CN221060485U - Food processor with good use effect - Google Patents

Abstract

The utility model relates to the field of household appliances and discloses a food processor with good use effect, which comprises a machine body, a crushing cup, a crushing device and a motor, wherein the crushing cup is arranged on the machine body and is provided with a crushing cavity, the crushing device is arranged in the crushing cavity, the motor is arranged at the bottom of the crushing cup and is in transmission connection with the crushing device, the crushing cup is provided with a liquid outlet, the liquid outlet is provided with a liquid outlet valve, the motor is a brushless motor, the machine body comprises a shell for accommodating the brushless motor and the liquid outlet valve, a cavity is formed between the lower part of the brushless motor and the bottom wall of the shell, a cup body is arranged in the cavity, and the bottom end of a rotating shaft of the brushless motor is in transmission connection with a functional piece so as to drive the functional piece to rotate and process materials in the cup body. Through setting up the cup and setting up with cup complex function piece in keeping away the cavity, satisfy different material processing demands, avoided simultaneously because complete machine axial height increases and lead to taking place great beat and producing great vibration noise in the food material course of working, effective noise reduction and promoted the stability of complete machine operation.

Description

Food processor with good use effect

Technical Field

The utility model relates to the field of household appliances, in particular to a food processor with good use effect.

Background

Along with the progress of science and technology, the living standard is continuously improved, the living electric appliances are also continuously developed and improved, the use feeling requirements of users on the living electric appliances are improved along with the improvement, the existing food processor generally comprises a machine body and a crushing cup which is arranged on the machine body and provided with a crushing cavity, materials are processed in the crushing cup through a crushing device, but the food processor with the structure is only provided with one crushing cup and one set of crushing device, and cannot meet various processing requirements on the materials.

The patent CN213371588U discloses a multifunctional food processor, including first cup and second cup, be equipped with the processing sword in first cup and the second cup respectively, the upper junction end and the lower junction end of motor shaft are connected with the processing sword in two cups respectively, realize different processing respectively to the material in first cup and second cup according to the demand, satisfy the processing demand different to the material, but because the second cup is connected through the diapire of base when using, consequently, when the material is processed in the second cup, need reverse food processor in order to make the second cup be located the top, the operation is unchangeable, use the impression bad, and install the whole height increase of second cup back food processor, the focus shifts up, and originally be located the first cup at the bottom at the top after reversing, originally be located the great base in area at the bottom and be located the top after reversing, when processing the material, the high-speed rotation of processing sword can make the whole stability of food processor decline.

Patent CN212912969U discloses a multi-functional food processor, set up first processing cup and second processing cup along vertical direction, be equipped with the first machined part of being connected with motor shaft in the first processing cup, the second processing cup is located first processing cup top, its inside is equipped with the second processor of being connected with first machined part transmission, motor shaft rotates through driving first machined part and then drives the second processor and rotate, realize first processing cup and second processing cup and use simultaneously, in order to satisfy the processing demand to the material is different, but the food processor complete machine height of this structure is higher, stability is relatively poor, produce vibration noise in the course of working, and just can carry out the material input to first processing cup after need dismantling the second processing cup in the use, operating procedure is many, user's use experience is not good.

Disclosure of utility model

The utility model aims to provide a food processor with good use effect, which is used for solving the problems that the operation of the whole processor is inconvenient and the stability of the whole processor is reduced and vibration noise is easy to generate due to the increase of the axial height after a second cup body is additionally arranged in the existing food processor to meet different functional requirements.

In order to achieve the above purpose, the utility model provides a food processor with good use effect, which comprises a machine body, a crushing cup, a crushing device and a motor, wherein the crushing cup is arranged on the machine body and is provided with a crushing cavity, the crushing device is arranged in the crushing cavity, the motor is arranged at the bottom of the crushing cup and is in transmission connection with the crushing device, the crushing cup is provided with a liquid outlet, the liquid outlet is provided with a liquid outlet valve, the motor is a brushless motor, the machine body comprises a shell for containing the brushless motor and the liquid outlet valve, a cavity is formed between the lower part of the brushless motor and the bottom wall of the shell, a cup body is arranged in the cavity, and the bottom end of a rotating shaft of the brushless motor is in transmission connection with a functional piece so as to drive the functional piece to rotate and process materials in the cup body.

According to the application, the motor is arranged as the brushless motor, the noise generated by the brushless motor during the working process of the food processing machine is smaller than that generated by the brush motor during the rotation, the noise reduction effect is beneficial to being realized, meanwhile, the brushless motor can realize variable frequency control, so that the food processing machine can control the brushless motor to output different rotating speeds according to different food materials and processing processes, the processing effect of the food materials is better, the occupied space of the brushless motor is smaller, the compactness of the internal structure of the whole machine is improved, the axial dimension of the brushless motor and the crushing cup is greatly reduced, meanwhile, due to the reduction of the occupied space of the brushless motor, a hollow avoidance cavity with larger internal space can be formed between the lower part of the brushless motor and the bottom wall of the shell, a functional piece can be arranged in the avoidance cavity and is in transmission connection with the bottom end of the rotating shaft, and materials in the cup body which are also positioned in the avoidance cavity are processed through the driving functional piece, namely: the processing of the material in the cup body can be synchronously realized through the processing piece when the crushing cup realizes the processing of the food material in the crushing cavity, so that different processing requirements for different materials are met, and the functional diversity of the food processor is improved.

Simultaneously, the cup body can be directly placed in the avoidance cavity, compared with the existing mode of installing above the crushing cup or installing the cup body after the whole food processor is inverted, the cup body can be taken and placed more conveniently and rapidly by a user, and the food processing efficiency is improved. And when the user only uses smashing the cup and eat material processing, the cup is placed and still can be served as receiving the liquid cup in keeping away the cavity and realize receiving the liquid, has saved the structure of establishing receiving the liquid cup in addition, makes the complete machine structure further simplify, makes the function of cup more diversified simultaneously, and user's use is more convenient and fast, further improves user's use experience.

In addition, because the brushless motor occupies the reduction of space, the great cavity of keeping away of inner space that forms makes the cup realize being located at least partially and keeps away the cavity, adapts to the placing of the cup of different capacities, reduces the volume of exposing of cup simultaneously, has improved the complete machine compactedness. Compared with the prior art, the height of the whole machine can be kept unchanged or even reduced, and the gravity center height of the whole machine is kept unchanged or reduced, so that the food processor can keep better stability of the whole machine no matter the food processor singly uses the crushing cup to process food materials or simultaneously processes materials through the cup body.

In a preferred implementation mode of the food processing machine with good use effect, the functional piece comprises a processing knife, the processing knife stretches into the cup body, the outer shell is provided with an avoidance opening communicated with the avoidance cavity, and the bottom end of the rotating shaft penetrates out of the avoidance opening to be in transmission connection with the processing knife.

The processing knife is arranged to process the material in the cup body, the processing knife is connected with the rotating shaft in a transmission manner, the material in the cup body is driven by the rotating shaft to rotate and be processed, the multifunction of the food processor is realized, meanwhile, the processing knife and the cup body are located in the cavity, the height of the whole machine is unchanged in the processing process, the stability of the whole machine is good in the process of processing the material through the crushing knife and the processing knife, and the vibration noise generated by the unstable whole machine in the processing process due to the fact that the axial height of the whole machine is higher is effectively avoided.

In a preferred implementation of the food processor with good use effect, the processing knife is detachably connected with the spindle via a coupling comprising an upper coupling connected with the bottom end of the spindle and a lower coupling connected with the top end of the processing knife.

It will be appreciated that the processing knife may be of various types, such as dry knife blade, ice blade, etc., and is not particularly limited thereto, and materials in the cup body may be processed in different manners by selecting different types of processing knives, so as to meet different processing requirements of the food processor on the materials. The processing sword is connected through the shaft coupling can be dismantled with the pivot, then has realized that can select the processing sword of different grade type according to different processing demands, further satisfies the variety to the material processing. Meanwhile, the coupling is simple in connection mode, convenient to detach and good in transmission effect, and is convenient to replace quickly when different types of processing cutters are replaced according to different processing demands on materials, so that the user operation is facilitated, and the user use experience is improved.

In a preferred implementation of the food processor with good use effect, the cup body comprises a cup body and a cover body covered above the cup body, the cover body is provided with a mounting hole, and the lower coupling is rotationally arranged in the mounting hole.

When processing the interior material of cup through the processing sword, can lead to the interior material of cup to splash owing to the high-speed rotation of processing sword, through setting up lid and closing and cup body top, effectively avoid the material to splash in the course of working, alleviate the clean burden of user, and can alleviate the noise after the lid closes in the cup body, improve user's use impression.

In a preferred implementation mode of the food processor with good use effect, the functional piece comprises a cooling fan, the cup body comprises a pulp receiving cup, the cooling fan is positioned in the avoidance cavity, the shell is provided with an avoidance port communicated with the avoidance cavity, and the bottom end of the rotating shaft penetrates out of the avoidance port to be connected with the cooling fan.

Because brushless motor occupation space is less, then the pivot bottom is in the position on the top than former model, can set up radiator fan in the pivot bottom and dispel the heat to the liquid in the thick liquid cup of butt joint, radiator fan realizes rotating with the help of the pivot drive to realize the thick liquid heat dissipation in the thick liquid cup of butt joint, make thick liquid and connect the thick liquid cup's temperature to reduce, the user can drink directly, and is convenient for take, has further promoted user's use experience.

Through setting up dodging the mouth and making the pivot bottom wear out the shell, radiator fan is kept away the intracavity and is connected with the pivot bottom, under brushless motor's drive, to at least part being located the thick liquid cup that connects that keeps away in the cavity, dispels the heat to the thick liquid in the thick liquid cup, makes thick liquid temperature decline. Because radiator fan and connect thick liquid cup all to be located and keep away the cavity, radiator fan and connect the thick liquid cup between the distance little, be convenient for realize that radiator fan directly to connect thick liquid cup to blow, the air current is from radiator fan circulation to connect the thick liquid cup apart from short, and the wind speed is fast, and is good to the radiating effect of thick liquid.

In a preferred implementation of the food processor with good use, the cooling fan is at least partially coincident with the projection of the rim of the receiving cup onto the horizontal plane.

When the cooling fan is overlapped with the projection part of the cup opening of the pulp receiving cup on the horizontal plane, part of cold air is directly blown to the cup opening of the pulp receiving cup from the cooling fan, and the other part of cold air is dispersed and blown to the cup wall of the pulp receiving cup, namely, part of cold air directly dissipates heat of pulp in the pulp receiving cup, and the other part of cold air directly dissipates heat of the crushing cup of the pulp receiving cup, indirectly dissipates heat of the pulp in the pulp receiving cup, so that the heat dissipation effect is realized in two aspects.

When the projection of the cooling fan on the horizontal plane is completely overlapped with the projection of the cup opening of the slurry receiving cup on the horizontal plane, the wind blown out by the cooling fan directly blows to the cup opening of the slurry receiving cup, and cools and dissipates the slurry in the slurry receiving cup, so that the temperature of the slurry is reduced, the efficiency of dissipating the slurry is enhanced, the rapid heat dissipation of the slurry is realized, and the working time of the cooling fan is shortened.

In a preferred embodiment of the food processor, which is effective in use, a seal is provided between the relief opening and the spindle.

The thick liquid is the liquid that has fluidity, when radiator fan's air current blows to the thick liquid, can exist the thick liquid and splash, set up the sealing member and dodge mouthful and pivot junction and seal, strengthen both and connect the compactness on the one hand, on the other hand guarantee the protection effect of shell to organism inner space environment and internals, avoid receiving the thick liquid that splashes and go out in the thick liquid cup and get into the organism through dodging mouthful, cause pollution to brushless motor or other parts, cause metamorphic pollution to organism internal environment, thereby further guarantee the job stabilization nature of food processor, also further guarantee brushless motor to radiator fan's driving stability, thereby guarantee to realize radiator fan and dock the radiating effect of thick liquid in the thick liquid cup.

In a preferred implementation mode of the food processor with good use effect, the functional piece comprises a cooling fan, the cup body comprises a pulp receiving cup, the cooling fan is located on the inner side of the shell, the shell is provided with a host air outlet communicated with the avoidance cavity, and the projection of the host air outlet and the cup opening of the pulp receiving cup on a horizontal plane is at least partially overlapped.

The radiator fan is located the shell inboard, and the distance with also being located the inboard brushless motor of shell is nearer, namely with the distance of pivot bottom nearer, be convenient for realize being connected between pivot and the radiator fan, simultaneously set up the host computer air outlet of being connected with avoiding the cavity at the shell, the wind that radiator fan blown out is through host computer air outlet to avoiding the cavity, and then blow to the thick liquid cup that connects that is located avoiding the cavity, realize the radiating effect to the thick liquid in the thick liquid cup, radiator fan is located the inside of shell, the wind that blows out reaches and connects thick liquid cup to make the air current weaker, thereby can avoid the thick liquid splash in the thick liquid cup that connects as far as possible, avoid promptly causing the pollution to organism internal environment and part.

When the air outlet of the host computer is overlapped with the projection part of the cup opening of the slurry receiving cup on the horizontal plane, a part of air blown by the cooling fan is directly blown to the cup opening of the slurry receiving cup through the air outlet of the host computer, namely, directly blown to slurry in the slurry receiving cup, and the other part of air flow is scattered and blown to the cup wall of the slurry receiving cup, so that the cup wall of the slurry receiving cup is cooled, or the air flow is scattered and cooled to the surrounding environment of the slurry receiving cup, heat accumulation around the slurry receiving cup is avoided, and the cooling effect of the slurry receiving cup is enhanced. When the projection of the air outlet of the main machine and the cup opening of the slurry receiving cup on the horizontal plane are completely overlapped, air flow is directly blown to slurry in the slurry receiving cup through the air outlet of the main machine, so that the slurry is directly and rapidly cooled, and the heat dissipation efficiency is improved.

In a preferred implementation of the food processor with good use effect, a heat dissipation channel is arranged in the housing, the heat dissipation fan is positioned in the heat dissipation channel, and the heat dissipation channel is communicated with the air outlet of the host.

The heat of the food processor is mainly generated due to the high-rotation-speed operation of the brushless motor, so that a heat dissipation channel is usually arranged for dissipating heat of the inside of the machine body, particularly the brushless motor, and a heat dissipation fan is arranged in the heat dissipation channel, so that the heat dissipation effect of the heat dissipation fan on the inside of the machine body is realized, namely, the heat dissipation effect of the heat dissipation fan on the inside of the machine body, particularly the brushless motor, is also realized when the slurry in the slurry butt joint cup is dissipated, and the air flow in the heat dissipation channel flows to the cavity through the air outlet of the host machine, and meanwhile, the heat dissipation effect of the slurry in the slurry butt joint cup is finished.

In a preferred implementation of the food processor with good use effect, the brushless motor comprises a motor body and a housing, the housing is formed with a mounting cavity for accommodating the motor body, the heat dissipation channel comprises the mounting cavity, and the housing comprises a motor air outlet for communicating the mounting cavity with a host air outlet.

The cooling channel comprises an installation cavity, namely, the cooling channel achieves the cooling effect on the motor body, the cooling fan is located in the cooling channel, on one hand, the cooling fan dissipates heat on the motor body through the cooling channel, gas escapes through the motor air outlet, on the other hand, due to the fact that the motor air outlet is communicated with the host air outlet, part of gas of the cooling fan is directly blown out to the cavity through the host air outlet, namely, the gas blows to the slurry receiving cup to cool slurry in the slurry receiving cup, and the gas in the cooling channel flows towards the host air outlet communicated with the motor air outlet through the motor air outlet, blows to the cavity through the host air outlet, dissipates heat on the slurry in the slurry receiving cup, and achieves double cooling on the motor body and the slurry in the slurry receiving cup.

In a preferred implementation of the food processor with good use effect, the brushless motor includes a housing, a motor body disposed in the housing, and an air guiding fan, and the functional member includes a heat dissipating fan, and the rotating shaft penetrates out of the housing and is connected with the heat dissipating fan.

Through setting up the air-guiding fan and dispel the heat to the motor body, the pivot is worn out the casing and is connected with radiator fan, radiator fan dispels the heat to the thick liquid in the thick liquid cup, and air-guiding fan and radiator fan divide work cooperation, act on motor body and connect thick liquid cup respectively simultaneously under the pivot drive to realize the targeted high-efficient heat dissipation to the motor body and connect thick liquid in the thick liquid cup, further improve radiating efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic diagram of a food processor in accordance with an embodiment of the present utility model;

FIG. 2 is a schematic view of a construction of a knife according to an embodiment of the present utility model;

FIG. 3 is a schematic view illustrating a structure of a heat dissipating fan inside a housing according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a heat dissipation fan and a heat conduction fan according to an embodiment of the utility model;

Fig. 5 is another schematic structural diagram of a heat dissipation fan and a heat conduction fan according to an embodiment of the utility model.

Reference numerals illustrate:

1-organism, 11-shell, 111-dodge port, 112-host air outlet, 113-heat dissipation channel; 2-brushless motor, 21-motor body, 22-shell, 221-installation cavity, 222-motor air outlet, 23-rotating shaft; 3-avoiding the cavity; 4-cup body, 41-cup body, 42-cover body; 5-a heat radiation fan; 6-an air guiding fan; 7-a seal; 8-air duct; 9-a processing knife; 10-shaft coupling.

Detailed Description

In order to more clearly illustrate the general inventive concept, a detailed description is given below by way of example with reference to the accompanying drawings.

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

As shown in fig. 1 to 5, the food processor with good use effect disclosed by the utility model comprises a machine body 1, a crushing cup which is arranged on the machine body 1 and provided with a crushing cavity, a crushing device which is arranged in the crushing cavity, and a motor which is arranged at the bottom of the crushing cup and is in transmission connection with the crushing device, wherein the crushing cup is provided with a liquid outlet, a liquid outlet is provided with a liquid outlet valve, the motor is a brushless motor 2, the machine body 1 comprises a shell 11 which accommodates the brushless motor 2 and the liquid outlet valve, a cavity 3 is formed between the lower part of the brushless motor 2 and the bottom wall of the shell 11, a cup body 4 is arranged in the cavity 3, and a functional piece is in transmission connection with the bottom end of a rotating shaft 23 of the brushless motor 2 so as to drive the functional piece to rotate and process materials in the cup body 4.

According to the application, the motor is arranged as the brushless motor 2, the noise generated by the brushless motor 2 during the working process of the food processing machine is smaller than that generated by the brush motor during the rotation, the noise reduction effect is realized, meanwhile, the brushless motor 2 can realize variable frequency control, so that the food processing machine can control the brushless motor 2 to output different rotating speeds according to different food materials and processing processes, the processing effect of the food materials is better, the occupation space of the brushless motor 2 is smaller, the compactness of the internal structure of the whole machine is improved, the axial dimension of the brushless motor 2 and the crushing cup is greatly reduced, meanwhile, due to the reduction of the occupation space of the brushless motor 2, a hollow avoidance cavity 3 with larger internal space can be formed between the lower part of the brushless motor 2 and the bottom wall of the shell 11, a functional piece is arranged in the avoidance cavity 3 to be in transmission connection with the bottom end of the rotating shaft 23, and materials in the cup body 4 which are also positioned in the avoidance cavity 3 are processed through the driving functional piece, namely: the cup can be used for synchronously processing materials in the cup body 4 through the processing piece while processing the food materials in the crushing cavity, so that different processing requirements for different materials are met, and the function diversity of the food processor is improved.

Simultaneously, the cup body 4 can be directly placed in the avoidance cavity 3, compared with the existing mode of installing the cup body 4 above the crushing cup or installing the cup body 4 after the whole food processor is inverted, the cup body 4 is more convenient and quick to take and place by a user, and the food processing efficiency is improved. And when the user only uses smashing the cup and eat material processing, cup 4 place and still can act as and connect the liquid cup to realize connecing the liquid in keeping away cavity 3, saved and established the structure that connects the liquid cup in addition, make the complete machine structure further simplify, make the function of cup 4 more diversified simultaneously, user's use convenient and fast more, further improve user's use experience.

In addition, because the brushless motor 2 occupies the reduction of space, the great hollow 3 that keeps away of inner space that forms makes the cup 4 realize being located at least partially and keeps away the hollow 3, adapts to the placing of the cup 4 of different capacities, reduces the volume of exposing of cup 4 simultaneously, has improved the complete machine compactedness. Compared with the prior art, the height of the whole machine can be kept unchanged or even reduced, and the gravity center height of the whole machine is kept unchanged or reduced, so that the food processor can keep good stability of the whole machine no matter the food processor singly uses the crushing cup to process food materials or simultaneously processes materials through the cup body 4, and compared with the situation that the height of the whole machine is increased after the cup body 4 is additionally arranged, the situation that the axial height of the whole machine is increased to cause larger deflection in the food processing process and generate larger vibration noise is avoided, the vibration noise generated in the food processing process is effectively reduced, and the running stability of the whole machine is improved.

It should be noted that, the type of the functional element in this embodiment is not limited in particular, and may be any of the following embodiments:

Embodiment one:

As shown in fig. 2, the functional part comprises a processing knife 9, the processing knife 9 stretches into the cup body 4, the shell 11 is provided with an avoidance opening 111 communicated with the avoidance cavity 3, and the bottom end of the rotating shaft 23 penetrates out of the avoidance opening 111 to be in transmission connection with the processing knife 9.

The material in the cup 4 is processed through setting up the processing sword 9, and processing sword 9 is connected with the pivot 23 transmission, rotates under the drive of pivot 23 and processes the material in the cup 4, realizes the multifunctionality of food processor, simultaneously because processing sword 9 is located with cup 4 and keeps away in the cavity 3, and the complete machine is high unchangeable in the course of working, is carrying out the in-process complete machine stability of processing the material through crushing sword and processing sword 9, effectively avoids the vibration noise that leads to the complete machine unstable and produce in the course of working because of complete machine axial height is higher.

Further, the processing knife 9 is detachably connected with the rotating shaft 23 through a coupler 10, and the coupler 10 comprises an upper coupler connected with the bottom end of the rotating shaft 23 and a lower coupler connected with the top end of the processing knife 9.

It will be appreciated that the processing knife 9 may be of various types, such as dry knife sharpening, ice crushing knife, etc., and is not limited in particular, and materials in the cup 4 can be processed in different ways by selecting different types of processing knives 9, so as to meet different processing requirements of the food processor on the materials. The processing sword 9 can dismantle through shaft coupling 10 with pivot 23 and be connected, then realized according to the processing demand of difference can select different grade type processing sword 9, further satisfies the variety to the material processing. Meanwhile, the coupling 10 is simple in connection mode, convenient to detach and good in transmission effect, and is convenient to replace quickly when the processing cutters 9 of different types are replaced according to different processing demands on materials, so that the user operation is facilitated, and the use experience of the user is improved.

Preferably, the cup body 4 includes a cup body 41 and a cover body 42 covering the cup body 41, the cover body 42 is provided with a mounting hole, and the lower coupling is rotatably disposed in the mounting hole.

When processing the material in the cup 4 through the processing sword 9, can lead to the material to splash in the cup 4 owing to the high-speed rotation of processing sword 9, through setting up lid 42 lid and cup body 41 top, effectively avoid the material to splash in the course of working, alleviate user's clean burden, and the lid can alleviate the noise after closing in cup body 41, improve user's use impression.

Embodiment two:

As shown in fig. 1, the functional part comprises a cooling fan 5, the cup body 4 comprises a pulp receiving cup, the cooling fan 5 is located in the avoidance cavity 3, the shell 11 is provided with an avoidance opening 111 communicated with the avoidance cavity 3, and the bottom end of the rotating shaft 23 penetrates out of the avoidance opening 111 to be connected with the cooling fan 5.

The heat dissipation fan 5 is arranged to dissipate heat of the liquid in the butt joint slurry cup. Because brushless motor 2 occupation space is less, then pivot 23 bottom compares former model and is in the position on the top, can set up radiator fan 5 in pivot 23 bottom and dispel the heat to the liquid in the thick liquid cup of butt joint, radiator fan 5 realizes rotating with the help of the drive of pivot 23 to realize the thick liquid heat dissipation in the thick liquid cup of butt joint, make thick liquid and connect the crushing cup temperature of thick liquid cup to reduce, the user can drink directly, and is convenient for to butt joint thick liquid cup take, has further promoted user experience.

Through setting up dodging mouthful 111 and making pivot 23 bottom wear out shell 11, radiator fan 5 is kept away in the cavity 3 and is connected with pivot 23 bottom, and under brushless motor 2's drive, to at least part being located the thick liquid cup that connects that keeps away in the cavity 3, dispels the heat to the thick liquid in the thick liquid cup, makes thick liquid temperature decline. Because radiator fan 5 and connect the thick liquid cup all to be located and keep away in the cavity 3, radiator fan 5 and connect the thick liquid cup between the distance little, be convenient for realize radiator fan 5 direct to connect thick liquid cup to blow, the air current is from radiator fan 5 circulation to connect the thick liquid cup the distance weak point, and the wind speed is fast, and is effectual to the radiating effect of thick liquid.

Further, the projection of the cooling fan 5 and the cup opening of the slurry receiving cup on the horizontal plane at least partially coincides.

When the cooling fan 5 is overlapped with the projection part of the cup opening of the pulp receiving cup on the horizontal plane, part of cold air is directly blown to the cup opening of the pulp receiving cup from the cooling fan 5, and the other part of cold air is dispersed and blown to the cup wall of the pulp receiving cup, namely, part of cold air directly dissipates heat of pulp in the pulp receiving cup, and the other part of cold air directly dissipates heat of the crushing cup of the pulp receiving cup, indirectly dissipates heat of pulp in the pulp receiving cup, so that the heat dissipation effect is realized in two aspects.

When the projection of the cooling fan 5 on the horizontal plane is completely overlapped with the projection of the cup opening of the slurry receiving cup on the horizontal plane, the wind blown out by the cooling fan 5 is directly blown to the cup opening of the slurry receiving cup, and the slurry in the slurry receiving cup is cooled and radiated, so that the temperature of the slurry is reduced, the efficiency of the slurry radiation is enhanced, the rapid radiation of the slurry is realized, and the working time of the cooling fan 5 is shortened.

As shown in fig. 1, a seal 7 is preferably provided between the relief port 111 and the shaft 23.

The thick liquid is the liquid that has fluidity, when the air current of radiator fan 5 blows to the thick liquid, can exist the thick liquid and splash, set up sealing member 7 and dodge mouthful 111 and the junction of pivot 23 and seal, strengthen both and connect the compactness on the one hand, on the other hand guarantee the protection effect of shell 11 to organism 1 inner space environment and internals, avoid receiving in the thick liquid cup splash and the thick liquid that the thick liquid of going out get into organism 1 through dodging mouthful 111, cause pollution to brushless motor 2 or other parts, cause the spoilage to organism 1 internal environment, thereby further guarantee the job stabilization nature of food processor, also further guarantee brushless motor 2 to radiator fan 5's driving stability, thereby guarantee to realize radiator fan 5 to the radiating effect of thick liquid in the thick liquid cup.

Embodiment III:

As shown in fig. 3, the functional component includes a cooling fan 5, the cup body 4 includes a pulp receiving cup, the cooling fan 5 is located inside the housing 11, the housing 11 is provided with a main air outlet 112 communicated with the cavity 3, and the projection of the main air outlet 112 and the cup opening of the pulp receiving cup on a horizontal plane at least partially coincides.

The radiator fan 5 is located the shell 11 inboard, with also being located the inboard brushless motor 2 of shell 11 the distance nearer, namely with the distance of pivot 23 bottom nearer, be convenient for realize being connected between pivot 23 and the radiator fan 5, set up the host computer air outlet 112 of being connected with keeping away cavity 3 at shell 11 simultaneously, the wind that radiator fan 5 blown out is through host computer air outlet 112 to keeping away cavity 3, and then blow to the thick liquid cup that is located and keep away cavity 3, realize the radiating effect of the thick liquid in the thick liquid cup of butt joint, radiator fan 5 is located the inside of shell 11, the wind that blows out reaches and connects the thick liquid cup to make the air current weaker, thereby can avoid the thick liquid in the thick liquid cup of butt joint to splash as far as possible, avoid polluting the internal environment and the part of organism 1 promptly. When the main machine air outlet 112 is overlapped with the projection part of the cup opening of the slurry receiving cup on the horizontal plane, a part of air blown by the cooling fan 5 is directly blown to the cup opening of the slurry receiving cup through the main machine air outlet 112, namely, directly blown to slurry in the slurry receiving cup, and the other part of air flow is scattered and blown to the cup wall of the slurry receiving cup to cool the cup wall of the slurry receiving cup, or the air flow is scattered for cooling the surrounding environment of the slurry receiving cup, so that heat accumulation around the slurry receiving cup is avoided, and the cooling effect of the slurry receiving cup is enhanced. When the projection of the main machine air outlet 112 and the cup opening of the slurry receiving cup on the horizontal plane completely coincide, air flow is directly blown to slurry in the slurry receiving cup through the main machine air outlet 112, so that the slurry is directly and rapidly cooled, and the heat dissipation efficiency is improved.

Further, a heat dissipation channel 113 is disposed in the housing 11, the heat dissipation fan 5 is disposed in the heat dissipation channel 113, and the heat dissipation channel 113 is communicated with the air outlet 112 of the host.

The heat of the food processor is mainly generated due to the high rotation speed of the brushless motor 2, so that the heat dissipation channel 113 is generally arranged to dissipate heat of the interior of the machine body 1, particularly the brushless motor 2, the heat dissipation fan 5 is arranged in the heat dissipation channel 113, the heat dissipation effect of the heat dissipation fan 5 on the interior of the machine body 1 is realized, namely, the heat dissipation effect of the heat dissipation fan 5 on the interior of the machine body 1, particularly the brushless motor 2, is realized when the slurry in the slurry cup is subjected to heat dissipation, and the air flow in the heat dissipation channel 113 flows to the cavity 3 through the host air outlet 112, so that the heat dissipation effect of the slurry in the slurry cup is finished.

Further, the brushless motor 2 includes a motor body 21 and a housing 22, the housing 22 is formed with a mounting cavity 221 accommodating the motor body 21, the heat dissipation channel 113 includes the mounting cavity 221, and the housing 22 includes a motor air outlet 222 communicating the mounting cavity 221 with the main air outlet 112.

The heat dissipation channel 113 comprises a mounting cavity 221, namely the heat dissipation channel 113 achieves the heat dissipation effect on the motor body 21, the heat dissipation fan 5 is located in the heat dissipation channel 113, on one hand, heat dissipation is carried out on the motor body 21 through the heat dissipation channel 113, gas escapes through the motor air outlet 222, on the other hand, as the motor air outlet 222 is communicated with the host air outlet 112, part of gas of the heat dissipation fan 5 is directly blown out to the cavity 3 from the host air outlet 112, namely to the slurry receiving cup, the slurry in the slurry receiving cup dissipates, and the gas in the heat dissipation channel 113 is also circulated towards the host air outlet 112 communicated with the motor air outlet 222 through the motor air outlet 222, and is blown to the cavity 3 through the host air outlet 112, so that the dual heat dissipation of the slurry in the slurry receiving cup and the motor body 21 is achieved.

It can be understood that, the heat dissipation fan 5 is disposed in the heat dissipation channel 113, and the heat dissipation fan 5 can be disposed inside the housing 11, or directly disposed inside the mounting cavity 221, so that the heat dissipation effect of the heat dissipation fan 5 on the motor body 21 is enhanced while the heat dissipation fan 5 dissipates the slurry in the slurry cup, and the heat dissipation fan 5 can be disposed outside the housing 11, i.e., the heat dissipation fan 5 is disposed in the avoidance cavity 3, so as to achieve rapid heat dissipation of the slurry in the slurry cup.

Preferably, an air duct 8 extending towards the pulp receiving cup is arranged at the air outlet 112 of the main machine.

The air duct 8 is arranged to guide the air blown by the cooling fan 5 to the slurry receiving cup, when the cooling fan 5 is positioned in the shell 11, the air flow is concentrated to the slurry receiving cup through the air duct 8, the heat dissipation effect is enhanced, and the heat dissipation efficiency is improved. The air duct 8 can be provided with a cup opening for guiding all air to blow to the slurry receiving cup so as to realize rapid heat dissipation of slurry in the slurry receiving cup, and can also be provided with a cup opening for guiding part of air to blow to the slurry receiving cup, and part of air to blow to the cup wall of the slurry receiving cup so as to realize dual heat dissipation of the slurry and the cup wall.

Embodiment four:

As shown in fig. 4 and 5, the brushless motor 2 includes a housing 22, a motor body 21 provided in the housing 22, and a wind-guiding fan 6, and the functional components include a heat-dissipating fan 5, and a rotating shaft 23 penetrates the housing 22 and is connected to the heat-dissipating fan 5.

Through setting up wind-guiding fan 6 and dispelling the heat to motor body 21, pivot 23 wears out casing 22 and is connected with radiator fan 5, radiator fan 5 dispels the heat to the thick liquid in the thick liquid cup, and wind-guiding fan 6 divides the worker cooperation with radiator fan 5, acts on motor body 21 and connects the thick liquid cup respectively simultaneously under the drive of pivot 23 to realize the targeted high-efficient heat dissipation to motor body 21 and connect thick liquid in the thick liquid cup, further improve radiating efficiency.

It can be understood that the cooling fan 5 can be located inside the housing 11 and connected with the rotating shaft 23 penetrating out of the housing 22, and an air outlet communicated with the avoidance cavity 3 is formed in the housing 11, so that air blown by the cooling fan 5 inside blows into the avoidance cavity 3 through the air outlet, and then blows to a slurry receiving cup at least partially located in the avoidance cavity 3, thereby realizing the heat dissipation effect on liquid in the slurry receiving cup.

In addition, the cooling fan 5 can also be installed outside the shell 11, namely, the cooling fan 5 is located in the cavity 3, the bottom end of the rotating shaft 23 extends out of the shell 22 and then further extends out of the shell 11 to be connected with the cooling fan 5, the cooling fan 5 and the slurry receiving cup are located in the cavity 3 at the same time, wind blown out by the cooling fan 5 is directly blown to the slurry receiving cup, and rapid heat dissipation is achieved on slurry in the slurry receiving cup.

The application can be realized by adopting or referring to the prior art at the places which are not described in the application.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims (10)

1. The utility model provides a food processor that excellent in use effect, includes the organism, locates the organism and have smash the crushing cup in chamber, set up in smash the reducing mechanism in intracavity and set up smash the cup bottom and with the motor that reducing mechanism transmission is connected, smash the cup and be equipped with the leakage fluid dram, leakage fluid dram department is equipped with the fluid dram, its characterized in that, the motor is brushless motor, the organism is including holding brushless motor with the shell of fluid dram, the brushless motor below with be formed with between the diapire of shell and keep away the cavity, keep away to be equipped with the cup in the cavity, the pivot bottom transmission of brushless motor is connected with the function piece, in order to drive the function piece rotates and right the material in the cup is handled.

2. The food processor with good use effect according to claim 1, wherein the functional piece comprises a processing knife, the processing knife stretches into the cup body, the outer shell is provided with an avoidance port communicated with the avoidance cavity, and the bottom end of the rotating shaft penetrates out of the avoidance port to be in transmission connection with the processing knife.

3. The food processor of claim 2, wherein the processing knife is detachably connected to the shaft by a coupler, the coupler comprising an upper coupler connected to the bottom end of the shaft and a lower coupler connected to the top end of the processing knife.

4. A food processor according to claim 3, wherein the cup comprises a cup body and a cover covering the cup body, the cover having a mounting hole, and the lower coupling being rotatably disposed in the mounting hole.

5. The food processor with good use effect according to claim 1, wherein the functional piece comprises a cooling fan, the cup body comprises a pulp receiving cup, the cooling fan is located in the avoidance cavity, the housing is provided with an avoidance opening communicated with the avoidance cavity, and the bottom end of the rotating shaft penetrates out of the avoidance opening to be connected with the cooling fan.

6. The food processor of claim 5, wherein the cooling fan is at least partially coincident with the projection of the rim of the receiving cup onto a horizontal plane.

7. The food processor of claim 1, wherein the functional element comprises a cooling fan, the cup body comprises a pulp receiving cup, the cooling fan is located inside the housing, the housing is provided with a host air outlet communicated with the cavity, and the projection of the host air outlet and the cup opening of the pulp receiving cup on a horizontal plane is at least partially overlapped.

8. The food processor of claim 7, wherein a heat dissipation channel is provided in the housing, the heat dissipation fan is located in the heat dissipation channel, and the heat dissipation channel is in communication with the air outlet of the host.

9. The food processor of claim 8, wherein the brushless motor comprises a motor body and a housing, the housing defines a mounting cavity for accommodating the motor body, the heat dissipation channel includes the mounting cavity, and the housing includes a motor air outlet communicating the mounting cavity with the host air outlet.

10. The food processor of claim 1, wherein the brushless motor comprises a housing, a motor body disposed in the housing, and an air guiding fan, the functional member comprises a heat dissipating fan, and the rotating shaft penetrates the housing and is connected with the heat dissipating fan.