CN219353715U - Visual food processor - Google Patents

Abstract

The utility model relates to a kitchen appliance, in particular to a visual food processor, which comprises a cup body component and a smashing device, wherein the cup body component comprises an inner cup, a shell covered on the outer side of the inner cup, a heating device arranged at the bottom of the inner cup and a handle arranged on the outer side of the shell and provided with a hollow cavity, the inner cup and the shell can be seen through, a sound insulation interlayer with sealed upper and lower ends is formed between the inner cup and the shell, a through ventilation hole is formed in the side wall of the shell, the handle is covered on the outer side of the ventilation hole and conceals the ventilation hole, the hollow cavity is communicated with the sound insulation interlayer through the ventilation hole, the heating device is positioned in a mounting cavity formed by the shell, and the hollow cavity of the handle is communicated with the mounting cavity. The food processor disclosed by the utility model is more convenient to install, not only can the requirements of scalding prevention, portability and noise reduction of consumers be met, but also the phenomenon that the noise-insulating interlayer is blurred due to the fact that external humid air enters the noise-insulating interlayer can be prevented, and the visibility of the consumers is influenced.

Description

Visual food processor

Technical Field

The utility model relates to kitchen appliances, in particular to a visual food processor.

Background

The glass cup body is used by the existing more and more cooking machines, and in the aspect of pulping visibility, the glass cup body is greatly convenient for consumers to monitor the whole pulping process, and the pleasure and frequency of the consumers in using the cooking machines are further improved. However, the existing glass broken food machine is formed by die casting single-layer glass, the glass thickness reaches 6mm, the weight of the whole glass is heavier, and the weight of the glass is further increased after the glass is filled with food materials, so that the glass is not beneficial to taking and pouring of users. Meanwhile, the glass cup body is of a single-layer structure, so that the glass cup body is inconvenient for a user to hold with both hands, and the problem of scalding the hands is solved. Moreover, the wall breaking machine has the problem of large pulping noise in the pulping process, which is also a problem that the existing wall breaking machine is difficult to overcome.

To overcome the above problems, research and development personnel in the art continue to improve the food processor. However, it is still difficult to provide a perfect solution to compromise the portability, visibility, burn-out protection, low noise of the consumer needs. For example, in order to reduce the weight of the cup body and meet the requirement of visual monitoring, research and development personnel think that the cup body is manufactured by using light pipe material glass, but the light pipe material glass is easy to crack, and corresponding shell cover is needed for protection, so that the cup body of the food processor cannot achieve the visual purpose, and the problems of water inflow and slag inflow in an interlayer, bacteria breeding and peculiar smell generation are easy to exist. On the other hand, if the cup body adopts a double-layer vacuum glass cup to realize visualization, the manufacturing cost is high, the finished product rejection rate is higher by the existing mature process, and the batch production of the food processor cup body is difficult to realize.

Based on the above problems, the applicant has previously provided an inventive patent application with application number CN 201120510508.8. The patent discloses a scheme of adopting a glass inner cup and a transparent plastic shell as a composite cup body of a soymilk machine, wherein the upper side and the lower side of an interlayer space formed between the inner cup and the shell are sealed. Can prevent external water and slurry slag from entering the interlayer space, and can meet the purposes of visibility, scalding prevention, portability and noise reduction required by consumers. However, the applicant found that in the process of continuous research, the sealing gaskets are arranged at the upper end and the lower end of the interlayer space to seal, the interlayer space is in a closed state, and in the process of assembly, after air in the interlayer space is extruded, the sealing gaskets at the upper end and the lower end of the interlayer space are easy to fall off. In addition, in the process of making soymilk by using soymilk machine, after the air in the interlayer space is subjected to expansion with heat and contraction with cold, the sealing structures at the upper end and the lower end of the interlayer space are extruded, and the problem of sealing failure of the interlayer space is easily caused after long-term use. Meanwhile, the applicant also finds that the air in the interlayer space can condense water vapor or water drops after being subjected to thermal expansion and cold contraction, and cannot be removed, so that the visual monitoring of consumers is particularly influenced in the soymilk making process of the soymilk machine.

Disclosure of Invention

The utility model aims to provide a visual food processor which is more convenient to install, can not only meet the requirements of scalding prevention, portability and noise reduction of consumers, but also prevent external moist air from entering a sound insulation interlayer, so that the sound insulation interlayer is blurred and unclear, and the visibility of the consumers is influenced.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a visual food processing machine, includes cup subassembly and sets up the reducing mechanism in the cup subassembly, its characterized in that: the cup body assembly comprises an inner cup, a shell covered on the outer side of the inner cup, a heating device arranged at the bottom of the inner cup and a handle arranged on the outer side of the shell and provided with a hollow cavity, wherein the inner cup and the shell can be seen through, a sound insulation interlayer with two closed ends is formed between the inner cup and the shell, a through ventilation hole is formed in the side wall of the shell, the handle cover is arranged on the outer side of the ventilation hole and conceals the ventilation hole, the hollow cavity is communicated with the sound insulation interlayer through the ventilation hole, the heating device is positioned in an installation cavity formed by the shell, and the hollow cavity of the handle is communicated with the installation cavity.

Further, a communication port is arranged between the hollow cavity and the mounting cavity, and the communication port is positioned above the heating device.

Further, the air holes are strip-shaped openings arranged on the shell;

or the air holes comprise an upper air hole close to the upper sealed end of the sound insulation interlayer and a lower air hole close to the lower sealed end of the sound insulation interlayer, and the upper air hole and the lower air hole are communicated with the hollow cavity.

Further, the shell comprises an upper shell sleeved on the outer side of the inner cup and a lower shell positioned below the upper shell, and the mounting cavity is formed by the lower shell.

Further, the sound insulation interlayer is formed between the upper shell and the inner cup, and the upper end and the lower end of the upper shell are in sealing fit with the inner cup;

or the sound insulation interlayer is formed by enclosing an inner cup, an upper shell and a lower shell, wherein the upper shell is in sealing fit with the upper part of the inner cup to form an upper closed end of the sound insulation interlayer, and the lower shell is in sealing fit with the lower part of the inner cup to form a lower closed end of the sound insulation interlayer;

or the air holes are formed at the joint of the upper shell and the lower shell;

or the upper shell is in sealing connection with the lower shell;

or the lower end of the handle is fixed on the lower shell, and a connecting port for communicating the mounting cavity with the hollow cavity is formed at the joint of the lower shell and the handle;

or, a mounting bracket is arranged in the lower shell, and the lower end of the handle is fixed on the mounting bracket;

or the upper end of the handle and the upper shell are detachably fixed or integrally formed.

Further, the inner cup comprises a glass cylinder penetrating up and down and a metal disc arranged at the opening of the lower end of the glass cylinder in a sealing way, the sound insulation interlayer is formed between the glass cylinder and the shell, and the heating device is arranged on the metal disc;

or the inner cup is a glass cup, and the heating device is a heating film or a heating pipe.

Further, the upper end of the handle is hooked on the cup edge of the inner cup, and the lower end of the handle and the shell are detachably fixed or integrally formed.

Further, the side wall of the shell is provided with a convex column protruding outwards, and the ventilation holes penetrate through the convex column;

or, be located the top of bleeder vent, be provided with the water retaining muscle of outwards protruding on the lateral wall of shell.

Further, the inner cup comprises an upper cup body and a lower cup body, the lower cup body is contracted inwards relative to the upper cup body, the upper cup body is connected with the lower cup body through a step, the outer shell is covered on the outer side of the lower cup body, and the cup mouth of the outer shell is matched with the step in a sealing way;

or the inner side wall of the shell is provided with an inward annular pressing edge, the inner cup is installed in the lower end opening of the shell, and the cup mouth of the inner cup is in sealing fit with the lower end face of the annular pressing edge;

or, the cup mouth of the inner cup is provided with an outward annular flanging, the inner cup is installed in the upper end opening of the shell, and the annular flanging is lapped on the cup mouth of the shell and is in sealing fit with the cup mouth of the shell.

Further, the handle is provided with an exchange hole communicated with the outside.

After the technical scheme is adopted, the inner cup and the outer shell can be seen through, an annular sound insulation interlayer is formed between the inner cup and the outer shell, the sound insulation interlayer can protect the inner cup, insulate heat and prevent scalding, a certain noise reduction effect is achieved, and noise generated by the fact that materials strike the inner cup in the pulping process is conducted outwards. The upper end and the lower end of the sound insulation interlayer are sealed, so that slurry, slurry slag or external cleaning water in the inner cup can be prevented from entering the interlayer when the slurry is poured and cleaned. More importantly, in the utility model, the side wall of the shell is provided with the through ventilation holes, the handle cover is arranged at the outer side of the ventilation holes and conceals the ventilation holes, and the hollow cavity of the handle is communicated with the sound insulation interlayer through the ventilation holes. In the pulping process of the food processor, the heating device heats the liquid in the inner cup to the boiling process, the heat of a part of the liquid in the inner cup is conducted into the sound insulation interlayer, so that the temperature of the air in the sound insulation interlayer is increased, the temperature is increased to cause the expansion of the air in the heat insulation interlayer, the pressure in the sound insulation interlayer is obviously increased, and the expanded air can be discharged to the hollow cavity through the air holes, so that the pressure inside and outside the sound insulation interlayer is kept balanced, and the problems of cracking and sealing failure of the inner cup caused by the pressure increase in the sound insulation interlayer are avoided. Obviously, the air holes in the utility model have the function of adjusting the internal and external pressure of the sound insulation interlayer.

Meanwhile, in the pulping process of the food processing machine, the heating device is switched between heating and stopping for a plurality of times, air in the sound insulation interlayer can absorb and release heat repeatedly, residual moisture in the sound insulation interlayer can be evaporated and condensed repeatedly to form water vapor, so that the surfaces of the shell and the inner cup are blurred, and the situation that a consumer observes pulping through the shell and the inner cup is not facilitated. Moreover, because the sound insulation interlayer is narrow in space and airtight, water vapor, water drops, water mist and the like condensed in the sound insulation interlayer cannot be directly removed, and visibility of consumers can be continuously influenced in the subsequent pulping process. The shell is provided with the ventilation holes, so that hot air and hot steam in the sound insulation interlayer can be effectively discharged through the ventilation holes, and the condition that the hot air and the steam in the sound insulation interlayer are condensed into water vapor, water drops, water mist and the like does not exist, so that the visual demands of consumers are influenced. Particularly when the bleeder vent sets up in close to the last closed end of sound insulation intermediate layer, because hot air, hot steam rise, the cold air descends, can realize that the steam in the sound insulation intermediate layer is better discharges through the bleeder vent, and can not stop in the sound insulation intermediate layer.

Meanwhile, the handle is positioned at the outer side of the air hole, and the handle is provided with a hollow cavity, so that the air hole can be hidden, the air hole is not exposed at the outer side of the cup body, and external cleaning water or other foreign matters can be effectively prevented from entering the sound insulation interlayer. In addition, even if cleaning water or foreign matters do not enter the hollow cavity of the handle, the cleaning water or the foreign matters can only accumulate in the hollow cavity, and cannot enter the sound insulation interlayer directly through the air holes, so that the problem that foreign matters in the sound insulation interlayer cannot be removed is effectively solved, and the maintainability of the food processor is greatly improved.

In addition, in the pulping process of the food processor, after the hot air of the sound insulation interlayer is discharged to the hollow cavity of the handle, water vapor carried in the hot air can be condensed into water drops when encountering the cold hollow cavity, and in the cleaning process, a small amount of cleaning water can permeate into the hollow cavity of the handle, so that the moisture in the hollow cavity of the handle is heavier, and the hollow cavity is in a moist environment for a long time, so that mold and bacteria are easy to grow. And the hollow cavity is communicated with the sound insulation interlayer through the air holes, when the pulping end sound insulation interlayer is cooled, moist air in the hollow cavity can reversely flow into the sound insulation interlayer, so that the air in the sound insulation interlayer presents water mist due to temperature rise in the next process of making the pulp by the food processor, and visual monitoring of consumers is not facilitated. In the food processor, the hollow cavity is communicated with the mounting cavity provided with the heating device, heat generated by the operation of the heating device can be introduced into the hollow cavity through the mounting cavity in the heating pulping process of the food processor, and moist air in the hollow cavity is heated and dried, so that the hollow cavity is in a dry state for a long time, and water vapor is not easy to enter the sound insulation interlayer.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic view of a first embodiment of a food processor in accordance with the present application;

FIG. 2 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 3 is a schematic view of a second embodiment of a food processor in accordance with the present disclosure;

fig. 4 is a schematic structural view of a third embodiment of the food processor of the present application.

Detailed Description

Embodiment one:

fig. 1 and 2 are schematic structural views of a first embodiment of the food processor according to the present utility model. A food processor comprising a cup assembly 1 and a comminuting device 2 arranged in the cup assembly 1, the cup assembly 1 comprising an inner cup 11, a housing 12 covering the outer side of the inner cup 11 and a heating device 3 for heating the inner cup 11. The heating device 3 is arranged at the bottom of the inner cup 11 and is positioned in a mounting cavity 100 formed by the shell 12, a motor 4 is further arranged in the mounting cavity 100, a rotating shaft 41 driven by the motor 4 penetrates through the bottom of the inner cup 11 and stretches into the inner cup 11, the crushing device 2 is a crushing blade, and the crushing blade is fixed at the tail end of the rotating shaft 41. The inner cup 11 comprises a glass cylinder, the outer shell 12 is a transparent plastic outer shell, an annular sound insulation interlayer 10 is formed between the inner cup 11 and the outer shell 12, and the upper end and the lower end of the sound insulation interlayer 10 are sealed. The inner cup 11 includes an upper cup body 111 with a mouth and a lower cup body 112, the lower cup body 112 is contracted inwards relative to the upper cup body 111, the upper cup body 111 is connected with the lower cup body 112 through a step 113, the outer shell 12 is covered outside the lower cup body 112, and the mouth of the outer shell 12 is in sealing fit with the step 113. The upper airtight end of the sound insulation interlayer 10 is adjacent, the side wall of the shell 12 is provided with a through ventilation hole 120, the shell 12 is also provided with a handle 5 covered outside the ventilation hole 120, the handle 5 is fixed with the shell 12, the ventilation hole 120 is hidden between the handle 5 and the shell 12, the handle 5 is provided with a hollow cavity 50 communicated with the outside, and the ventilation hole 120 communicates the sound insulation interlayer 10 with the hollow cavity 50 so as to realize water vapor discharge in the sound insulation interlayer 10. Meanwhile, above the ventilation holes 120, the side wall of the housing 12 is further provided with water blocking ribs 121 protruding outwards, the water blocking ribs 121 are hidden in the hollow cavity 50, and cleaning water entering from the hollow cavity 50 can be prevented from entering the sound insulation interlayer 10 through the ventilation holes 120.

In this embodiment, the sound insulation interlayer 10 formed by the outer shell 12 and the inner cup 11 is a closed interlayer with both the upper and lower ends closed. Wherein, the upper end of handle 5 is hooked in interior cup 11 rim of a cup and the lower extreme is fixed with shell 12, and handle 5 includes handle base member 51 and handle lid 52, cavity 50 is enclosed by handle base member 51 and handle lid 52 and closes and form to, the portion 511 of gripping of handle 5 is provided with the exchange mouth 510 that communicates cavity 50 with the external world towards shell 12 one side, and the user can partly shelter from exchange mouth 510 when handling handle 5, can prevent when wasing the cup subassembly that outside water from entering into cavity 50 through exchange mouth 510.

For this embodiment, after adopting above-mentioned technical scheme, interior cup and shell all can perspective, and be formed with the sound insulation intermediate layer between interior cup and the shell, the sound insulation intermediate layer both can protect, insulate against heat and prevent scalding interior cup, still has certain noise reduction effect, can reduce the in-process of slurrying, and the noise that the material impacted interior cup produced is outwards conducted. The upper end and the lower end of the sound insulation interlayer are sealed, so that slurry, slurry slag or external cleaning water in the inner cup can be prevented from entering the interlayer when the slurry is poured and cleaned. More importantly, in this embodiment, the sidewall of the housing is provided with a through ventilation hole, the handle is covered outside the ventilation hole and conceals the ventilation hole, and the hollow cavity of the handle is communicated with the sound insulation interlayer through the ventilation hole. In the pulping process of the food processor, the heating device heats the liquid in the inner cup to the boiling process, the heat of a part of the liquid in the inner cup is conducted into the sound insulation interlayer, so that the temperature of the air in the sound insulation interlayer is increased, the temperature is increased to cause the expansion of the air in the heat insulation interlayer, the pressure in the sound insulation interlayer is obviously increased, and the expanded air can be discharged to the hollow cavity through the air holes, so that the pressure inside and outside the sound insulation interlayer is kept balanced, and the problems of cracking and sealing failure of the inner cup caused by the pressure increase in the sound insulation interlayer are avoided. Obviously, the air holes in the embodiment have the function of adjusting the internal and external pressure of the sound insulation interlayer.

Meanwhile, in the pulping process of the food processing machine, the heating device is switched between heating and stopping for a plurality of times, air in the sound insulation interlayer can absorb and release heat repeatedly, residual moisture in the sound insulation interlayer can be evaporated and condensed repeatedly to form water vapor, so that the surfaces of the shell and the inner cup are blurred, and the situation that a consumer observes pulping through the shell and the inner cup is not facilitated. Moreover, because the sound insulation interlayer is narrow in space and airtight, water vapor and water drops condensed in the sound insulation interlayer cannot be directly removed by consumers, and the visibility of the consumers can be continuously influenced in the subsequent pulping process. The ventilation holes are formed in the shell, hot air and hot steam in the sound insulation interlayer can be effectively discharged to the outside atmosphere through the ventilation holes, so that even if the heating device repeatedly heats and stops in the pulping process, the hot air and the steam in the sound insulation interlayer can not be condensed into water vapor and water drops, and visual demands of consumers are affected. Particularly when the bleeder vent sets up in close to the last blind end of sound insulation intermediate layer, because hot air, hot steam rise, the cold air descends, can realize that the steam in the sound insulation intermediate layer is better discharges through the bleeder vent, and can not stay in the sound insulation intermediate layer.

In addition, the handle is positioned at the outer side of the air hole, and the handle is provided with a hollow cavity, so that the air hole can be hidden, the air hole is not exposed at the outer side of the cup body, and external cleaning water or other foreign matters can be effectively prevented from entering the sound insulation interlayer. In addition, even if cleaning water or foreign matters do not enter the hollow cavity of the handle, the cleaning water or the foreign matters can only accumulate in the hollow cavity, and cannot enter the sound insulation interlayer directly through the air holes, so that the problem that foreign matters in the sound insulation interlayer cannot be removed is effectively solved, and the maintainability of the food processor is greatly improved. In this embodiment, be used for setting up the exchange mouth that cavity and external intercommunication on the gripping portion of handle, abluent in-process, when the people held the gripping portion, can prevent that the drop of water that splashes from entering into the cavity through the exchange mouth in, the cavity in the handle is the bending state moreover, has also further restricted outside foreign matter and has entered into the sound insulation intermediate layer through the bleeder vent.

It should be noted that, in this embodiment, the ventilation holes are closer to the upper sealed end of the sound insulation interlayer to better discharge hot air and hot steam, so as to avoid condensation into water vapor and water drops. Of course, for the present embodiment, the preferred arrangement of the vent holes is such that the distance between the vent holes and the upper closed end is no greater than 10mm. In order to efficiently realize convection between air in the sound insulation interlayer and the outside, a certain relationship exists between the area size S1 of the air holes and the volume size V1 in the sound insulation interlayer. The present inventors have found through studies that when S1/V1 is less than 0.1mm ² In the process of pulping and heating, the air and water vapor in the sound insulation interlayer are difficult to discharge, the pressure in the sound insulation interlayer is obviously increased, and the air holes are difficult to play a role in balancing the pressure. Moreover, after the steam is condensed, more water vapor and water drops still gather on the inner wall of the sound insulation interlayer, so that the perspective observation of consumers is influenced. And when S1/V1 is greater than1.4mm ² When/ml, in the process of pulping suspension, the outside moist air can entrain more moisture to enter the sound insulation interlayer through the air holes, so that the perspective monitoring of the next pulping consumers is affected. Therefore, for the present embodiment, S1/V1 is required to be limited to 0.1mm ² /ml～1.4mm ² In ml, the preferred value of this example is 0.5 to 1. Based on this, for the present embodiment, the area S1 of the ventilation holes is selected to be 10 to 140mm ² 。

It should be noted that, the mounting structure of the inner cup and the outer shell is not limited to the solution disclosed in this embodiment. For example, the inner side wall of the shell is provided with an inward annular pressing edge, the inner cup is installed in the lower end opening of the shell, and the cup opening of the inner cup is in sealing fit with the lower end face of the annular pressing edge. Or, the cup mouth of the inner cup is provided with an outward annular flanging, the inner cup is installed in the upper end opening of the shell, and the annular flanging is lapped on the cup mouth of the shell and is in sealing fit with the cup mouth of the shell. Also, with the present embodiment, the fixed relationship of the handle and the housing is not limited to the solution disclosed in the present embodiment. The handle and the shell can be integrally formed, or the handle base body and the shell can be integrally formed. Of course, the structure for hiding the ventilation holes in the present embodiment is not limited to the handle, and may be other components with the function of shielding the ventilation holes. It should be noted that, in this embodiment, the exchange port and the ventilation hole are preferably arranged in a staggered manner, and the main purpose is to prevent water or other foreign matters from entering the sound insulation interlayer through the ventilation hole when the cup body is cleaned. Of course, the water blocking rib in this embodiment is also used for blocking water, so as to prevent external water or condensed water in the hollow cavity from entering the sound insulation interlayer through the air holes along the outer side wall of the shell. If the side wall of the shell is provided with a convex column which protrudes outwards and stretches into the hollow cavity, and the ventilation holes penetrate through the convex column, the convex column also has a water retaining effect.

In addition, in this embodiment, the inner cup includes a glass cylinder penetrating up and down and a metal disc mounted in the opening at the lower end of the glass cylinder in a sealing manner, the sound insulation interlayer is formed between the glass cylinder and the outer shell, and the heating device is arranged on the metal disc. Of course, the inner cup may also be a glass having a bottom wall of the container, in which case the heating means may be a heating film or tube provided on the glass. In this embodiment, the ventilation holes are not limited to circular holes, square holes, rectangular holes, and the like, but may be bar-shaped holes provided along the handle direction.

It should be noted that the above structural changes and parameter selection of the present embodiment may also be applied to other embodiments of the present utility model.

Embodiment two:

fig. 3 is a schematic structural view of a second embodiment of the present utility model. The first difference between this embodiment and the second embodiment is that: in this embodiment, a protruding post 53 protruding into the hollow cavity 50 of the handle 5 is disposed at the outer side of the side wall of the housing 12, and the ventilation hole 120 penetrates through the post 53, the upper end of the handle 5 is hooked on the cup edge of the inner cup 11, and the lower end is detachably fixed together with respect to the housing 12, where a connection part between the handle 5 and the housing 12 is provided with a communication port 6, and the communication port 6 communicates the hollow cavity 50 of the handle 5 with the installation cavity 100 for installing the heating device 3, and the communication port 6 is located above the heating device 3. The lower end of the handle 5 is also provided with an exchange port 510 communicating with the outside.

In the pulping process of the food processor with the sound insulation interlayer, after the hot air in the sound insulation interlayer is discharged to the hollow cavity of the handle, water vapor entrained in the hot air can condense water drops when encountering the cold hollow cavity, and in the cleaning process, a small amount of cleaning water can permeate into the hollow cavity of the handle, so that the moisture in the hollow cavity of the handle is heavier, and mold and bacteria are easy to grow. And the hollow cavity and the sound insulation interlayer form a communication structure through the air holes, when the pulping end sound insulation interlayer is cooled, moist air in the hollow cavity can reversely flow into the sound insulation interlayer, so that when the next food processor makes pulp, the air in the sound insulation interlayer is water mist or atomized due to temperature rise, and visual monitoring of consumers is not facilitated. The hollow cavity is communicated with the installation cavity provided with the heating device, the heat generated by the operation of the heating device can be led into the hollow cavity through the installation cavity when the food processor heats pulping, and moist air in the hollow cavity is heated and dried, so that external water or water vapor is effectively prevented from entering the sound insulation interlayer. Wherein, the communication port is located heating device's top, more is favorable to the heat to introduce, carries out the stoving effect of cavity better.

Meanwhile, in the embodiment, since the exchange port is provided at the lower end of the handle, even if water drops are condensed in the hollow cavity of the handle or external cleaning water enters the hollow cavity, the outside of the handle can be discharged through the exchange port provided at the bottom.

The above structural changes of the present embodiment may be applied to other embodiments of the present utility model.

Embodiment III:

fig. 4 is a schematic structural view of a third embodiment of the present utility model. The present embodiment is different from the above embodiment in that: in this embodiment, the housing includes an upper casing 121 sleeved on the outer side of the inner cup 11 and a lower casing 122 located below the upper casing 121, and the installation cavity 100 is formed by enclosing the lower casing 122 and the inner cup 11, where the sound insulation interlayer 10 is formed between the upper casing 121 and the inner cup 11, and the upper and lower ends of the upper casing 121 are in sealing fit with the inner cup 11. The upper case 121 is made of a transparent material, and the lower case 122 is made of a non-transparent material. The lower end of the handle 5 is fixed on the lower shell 122, and a communication port 6 for communicating the installation cavity 100 with the hollow cavity 50 of the handle 5 is arranged at the joint of the lower shell 122 and the handle 5.

In this embodiment, the ventilation holes 120 include an upper ventilation hole 1201 provided adjacent to the upper airtight end of the sound insulation interlayer 10 and a lower ventilation hole 1202 provided adjacent to the lower airtight end of the sound insulation interlayer 10, and both the upper ventilation hole 1201 and the lower ventilation hole 1202 are communicated with the hollow cavity 50.

For the present embodiment, the same advantages as those of the above embodiment are provided, and will not be described herein. It should be noted that, in this embodiment, because the cavity communicates with the installation cavity, the heat that produces in the heating device working process can be introduced into the cavity for the air temperature in the cavity rises, and simultaneously, cavity and sound insulation intermediate layer intercommunication, according to the principle that hot air risees, the cold air descends, the heated hot air in the cavity can get into in the sound insulation intermediate layer from the bleeder vent down, the bleeder vent flows on the rethread, thereby realized the convection current of the interior air of sound insulation intermediate layer, guaranteed that there is not the production of water smoke in the sound insulation intermediate layer. Of course, for the embodiment, the upper end of the handle may be detachably fixed to the upper housing or integrally formed with the upper housing; in addition, for the present embodiment, a mounting bracket may be disposed in the mounting cavity, and the lower end of the handle directly penetrates through the lower housing and is fixedly connected with the mounting bracket, and the mounting bracket may be a heating plate, a heat insulation bracket for isolating the heating device from the motor, or a motor bracket for mounting the motor, and for the component disposed in the mounting cavity and capable of fixing the handle, the present embodiment is applicable.

For the embodiment, the sound insulation interlayer can also be formed by enclosing an inner cup, an upper shell and a lower shell together, and the upper shell and the upper part of the inner cup are in sealing fit to form an upper closed end of the sound insulation interlayer; and the lower shell is in sealing fit with the lower part of the inner cup to form a lower sealed end of the sound insulation interlayer. Of course, the arrangement of the ventilation holes is not limited to the scheme disclosed in the embodiment, for example, the ventilation holes are arranged at the connection position of the upper shell and the lower shell; or the air holes are connecting joints formed by the upper shell and the lower shell. In order to prevent external water vapor from entering the sound insulation interlayer through the connecting seam between the upper shell and the lower shell, a sealing piece can be arranged between the upper shell and the lower shell, and the sound insulation interlayer is communicated with the hollow cavity through the connecting seam on one side of the handle.

In addition, for the food processor of the utility model, the motor can be of an upper structure or a lower structure, and the motor and the cup body can also adopt a coupling structure, such as a broken food processor. Meanwhile, the food processor of the utility model can also be a food processor which does not need to be washed by hands.

It will be appreciated by persons skilled in the art that the present utility model includes, but is not limited to, the accompanying drawings and what has been described in the foregoing detailed description. Any modifications which do not depart from the functional and structural principles of the present utility model are intended to be included within the scope of the appended claims.

Claims (10)

1. The utility model provides a visual food processing machine, includes cup subassembly and sets up the reducing mechanism in the cup subassembly, its characterized in that: the cup body assembly comprises an inner cup, a shell covered on the outer side of the inner cup, a heating device arranged at the bottom of the inner cup and a handle arranged on the outer side of the shell and provided with a hollow cavity, wherein the inner cup and the shell can be seen through, a sound insulation interlayer with two closed ends is formed between the inner cup and the shell, a through ventilation hole is formed in the side wall of the shell, the handle cover is arranged on the outer side of the ventilation hole and conceals the ventilation hole, the hollow cavity is communicated with the sound insulation interlayer through the ventilation hole, the heating device is positioned in an installation cavity formed by the shell, and the hollow cavity of the handle is communicated with the installation cavity.

2. The visual food processor of claim 1 wherein: the hollow cavity and the mounting cavity are provided with a communication port, and the communication port is positioned above the heating device.

3. The visual food processor of claim 1 wherein: the air holes are strip-shaped openings arranged on the shell;

or the air holes comprise an upper air hole close to the upper sealed end of the sound insulation interlayer and a lower air hole close to the lower sealed end of the sound insulation interlayer, and the upper air hole and the lower air hole are communicated with the hollow cavity.

4. The visual food processor of claim 1 wherein: the shell comprises an upper shell sleeved on the outer side of the inner cup and a lower shell positioned below the upper shell, and the mounting cavity is formed by the lower shell.

5. The visual food processor of claim 4 wherein: the sound insulation interlayer is formed between the upper shell and the inner cup, and the upper end and the lower end of the upper shell are in sealing fit with the inner cup;

or the sound insulation interlayer is formed by enclosing an inner cup, an upper shell and a lower shell, wherein the upper shell is in sealing fit with the upper part of the inner cup to form an upper closed end of the sound insulation interlayer, and the lower shell is in sealing fit with the lower part of the inner cup to form a lower closed end of the sound insulation interlayer;

or the air holes are formed at the joint of the upper shell and the lower shell;

or the upper shell is in sealing connection with the lower shell;

or the lower end of the handle is fixed on the lower shell, and a connecting port for communicating the mounting cavity with the hollow cavity is formed at the joint of the lower shell and the handle;

or, a mounting bracket is arranged in the lower shell, and the lower end of the handle is fixed on the mounting bracket;

or the upper end of the handle and the upper shell are detachably fixed or integrally formed.

6. The visual food processor of claim 1 wherein: the inner cup comprises a glass cylinder penetrating up and down and a metal disc arranged at the lower end of the glass cylinder in a sealing way, the sound insulation interlayer is formed between the glass cylinder and the shell, and the heating device is arranged on the metal disc;

or the inner cup is a glass cup, and the heating device is a heating film or a heating pipe.

7. The visual food processor of claim 1 wherein: the upper end of the handle is hooked on the cup edge of the inner cup, and the lower end of the handle and the shell are detachably fixed or integrally formed.

8. The visual food processor of claim 1 wherein: the side wall of the shell is provided with a convex column protruding outwards, and the ventilation holes penetrate through the convex column;

or, be located the top of bleeder vent, be provided with the water retaining muscle of outwards protruding on the lateral wall of shell.

9. The visual food processor of claim 1 wherein: the inner cup comprises an upper cup body and a lower cup body, the lower cup body is contracted inwards relative to the upper cup body, the upper cup body is connected with the lower cup body through a step, the outer shell is covered on the outer side of the lower cup body, and the cup mouth of the outer shell is matched with the step in a sealing way;

or the inner side wall of the shell is provided with an inward annular pressing edge, the inner cup is installed in the lower end opening of the shell, and the cup mouth of the inner cup is in sealing fit with the lower end face of the annular pressing edge;

or, the cup mouth of the inner cup is provided with an outward annular flanging, the inner cup is installed in the upper end opening of the shell, and the annular flanging is lapped on the cup mouth of the shell and is in sealing fit with the cup mouth of the shell.

10. The visual food processor of claim 1 wherein: the handle is provided with an exchange hole communicated with the outside.