavity is greater than or equal to a second preset threshold value.

In the technical scheme, the food processor is also provided with the prompting device, and the prompting device is electrically connected with the gas detection device, so that the prompting device can receive the detection result of the gas detection device at all times and can determine whether to prompt according to the detection result of the gas detection device.

Specifically, when the gas detection device detects that the concentration of flammable gas in the accommodating cavity is greater than or equal to a second preset threshold value, the prompting device sends out prompting information to remind a user. It is understood that in the case where the concentration of the flammable gas in the accommodating chamber is greater than or equal to the second preset threshold, it is considered that the flammable gas in the accommodating chamber is high in concentration, and there is a risk of combustion or explosion, and the user should be reminded to perform corresponding treatment.

Alternatively, the second preset threshold may be the same as the first preset threshold or may be different from the first preset threshold.

Through setting up suggestion device in food processor, can be in holding the higher condition of intracavity inflammable gas concentration through suggestion device and send prompt message to remind the user to carry out corresponding processing, further improved food processor's security and reliability.

In the above technical solution, further, the prompt information includes sound and/or light.

In this technical scheme, the prompt message that suggestion device sent can be the sound, also can be light, can also remind simultaneously through sound and light to can remind the user through multiple mode, further improve the security and the reliability of food processor.

In the above technical solution, further, the food processor further includes: and the shaking device is arranged on the machine body, the cup body is detachably arranged on the shaking device, and the shaking device is used for shaking the cup body.

In this technical scheme, in order to accelerate the mixing of multiple liquid in the cup, still set up the shaking device in the food processor. The shaking device is arranged on the machine body, the cup body is detachably arranged on the shaking device, the shaking device can swing relative to the machine body, and then the cup body is driven to swing synchronously, so that the purpose of accelerating liquid mixing by shaking the cup body is achieved. And after the beverage is prepared, the user can remove the cup from the shaking device.

Through setting up the device that rocks in food processor, the accessible rocks the device and drives the cup motion in order to rock the cup to accelerate the mutual fusion between the multiple liquid in the cup, and can make more fully fuse between various liquids, promote the taste of drink.

In the above technical solution, further, the food processor further includes: and the heating device is arranged on the shaking device and is used for heating the cup body.

In this technical scheme, in order to satisfy user's multiple demand, still be equipped with heating device in food processor to heat the drink. Wherein, heating device sets up in shaking the device, and under the circumstances that the cup was installed in shaking the device, accessible heating device heats the cup, and then realizes the purpose of heating the drink in the cup, makes the user obtain warm drink.

Alternatively, the heating means may be operated simultaneously with the shaking means, or the heating means may be operated separately. Under the condition that the heating device and the shaking device run simultaneously, the food processor can shake the cup body and heat the cup body, so that the beverage can be heated while being prepared, and the working efficiency is improved. When the user needs to independently heat the prepared beverage, the beverage can be placed in the cup body, and then the heating device is independently started, so that the beverage is independently heated.

Through setting up heating device in food processor, accessible heating device heats the cup, and then heats the drink in the cup, makes the user obtain warm drink, satisfies user's multiple demand.

In the above technical scheme, further, the heating device is an electromagnetic coil, and the cup body is made of metal.

In this solution, the heating means may be an electromagnetic coil, whereas in case the heating means is an electromagnetic coil, the material of the cup should be metallic. The heating coil generates an alternating magnetic field, and the alternating magnetic field acts on the metal cup body to enable eddy currents to be generated in the metal cup body, and the eddy currents enable metal to generate heat, so that the drink in the cup body can be heated. The heating mode has high heating efficiency, stability and reliability, and the heating device occupies small space, thereby being beneficial to the miniaturization design of products.

In the above technical solution, further, the gas detection device can be used for detecting the alcohol concentration.

In this embodiment, the gas detection device can be used to detect the concentration of alcohol. In particular, the food processor can be used to brew a cocktail, and the line assembly is used to transfer wine for brewing the cocktail. Understandably, if the pipeline assembly leaks, the wine in the pipeline assembly flows into the accommodating cavity and volatilizes, and if the alcohol concentration in the accommodating cavity is too high, a fire is easily initiated. In order to avoid the problems, the alcohol concentration in the accommodating cavity can be detected by the gas detection device, and a prompt is sent out under the condition that the alcohol concentration in the accommodating cavity exceeds a set value so as to improve the safety of the food processor.

In one possible solution, the food processor may be a wine blender.

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 foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 shows an exploded view of a food processor of an embodiment of the invention.

The correspondence between the reference numerals and the component names in fig. 1 is:

100 food processor, 110 fuselage, 111 base, 112 casing, 113 support, 120 pipeline subassembly, 121 solenoid valve, 130 gas detection device, 140 stock solution device, 150 joint subassembly, 160 pump body subassembly, 170 control part, 180 rocking device, 181 cup.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

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 described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

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

Embodiment one:

as shown in fig. 1, a first aspect of the present invention proposes a food processor 100 for brewing a beverage, comprising: a body 110 including a receiving chamber; a circuit assembly 120, at least partially located in the receiving chamber, the circuit assembly 120 for delivering a liquid for brewing the beverage; the gas detection device 130 is located in the accommodating cavity, and the gas detection device 130 is used for detecting the concentration of the gas formed by volatilizing the liquid in the accommodating cavity.

The food processor 100 is used for mixing wine, and the food processor 100 comprises a body 110, wherein a containing cavity is arranged in the body 110. In order to achieve the function of delivering the liquid, the food processor 100 is configured to deliver a plurality of liquids and mix the liquids to obtain the beverage, and a pipe assembly 120 is further disposed in the receiving chamber. The pipeline assembly 120 can be communicated with a container for storing liquid and a container for preparing beverage, and the liquid in the container for storing liquid can be transmitted into the beverage container through the pipeline assembly 120, so that the pipeline assembly 120 can realize the function of transmitting the liquid, and further, the food processor 100 can normally complete the beverage preparing process.

It will be appreciated that in order to enable the piping assembly 120 to be connected to multiple containers, multiple connection points need to be provided on the piping assembly 120, and if the piping assembly 120 at the connection points is subject to loosening or damage, there is a possibility that liquid seeps out of the piping assembly 120, and there is a risk of liquid leakage from the piping assembly 120. The pipe assembly 120 is disposed in the accommodating cavity of the body 110, and it is understood that the accommodating cavity is a space close to a seal with poor air circulation, and if the pipe assembly 120 has a leakage problem and the leaked liquid is a volatile inflammable substance, the liquid seeping from the pipe assembly 120 may volatilize in the accommodating cavity, so that the concentration of the gas formed by volatilizing the liquid in the accommodating cavity increases. The housing chamber is also provided with other energized parts of the food processor 100, which is prone to burning or explosion in a high concentration flammable gas environment, and presents a high risk.

Further, in order to avoid the occurrence of the combustion problem caused by the leakage of the liquid, a gas detecting means 130 for detecting the concentration of the inflammable gas in the accommodating chamber is provided in the food processor 100. Specifically, the gas detection device 130 is located in the accommodating chamber, and is configured to detect the concentration of flammable gas in the accommodating chamber. The concentration of the inflammable gas in the accommodating cavity can be detected by the gas detection device 130 from time to time, so that the concentration of the inflammable gas in the accommodating cavity can be reduced by taking certain measures when the concentration of the inflammable gas exceeds the standard, the risk of burning or explosion of the food processor 100 is reduced, and the safety and the reliability of the food processor 100 are improved.

By providing the gas detection device 130 in the food processor 100, the concentration of flammable gas in the accommodating cavity of the body 110 can be detected by the gas detection device 130, so that the problem of the rise of the concentration of flammable gas in the accommodating cavity caused by the leakage of the pipeline assembly 120 is avoided, the problem of burning or explosion of the food processor 100 caused by the overhigh concentration of flammable gas is further avoided, and the safety and reliability of the food processor 100 are improved.

Embodiment two:

as shown in fig. 1, in a specific embodiment based on any of the above embodiments, the main body 110 includes: a base 111; the housing 112, the base 111 and the housing 112 enclose a receiving chamber, and a distance is left between the gas detection device 130 and the housing 112.

In this embodiment, the structure of the body 110 is defined. Specifically, the body 110 includes a base 111 and a housing 112, the base 111 and the housing 112 enclose a receiving chamber, and a distance is left between the gas detection device 130 and the housing 112.

It will be appreciated that liquid may leak from a point or points of the piping assembly 120, and that the leaked liquid slowly evaporates centered around the point of leakage. In other words, the flammable gas concentration at each position in the receiving chamber can tend to be the same along with the volatilization of the liquid and the circulation of the gas, otherwise, the flammable gas concentration at the edge of the receiving chamber is lower due to the distance from the liquid leakage point or the poor air fluidity in the receiving chamber, and if the gas detecting device 130 is disposed near the edge of the receiving chamber of the housing 112, the detection result of the gas detecting device 130 is inaccurate. Therefore, a certain distance is left between the gas detection device 130 and the housing 112 in the present application, so that the gas detection device 130 is located at an open position in the accommodating cavity, thereby being beneficial to improving the detection accuracy of the gas detection device 130.

By arranging the gas detection device 130 at a position spaced from the housing 112, the gas detection device 130 can detect leakage of liquid in time, so that the problem of inaccurate detection or untimely detection caused by mounting the gas detection device 130 at the edge position of the accommodating cavity is avoided, the accuracy and timeliness of detecting the concentration of flammable gas are improved, and the reliability of the food processor 100 is improved.

Embodiment III:

in one specific embodiment based on any of the above embodiments, as shown in fig. 1, the food processor 100 further includes: the bracket 113 is provided on the base 111, and the gas detection device 130 is mounted on a side of the bracket 113 away from the base 111.

In this embodiment, a bracket 113 is further provided in the accommodating chamber, the bracket 113 is mounted on the base 111, and the gas detection device 130 is mounted on a side of the bracket 113 away from the base 111. It can be appreciated that, the gas detection device 130 is mounted on the side of the support 113 away from the base 111, so that a certain distance is left between the gas detection device 130 and the base 111, on one hand, the gas detection device 130 can be closer to the center of the accommodating cavity, so as to avoid the problem of inaccurate detection or untimely detection caused by mounting the gas detection device 130 on the edge of the accommodating cavity, and on the other hand, the gas detection device 130 is prevented from being damaged due to flowing of liquid on the base 111, so that the gas detection device 130 is far away from the liquid.

By arranging the bracket 113 on the base 111 and installing the gas detection device 130 on one side of the bracket 113 far away from the base 111, on one hand, the gas detection device 130 can be more close to the center position of the accommodating cavity, the problem of inaccurate detection or untimely detection caused by installing the gas detection device 130 at the edge position of the accommodating cavity is avoided, the accuracy and timeliness of detecting the concentration of flammable gas are improved, and the reliability of the food processor 100 is improved; on the other hand, the liquid is prevented from flowing on the base 111 to damage the gas detection device 130, so that the gas detection device 130 is far away from the liquid, a certain protection effect is achieved on the gas detection device 130, and the service life of the gas detection device 130 is prolonged.

Embodiment four:

in one specific embodiment based on any of the above embodiments, as shown in fig. 1, the food processor 100 further includes: the liquid storage devices 140 are arranged on the machine body 110, the liquid storage devices 140 are used for containing liquid, any liquid storage device 140 is provided with a sealing plug assembly, and liquid can flow out through the sealing plug assembly; a plurality of connector assemblies 150 positioned in the receiving cavity, the connector assemblies 150 being adapted to the sealing plug assemblies, capable of opening or closing the sealing plug assemblies, the connector assemblies 150 being in communication with the conduit assemblies 120; the gas detection device 130 is spaced apart from the connector assembly 150, the reservoir 140 and the tubing assembly 120.

In this embodiment, a plurality of liquid storage devices 140 for containing liquid are further provided in the food processor 100, and the liquid storage devices 140 are detachably provided to the body 110. It will be appreciated that the food processor 100 is capable of mixing a plurality of liquids to obtain a beverage, and that in order to enable the food processor 100 to mix the desired types of liquids at any time, a plurality of liquid storage devices 140 are provided in the food processor 100, and that different types of liquids can be stored in the liquid storage devices 140, so that the liquids can be drawn from the respective liquid storage devices 140 when the respective types of liquids are desired.

Further, since the liquid storage device 140 is detachably mounted to the body 110, the liquid storage device 140 can be detached from the body to replenish the liquid storage device 140 with liquid when the liquid in the liquid storage device 140 is depleted.

Further, the sealing plug assembly is further disposed on the liquid storage device 140, the liquid in the liquid storage device 140 can be discharged through the sealing plug assembly, the liquid storage device 140 can be opened under the action of external force to discharge the liquid, and the sealing plug can seal the liquid storage device 140 under the state of not being affected by the external force. In order to cooperate with the sealing plug assembly on the liquid storage device 140, a plurality of joint assemblies 150 are further arranged in the accommodating cavity, and the joint assemblies 150 are arranged in one-to-one correspondence with the liquid storage device 140. The sealing plug assembly is movably disposed in the reservoir 140, the sealing plug assembly being movable between a first position and a second position to open or close the reservoir 140. The sealing plug assembly is matched with the connector assembly 150, when the connector assembly 150 is abutted against the sealing plug assembly, the connector assembly 150 can push the sealing plug assembly to move to the first position under the action of external force, at the moment, the liquid storage device 140 is opened, the connector assembly 150 is communicated with the liquid storage device 140, and liquid in the liquid storage device 140 can flow into the connector assembly 150; after the joint assembly 150 is separated from the sealing plug assembly, the sealing plug assembly can automatically restore to the second position after the acting force of the joint assembly 150 on the sealing plug assembly is lost, and when the sealing plug is positioned at the second position, the liquid storage device 140 restores to a closed state, so that liquid cannot flow out. The joint assembly 150 is in communication with the pipe assembly 120, and when the liquid in the liquid storage device 140 flows into the joint assembly 150, the liquid can further flow into the pipe assembly 120.

As can be appreciated, the joint assembly 150 is used to connect the pipe assembly 120 and the liquid storage device 140, and the liquid in the liquid storage device 140 can be transferred into the pipe assembly 120 through the joint assembly 150, if the joint assembly 150 fails, the liquid easily seeps out of the joint assembly 150, so that the concentration of flammable gas in the containing cavity increases. To avoid this problem, the concentration of flammable gas within the receiving chamber may be detected by the gas detection device 130. Further, in order to improve the accuracy of the detection of the gas detection device 130, a distance may be left between the gas detection device 130 and the joint assembly 150, the liquid storage device 140 and the pipeline assembly 120, so that the gas detection device 130 is located at a relatively open position, thereby improving the accuracy of the detection of flammable gas.

By providing a plurality of the fluid reservoir devices 140 and a plurality of the joint assemblies 150 in the food processor 100, the pipe assembly 120 can be connected to or disconnected from the fluid reservoir devices 140 by connecting or disconnecting the fluid reservoir devices 140 to or from the joint assemblies 150. In addition, the distance between the gas detection device 130 and the joint assembly 150, between the liquid storage device 140 and the pipeline assembly 120 is kept, so that the interference of the components on the detection of the gas detection device 130 can be avoided, the gas detection device 130 is located at a relatively open position, and the accuracy of the detection of flammable gas is improved.

Fifth embodiment:

in one specific embodiment based on any of the above embodiments, as shown in fig. 1, the food processor 100 further includes: the cup 181 is used for mixing various liquids, and the cup 181 is communicated with any liquid storage device 140 through the pipeline assembly 120.

In this embodiment, the food processor 100 is further provided with a cup 181, the cup 181 being capable of containing a plurality of liquids that can be mixed with each other within the cup 181 to obtain a beverage. The cup body 181 is connected with the pipeline assembly 120, so that any liquid storage device 140 can be communicated with the cup body 181 through the pipeline assembly 120, and liquid in any liquid storage device 140 can be conveyed into the cup body 181 through the pipeline assembly 120 to be brewed.

By providing the cup 181 in the food processor 100, the liquid in any one of the liquid storage devices 140 can be delivered into the cup 181 through the pipeline assembly 120, and the various liquids can be mixed with each other in the cup 181 to obtain the corresponding beverage.

Example six:

in one specific embodiment based on any of the above embodiments, as shown in fig. 1, the food processor 100 further includes: the pump body assembly 160 is arranged on the machine body 110, and the pump body assembly 160 is connected with the pipeline assembly 120 and is used for pumping the liquid in the liquid storage device 140 into the cup 181; a distance is left between the gas detection device 130 and the pump body assembly 160.

In this embodiment, a pump assembly 160 is also provided in the food processor 100 in order to be able to deliver the liquid in the reservoir 140 into the cup 181. Specifically, the pump body assembly 160 is disposed on the body 110 and connected to the pipe assembly 120, and in a state where the pump body assembly 160 operates, the pump body assembly 160 can pump the liquid in the liquid storage device 140 into the pipe assembly 120, and pump the liquid in the pipe assembly 120 into the cup 181.

Further, in order to avoid the pump body assembly 160 from affecting the diffusion of the flammable gas, the gas detection device 130 is affected, and thus, a distance is left between the gas detection device 130 and the pump body assembly 160.

The operation of the food processor 100 is as follows: the connector assembly 150 opens the sealing plug assembly on the corresponding liquid storage device 140, so that the liquid storage device 140 is communicated with the pipeline assembly 120 through the connector assembly 150, the pump body assembly 160 operates to pump out the liquid in the liquid storage device 140, the pumped liquid flows into the pipeline assembly 120 through the connector assembly 150, and the pump body assembly 160 further pumps the liquid in the pipeline assembly 120 into the cup 181.

By arranging the pump body assembly 160 in the food processor 100, the liquid in the liquid storage device 140 can be pumped into the cup 181 through the pump body assembly 160, so that the mixing of various liquids can be completed, and drinks with different tastes can be prepared. By keeping a distance between the gas detection device 130 and the pump body assembly 160, interference caused by the pump body assembly 160 to the detection of the gas detection device 130 can be avoided, the gas detection device 130 is located at a relatively open position, and the accuracy of detecting flammable gas is improved.

Embodiment seven:

in one specific embodiment based on any of the above embodiments, as shown in fig. 1, the food processor 100 further includes: the electromagnetic valves 121 are arranged on the pipeline assembly 120, the electromagnetic valves 121 are arranged in one-to-one correspondence with the liquid storage devices 140, and the electromagnetic valves 121 are used for opening or closing the liquid storage devices 140 corresponding to the electromagnetic valves 121; a distance is left between the gas detection device 130 and any one of the solenoid valves 121.

In this embodiment, the pipeline assembly 120 is further provided with a plurality of electromagnetic valves 121, and the electromagnetic valves 121 are disposed in a one-to-one correspondence with the liquid storage devices 140. The solenoid valve 121 can open or close the pipe assembly 120 communicated with the liquid storage device 140 corresponding to the solenoid valve 121, so that the opening and closing of the liquid storage device 140 corresponding to the solenoid valve 121 can be controlled. In the process of preparing the beverage, if the liquid in a certain liquid storage device 140 is needed, the liquid storage device 140 can be opened through the electromagnetic valve 121 corresponding to the liquid storage device 140, then the liquid in the liquid storage device 140 is pumped into the cup 181 through the pump body assembly 160, and after the liquid conveying process is completed, the liquid storage device 140 is closed through the electromagnetic valve 121. Thus, a plurality of liquids can be pumped into the cup 181 in sequence to produce the beverage.

The operation of the food processor 100 is as follows: after the reservoir 140 corresponding to the desired liquid is determined, the solenoid valve 121 corresponding to the reservoir 140 is opened, thereby enabling the reservoir 140 to communicate with the tubing assembly 120. And then the connector assembly 150 corresponding to the liquid storage device 140 is opened to enable the liquid storage device 140 to be communicated with the pipeline assembly 120 through the connector assembly 150, the pump body assembly 160 operates to pump out the liquid in the liquid storage device 140, the pumped liquid flows into the pipeline assembly 120 through the connector assembly 150, and the pump body assembly 160 further pumps the liquid in the pipeline assembly 120 into the cup 181. After the liquid pumping operation is completed, the electromagnetic valve 121 corresponding to the liquid storage device 140 is closed, so that the liquid storage device 140 cannot be connected to the pipeline assembly 120, and the liquid in the liquid storage device 140 cannot flow into the pipeline assembly 120.

By arranging the electromagnetic valves 121 corresponding to the liquid storage devices 140 one by one on the pipeline assembly 120, the opening and closing of the liquid storage devices 140 are controlled through the electromagnetic valves 121, so that the liquid storage devices 140 are opened and closed as required, and the liquid of the required type is conveyed to the cup 181 for drink preparation. By keeping a distance between the gas detection device 130 and any electromagnetic valve 121, interference caused by the electromagnetic valve 121 to detection of the gas detection device 130 can be avoided, so that the gas detection device 130 is located at a relatively open position, and the accuracy of detecting flammable gas is improved.

Example eight:

in one embodiment based on any of the above embodiments, the food processor 100 further comprises: the air outlet is arranged on the machine body 110, and the accommodating cavity is communicated with the outside through the air outlet.

In this embodiment, in order to allow air in the accommodating chamber to communicate with the outside, an air outlet is provided in the body 110, and the accommodating chamber can communicate with the outside through the air outlet. Under the condition that the concentration of the inflammable gas in the accommodating cavity is high, air with high concentration of the inflammable gas in the accommodating cavity can flow out to the external environment through the air outlet, so that the effect of reducing the concentration of the inflammable gas in the accommodating cavity is achieved through ventilation at the air outlet.

Optionally, the air outlet is provided with an isolation net to reduce external impurities from entering the accommodating cavity, and play a certain role in protecting various components in the accommodating cavity. Thereby can guarantee to hold the ventilation of chamber and external environment simultaneously, can also protect the various parts that hold the intracavity.

By arranging the air outlet on the machine body 110, the accommodating cavity can be ventilated with the outside through the air outlet, so that when the concentration of flammable gas in the accommodating cavity is high, the concentration of flammable gas in the accommodating cavity can be reduced through ventilation at the air outlet.

Example nine:

in one embodiment based on any of the above embodiments, the food processor 100 further comprises: the fan assembly is arranged at the air outlet and can enable the air in the accommodating cavity to flow with the outside; the control part 170 is provided on the body 110, the gas detection device 130 and the fan assembly are electrically connected to the control part 170, and the control part 170 can control the operation of the fan assembly according to the detection result of the gas detection device 130.

In this embodiment, in order to accelerate the ventilation between the accommodating cavity and the outside, a fan assembly is further disposed at the air outlet, and the ventilation speed between the accommodating cavity and the outside can be accelerated by the operation of the fan assembly. Specifically, the food processor 100 is provided with a control part 170 electrically connected with the fan assembly, the control part 170 is arranged on the body 110, and the control part 170 can control the operation of the fan assembly according to the concentration of flammable gas in the accommodating cavity, so that the fan assembly can be controlled to operate when the concentration of flammable gas in the accommodating cavity is high, and the fan assembly can be controlled to stop operating when the concentration of flammable gas in the accommodating cavity is low.

Further, the control unit 170 is electrically connected to the gas detection device 130, and the gas detection device 130 detects the concentration of the flammable gas in the accommodating chamber from time to time and transmits the detection result to the control unit 170. The control part 170 can judge according to the flammable gas detection result of the gas detection device 130, when the control part 170 judges that the flammable gas concentration in the accommodating cavity is higher, the control part 170 can control the fan assembly to be started, or increase the rotation speed of the fan assembly so as to accelerate the ventilation between the accommodating cavity and the outside, and the air with the higher flammable gas concentration in the accommodating cavity is discharged to the outside as soon as possible, and meanwhile, the fresh outside air is introduced into the accommodating cavity so as to reduce the flammable gas concentration in the accommodating cavity. When the control part 170 judges that the alcohol concentration in the accommodating cavity is low, the control part 170 controls the fan assembly to reduce the rotating speed or stop running so as to avoid energy waste.

Through setting up the fan subassembly in air outlet department to with control portion 170 and fan subassembly and gas detection device 130 electricity are connected, thereby can make control portion 170 judge whether to hold the inflammable gas concentration in the chamber according to gas detection device 130's testing result and pass through, and then according to the operation mode of judgement result control fan subassembly, in order to hold the intracavity inflammable gas concentration higher time, open the fan subassembly or improve the fan subassembly rotational speed, accelerate the speed of taking a breath of holding chamber and external world, reduce the alcohol concentration that holds the intracavity, when holding the intracavity inflammable gas concentration lower, close the fan subassembly or reduce the fan subassembly rotational speed, avoid causing the energy extravagant.

Further, in the case where the gas detection device 130 detects that the concentration of the inflammable gas in the accommodating chamber is greater than or equal to the preset threshold, the control part 170 controls the fan assembly to operate.

In this embodiment, the control portion 170 pre-stores a first preset threshold value of the concentration of the flammable gas, when the gas detecting device 130 detects that the concentration of the flammable gas in the accommodating cavity is greater than or equal to the first preset threshold value, it indicates that the concentration of the flammable gas in the accommodating cavity is higher, and at this time, the control portion 170 controls the fan assembly to operate, so as to accelerate the air flow between the accommodating cavity and the outside, and reduce the concentration of the flammable gas in the accommodating cavity. When the gas detection device 130 detects that the concentration of the flammable gas in the accommodating cavity is smaller than the first preset threshold, the flammable gas in the accommodating cavity is indicated to be low, and at this time, the control part 170 controls the fan to stop running, so that energy waste is avoided.

Example ten:

in one embodiment based on any of the above embodiments, the food processor 100 further comprises: and the prompting device is electrically connected with the gas detection device 130, and the prompting device sends out prompting information when the gas detection device 130 detects that the concentration of flammable gas in the accommodating cavity is greater than or equal to a second preset threshold value.

In this embodiment, a prompt device is further provided in the food processor 100, and the prompt device is electrically connected to the gas detection device 130, so that the prompt device can receive the detection result of the gas detection device 130 from time to time, and can determine whether to prompt according to the detection result of the gas detection device 130.

Specifically, in the case where the gas detection device 130 detects that the concentration of the flammable gas in the accommodating chamber is greater than or equal to the second preset threshold, the prompting device sends out a prompting message to remind the user. It is understood that in the case where the concentration of the flammable gas in the accommodating chamber is greater than or equal to the second preset threshold, it is considered that the flammable gas in the accommodating chamber is high in concentration, and there is a risk of combustion or explosion, and the user should be reminded to perform corresponding treatment.

Alternatively, the second preset threshold may be the same as the first preset threshold or may be different from the first preset threshold.

Through setting up suggestion device in food processor 100, can send prompt message through suggestion device under the higher circumstances of holding intracavity inflammable gas concentration to remind the user to carry out corresponding processing, further improved food processor 100's security and reliability.

Further, the prompt information includes sound and/or light.

In this embodiment, the prompt information sent by the prompting device may be sound or light, or may be simultaneously reminded by the sound and the light, so that the user can be reminded in various modes, and the safety and reliability of the food processor 100 are further improved.

Example eleven:

in one specific embodiment based on any of the above embodiments, as shown in fig. 1, the food processor 100 further includes: the shaking device 180 is arranged on the machine body 110, the cup 181 is detachably arranged on the shaking device 180, and the shaking device 180 is used for shaking the cup 181.

In this embodiment, a shaking apparatus 180 is also provided in the food processor 100 in order to expedite the mixing of the various liquids within the cup 181. The shaking device 180 is disposed on the machine body 110, the cup 181 is detachably disposed on the shaking device 180, and the shaking device 180 can swing relative to the machine body 110, so as to drive the cup 181 to swing synchronously, so as to achieve the purpose of accelerating liquid mixing by shaking the cup 181. And after the beverage is prepared, the user may remove the cup 181 from the shaking apparatus 180.

Through setting up shaking device 180 in food processor 100, accessible shaking device 180 drives cup 181 motion in order to shake cup 181 to accelerate the mutual fusion between the multiple liquid in the cup 181, and can make more abundant the fusion between various liquids, promote the taste of drink.

Embodiment twelve:

in one embodiment based on any of the above embodiments, the food processor 100 further comprises: and a heating device provided in the shaking device 180 for heating the cup 181.

In this embodiment, in order to meet various demands of users, a heating device is further provided in the food processor 100 to heat the beverage. Wherein, heating device sets up in shaking device 180, and under the circumstances that cup 181 was installed in shaking device 180, accessible heating device heats cup 181, and then realizes the purpose of heating the drink in the cup 181, makes the user obtain the warm drink.

Alternatively, the heating means may be operated simultaneously with the shaking means 180, or the heating means may be operated separately. In the case where the heating device and the shaking device 180 are operated simultaneously, the food processor 100 can shake the cup 181 and heat the cup 181, thereby heating the beverage while preparing the beverage and improving the working efficiency. When the user needs to independently heat the prepared beverage, the beverage can be placed in the cup 181, and then the heating device is independently started, so that the beverage is independently heated.

Through setting up heating device in food processor 100, accessible heating device heats cup 181, and then heats the drink in the cup 181, makes the user obtain the warm drink, satisfies user's multiple demand.

Further, the heating device is an electromagnetic coil, and the material of the cup 181 is metal.

In this embodiment, the heating means may be a solenoid, and in the case where the heating means is a solenoid, the material of the cup 181 should be metal. The heating coil generates an alternating magnetic field, and the alternating magnetic field acts on the metal cup body to enable eddy currents to be generated in the metal cup body, and the eddy currents enable metal to generate heat, so that the drink in the cup body 181 is heated. The heating mode has high heating efficiency, stability and reliability, and the heating device occupies small space, thereby being beneficial to the miniaturization design of products.

Embodiment thirteen:

in one embodiment based on any of the above embodiments, the gas detection device 130 can be used to detect alcohol concentration.

In this embodiment, the gas detection device 130 can be used to detect the concentration of alcohol. In particular, the food processor 100 can be used to brew a cocktail, and the line assembly 120 is used to transfer wine for brewing the cocktail. It is understood that if the pipeline assembly 120 leaks, the wine in the pipeline assembly 120 flows into the containing cavity and volatilizes, and if the alcohol concentration in the containing cavity is too high, a fire is easily initiated. To avoid the above problems, the gas detecting device 130 may detect the alcohol concentration in the accommodating cavity, and send out a reminder if the alcohol concentration in the accommodating cavity exceeds the set value, so as to improve the safety of the food processor 100.

In one possible implementation, the food processor 100 may be a brewer.

Fourteen examples:

the food processor 100 of the present invention mainly comprises: the device comprises a base 111, a shell 112, a liquid storage device 140, a pipeline assembly 120, a pump body assembly 160, an electromagnetic valve 121, a shaking device 180, a gas detection device 130 and a control part 170.

The gas detection device 130 is disposed in a position that is clear within the housing 112 of the food processor 100. When leakage occurs in the liquid storage device 140, the cup 181, the pump body assembly 160, the electromagnetic valve 121 or the pipeline assembly 120, the leaked liquid volatilizes inflammable gas.

When the gas detection device 130 detects that the concentration of flammable gas in the accommodating chamber of the housing 112 exceeds a certain limit, a prompt message (e.g., a buzzer, a flashing device alarm lamp, etc.) is issued. The user is reminded to check the equipment to confirm whether the liquid storage device 140 leaks or not, and repair is timely performed.

At the same time, information is fed back to the control part 170, and the control part 170 processes the information and starts the fan assembly of the food processor 100 to discharge the air with high inflammable gas concentration out of the equipment and introduce fresh air. The concentration of flammable gas in the equipment and the surrounding air is reduced, and the risk of fire is avoided.

In the present invention, the term "plurality" means two or more, unless explicitly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean 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 present invention. In this specification, schematic representations of the above terms 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 of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A food processor for brewing a beverage, comprising:

a body including a receiving cavity;

a conduit assembly at least partially located within the receiving chamber, the conduit assembly for delivering a liquid for brewing the beverage;

the gas detection device is positioned in the accommodating cavity and is used for detecting the concentration of gas formed by volatilizing the liquid in the accommodating cavity, and the gas detection device can be used for detecting the concentration of alcohol;

the air outlet is arranged on the machine body, and the accommodating cavity is communicated with the outside through the air outlet;

the fan assembly is arranged at the air outlet and can enable the air in the accommodating cavity to flow with the outside mutually;

and the control part is arranged on the machine body, the gas detection device and the fan assembly are electrically connected with the control part, and the control part can control the operation of the fan assembly according to the detection result of the gas detection device.

2. The food processor of claim 1, wherein the body comprises:

a base;

the base and the shell are surrounded to form the accommodating cavity, and a distance is reserved between the gas detection device and the shell.

3. The food processor of claim 2, further comprising:

and the bracket is arranged on the base, and the gas detection device is arranged on one side, away from the base, of the bracket.

4. The food processor of claim 2, further comprising:

the liquid storage devices are arranged on the machine body and are used for containing the liquid, any liquid storage device is provided with a sealing plug assembly, and the liquid can flow out through the sealing plug assembly;

the connector assemblies are positioned in the accommodating cavity, are matched with the sealing plug assemblies and can be opened or closed, and are communicated with the pipeline assemblies;

and a distance is reserved between the gas detection device and the joint assembly, between the liquid storage device and between the gas detection device and the pipeline assembly.

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

the cup body is used for mixing various liquids and is communicated with any liquid storage device through the pipeline assembly.

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

the pump body assembly is arranged on the machine body, is connected with the pipeline assembly and is used for pumping liquid in the liquid storage device into the cup body;

And a distance is reserved between the gas detection device and the pump body component.

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

the electromagnetic valves are arranged on the pipeline components and are arranged in one-to-one correspondence with the liquid storage devices, and the electromagnetic valves are used for opening or closing the liquid storage devices corresponding to the electromagnetic valves;

and a distance is reserved between the gas detection device and any electromagnetic valve.

8. The food processor of claim 1, wherein the food processor comprises a processor body,

and the control part controls the fan assembly to operate under the condition that the gas detection device detects that the concentration of the gas in the accommodating cavity is greater than or equal to a first preset threshold value.

9. The food processor of any one of claims 1 to 7, further comprising:

and the prompting device is electrically connected with the gas detection device, and the prompting device sends out prompting information under the condition that the gas detection device detects that the concentration of the gas in the accommodating cavity is greater than or equal to a second preset threshold value.

10. The food processor of claim 9 wherein the food processor comprises a processor housing,

The prompt information comprises sound and/or light.

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

and the shaking device is arranged on the machine body, the cup body is detachably arranged on the shaking device, and the shaking device is used for shaking the cup body.

12. The food processor of claim 11, further comprising:

and the heating device is arranged on the shaking device and is used for heating the cup body.

13. The food processor of claim 12 wherein the food processor comprises a processor housing,

the heating device is an electromagnetic coil, and the cup body is made of metal.

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