CN213992328U - Food processor - Google Patents

Abstract

The utility model provides a food processor, include: the gas generating device comprises a body and a gas generating assembly, wherein the body is provided with a containing part; the gas generating assembly is arranged on the body and used for introducing specified gas into the accommodating part so as to discharge oxygen in the accommodating part. After the appointed gas is introduced, most of oxygen in the containing part can be discharged from the containing part, so that no oxygen or a small amount of oxygen exists in the containing part, and the food material is not easily oxidized in the environment of a small amount of oxygen, so that the taste of the food material can be improved.

Description

Food processor

Technical Field

The utility model belongs to the technical field of food processing equipment, particularly, relate to a food processor.

Background

When the food processor processes and treats food materials, when the processing and treating time is long, part of the food materials are oxidized, and the taste of the food materials is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art or the correlation technique.

In view of this, the utility model provides a food processor, include: a body formed with an accommodating part; the gas generating assembly is arranged on the body and used for introducing specified gas into the accommodating part so as to discharge oxygen in the accommodating part.

The utility model provides a food processor includes: the body and the gas generation assembly, the gas generation assembly can introduce designated gas into the containing part, the designated gas can be gas with density larger than that of air, after the designated gas is introduced into the container, the designated gas descends in the container due to the large density, and oxygen rises in the containing part and is gradually discharged out of the container. Alternatively, the predetermined gas may be a gas that is not miscible with oxygen, and when the predetermined gas is introduced into the housing at a high speed, the predetermined gas can push the oxygen in the housing out of the housing. In a word, let in appointed gaseous back, most oxygen in the portion of accomodating can be discharged the portion of accomodating to make and not have oxygen or have a small amount of oxygen in the portion of accomodating, eat the material under the environment of a small amount of oxygen, difficult emergence oxidation, so need not consider that the processing of eating the material is long, can improve the treatment effect to eating the material through increasing to eating the processing of material and handling time, because eat the material is difficult to take place the oxidation, thereby can improve the taste of eating the material.

In addition, because a small amount of oxygen exists in the accommodating part, bacteria are not easy to survive in the container, so that the edible safety of food materials can be improved, and the use experience of a user on the food processor is improved.

In addition, according to the utility model provides a food processor among the above-mentioned technical scheme can also have following additional technical characterstic:

in one possible design, the gas generating assembly includes: the gas generating piece is arranged on the body and provided with a gas outlet; and the first end of the gas pipe is connected to the gas outlet, and the second end of the gas pipe is used for introducing specified gas into the accommodating part.

In this design, the gas outlet of gas generation piece can discharge appointed gas, and gas outlet exhaust appointed gas passes through the gas-supply pipe and discharges in to the holding portion, because the occupation space of gas-supply pipe is less, so set up near the holding portion the gas-supply pipe and be difficult for producing the influence to the work of food processing assembly, rationally carry out rational arrangement to the mounted position of each part in the food processor. Moreover, the gas generating piece can be arranged at a position which is not easy to influence other parts, and then the specified gas is conveyed through the gas conveying pipe, so that the space utilization rate in the food processor is improved.

In one possible design, the food processor further comprises: the container can be placed in the body, and the container is located in the accommodating part.

In this design, be used for holding edible material in the container, the food processing subassembly among the food processor can handle the edible material in the container. After the food processor processes the food material, the user needs to take the container out of the body, so that the food material in the container can be taken out conveniently. The container can hold the edible material, avoids the condition of edible material spill to take place, reduces the user to the clearance work load of food processor.

In one possible design, the gas delivery conduit extends partially into the container.

In this design, specifically limited the relative position of gas-supply pipe and container, specifically, the second end of gas-supply pipe is located the container, can directly discharge to the container in through gas-supply pipe exhaust appointed gas, and gas-supply pipe exhaust appointed gas is difficult for leaking outside the container, avoids causing the waste to appointed gas. The utilization rate of the designated gas is improved. In addition, because the gas transmission pipe part stretches into the container, the specified gas can rapidly discharge oxygen out of the container, the oxygen discharge speed is increased, the oxidation speed of the food material is reduced, and the improvement of the taste of the food material is facilitated.

In one possible design, the food processor further comprises: the electromagnetic valve is arranged on the gas transmission pipe.

In this design, set up the solenoid valve on the gas-supply pipe, the gas transmission passageway of gas-supply pipe can be opened or close to the solenoid valve, and the user can be according to the use needs switch or close the gas-supply pipe, avoids causing the waste to appointed gas. The electromagnetic valve can also adjust the cross-sectional area of the gas transmission channel of the gas transmission pipe, so that the discharge speed of the specified gas is adjusted, and the specified gas is reasonably used.

In one possible design, the food processor further comprises: the pressure reducing valve is arranged on the gas transmission pipe and is positioned between the gas generating piece and the electromagnetic valve.

In the design, the air source can provide compressed air with high pressure, and a pressure reducing valve is arranged between the air generating part and the electromagnetic valve to reduce the air pressure and ensure the working stability of the food processor in order to avoid damaging the electromagnetic valve.

In one possible design, the gas generant piece includes: the gas storage tank is used for storing specified gas and is provided with a gas outlet.

In this design, the gas holder can save appointed gas, and the gas in the gas holder passes through the gas-supply pipe and discharges to the container to the oxygen in the discharge container reduces the oxidation rate of eating the material. The air storage tank can be replaced by storing the air storage tank. After appointed gas in the gas holder is used up, can change the gas holder, will be full of the gas holder and the gas-supply pipe of appointed gas and be connected to can use the gas holder in succession, store appointed gas through the gas holder, can improve the convenience in utilization to appointed gas.

In one possible design, the food processor further comprises: the valve body is arranged on the gas storage tank and used for opening and closing the gas outlet.

In this design, the valve body can open or close the gas outlet on the gas holder, and after appointed gas in the gas holder was used up, the user need change the gas holder, when changing new gas holder, can close the valve body earlier, avoids appointed gaseous emergence to leak, after being connected to the gas-supply pipe with new gas holder, opens the valve body again for appointed gas in the gas holder passes through the gas-supply pipe and discharges to the container in, thereby oxygen in the discharge container reduces the oxidation rate of eating the material.

In one possible design, the food processor further comprises: the installation department locates the body, and the gas holder can set up in the installation department.

In this design, the gas holder can be placed in the installation department, and the body can hold the gas holder promptly, and the gas holder is difficult for revealing in the body, uses the body to protect the gas holder, avoids the gas holder to take place to damage. In addition, the air storage tank can be accommodated in the body, so that the food processor is of an integral structure, when a user moves the food processor, the user does not need to move the air storage tank alone but only needs to move the body, and the use convenience of the user on the food processor is improved.

In one possible design, the gas generating assembly further comprises: the gas inlet is arranged on the gas generating piece; the gas generating cavity is arranged on the gas generating piece, the gas inlet is communicated with the gas generating cavity, and the gas generating cavity is used for generating specified gas.

In this design, the air can get into the gas generation chamber through the air inlet, and the gas generation chamber can be handled the air to separating the appointed gas in the air, the appointed gas of separation discharges to the container in through the gas-supply pipe, thereby the oxygen in the discharge container reduces the oxidation rate of eating the material. Through setting up the gas generation chamber, food processor self can produce appointed gas to need not set up the gaseous gas holder of storage alone, save the change time of user to the gas holder, the user can use appointed gas at any time, improves the user to food processor's convenience of use.

In one possible design, the designated gas includes any one or combination of the following: carbon dioxide, nitrogen, xenon, and krypton.

In the design, the carbon dioxide, the nitrogen, the xenon and the krypton are colorless and odorless gases and have no toxicity, and the carbon dioxide, the nitrogen, the xenon and the krypton are taken as specified gases and are discharged into the container, so that the taste and the edible safety of the food materials are not easily influenced.

Specifically, under normal temperature and pressure, the density of carbon dioxide, xenon and krypton is higher than that of oxygen, and after the carbon dioxide, xenon and krypton are discharged into the container, the carbon dioxide, xenon and krypton can descend in the container, and the oxygen rises in the container, so that the oxygen in the goose container is gradually discharged, and the oxidation speed of the food material is reduced.

The specified gas can be stored in a gas storage tank by using nitrogen as the specified gas, wherein the nitrogen can be compressed gas, the density of the nitrogen is lower than that of oxygen under normal temperature and normal pressure, but the density of the compressed nitrogen can be higher than that of the oxygen, so that the compressed nitrogen discharged from the gas storage tank can descend in a container, the oxygen in the container ascends and is gradually discharged out of the container, and the oxidation speed of the food material is reduced. The nitrogen is more and higher in content in the air, so that the nitrogen is more easily obtained.

Of course, in other embodiments, other non-toxic gases may be introduced into the container to vent the oxygen from the container.

In one possible design, the food processor further comprises: the cover body is arranged on the body and used for opening and closing the accommodating part.

In this design, the cover body can cover and establish the opening part at the portion of holding, and the container that will hold edible material places after in the portion of holding, can use the cover body to close the opening side of the portion of holding, when letting in appointed gas in to the container, because the cover body can shelter from the opening side of the portion of holding for appointed gas is difficult for taking place to leak, avoids causing the waste to appointed gas. Moreover, when the food processor is in operation, the hand of the user is difficult to stretch into the container through the opening side of the accommodating part, so that the problem that the user is injured due to the fact that the hand of the user stretches into the container by mistake can be effectively avoided, the safety of the user in the process of using the food processor is improved, after the food processor processes food materials, the opening side of the accommodating part can be opened through the cover body, and then the user can take out the container, and then the food materials in the container can be taken out.

In one possible design, the cover is removably attached to the body.

In this design, place the container that will contain the edible material in the portion of holding after, can install the cover body in the opening side of portion of holding, the cover body closes the opening side of portion of holding, because the cover body shelters from the opening side of portion of holding, appointed gaseous difficult emergence is leaked, avoids causing the waste to appointed gaseous. The hand of user is difficult for stretching into in the container through the opening side of portion of holding to can effectively avoid because the hand mistake of user stretches into in the container and cause the problem of injury to the user. After the food processor processes the food materials, the cover body is detached from the body, so that a user can take out the container containing the food materials conveniently. After the cover body is detached from the body, the cover body can not shield the opening of the accommodating part, so that a user can conveniently hold the container in the accommodating part at various angles, and the convenience of taking and placing the container by the user is improved.

In one possible design, the cover is pivotally connected to the body.

In this design, place the container that will contain the edible material in the portion of holding after, can rotate the cover body by the body relatively for the cover body closes the opening side of the portion of holding, because the cover body shelters from the opening side of the portion of holding, appointed gaseous difficult emergence is leaked, avoids causing the waste to appointed gaseous. The hand of user is difficult for stretching into in the container through the opening side of portion of holding to can effectively avoid because the hand mistake of user stretches into in the container and cause the problem of injury to the user. After the food processor processes the edible material, the cover body is rotated relative to the body, the cover body can open the opening side of the accommodating part, and then a user can take out the container containing the edible material conveniently. The cover body rotates the mode convenience of being connected user to open or close the opening side of portion of holding with the body, improves the convenience to cover body drive process, moreover, because the cover body can rotate to be connected in the body, so the cover body is difficult for the body to appear the separation to avoid the cover body to drop and take place in the condition of body, be favorable to improving the user and experience the use of food processor.

In one possible design, the food processor further comprises: the driving assembly is arranged on the body; the food processing assembly is connected with the driving assembly and can move relative to the body under the driving of the driving assembly.

In this design, drive assembly can drive the motion of food processing assembly for food processing assembly can process and handle the edible material in the container, when food processing assembly processes and handles edible material, the opening side of holding portion is closed to the cover body, and appointed gas is difficult for taking place to leak, avoids causing the waste to appointed gas, when food processing assembly is to edible material processing and processing completion, opens the opening side of holding portion through the cover body, and the user can take out the container, and takes out edible material in the container.

In one possible design, the food processing assembly is a hammering assembly that is capable of extending into or out of the container upon actuation of the drive assembly.

In this design, the beating assembly can beat the food material under drive of drive assembly for the food material is processed into food material pieces by the beating assembly.

In one possible design, the food processing assembly includes: the connecting rod is connected with the driving component; the hammer body is arranged on the connecting rod.

In this design, drive assembly sets up in the body, and in order to avoid drive assembly and container to produce the interference, drive assembly sets up in the top of container, so beat the subassembly and need with the transmission assembly transmission cooperation above the container, if beat the whole body that is of subassembly, just cause the material of beating the body more, and because the weight of beating the body is great, lead to the complete machine weight of food processor great. So in order to rationally realize beating subassembly and drive assembly's assembly, set up the connecting rod on beating the body, connecting rod and drive assembly cooperation, the weight of connecting rod is lighter, can extend to the connecting rod and be suitable for and carry out the complex position with drive assembly, is favorable to rationally adjusting the mounted position of body inner part.

In one possible embodiment, the hammer body is detachably connected to the connecting rod.

In this design, different beating forces may be required when beating different food materials, whereas the weight of the beating body enables the beating force of the food material as the beating assembly beats the food material by free fall. Set up to beat the body and can dismantle and connect in the connecting rod, when needing to beat the body and change, can dismantle the body of will beating in the connecting rod, and need not change whole subassembly of beating, improve the convenience of changing the body process of beating. In addition, when the worn hammer body needs to be replaced, the worn hammer body can be detached from the connecting rod, and the replaced hammer body can be mounted on the connecting rod.

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

Drawings

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

fig. 1 shows one of the schematic structural views of a food processor of an embodiment of the present invention;

fig. 2 shows a second schematic structural view of a food processor according to an embodiment of the present invention;

fig. 3 shows a third schematic structural view of the food processor according to the embodiment of the present invention;

fig. 4 shows a fourth schematic structural view of the food processor of the embodiment of the present invention;

fig. 5 shows a fifth schematic structural view of a food processor according to an embodiment of the present invention;

fig. 6 shows a sixth schematic view of the food processor according to the embodiment of the present invention;

fig. 7 shows a seventh schematic structural view of a food processor of an embodiment of the present invention;

fig. 8 shows an eighth schematic structural view of a food processor according to an embodiment of the present invention;

wherein, the correspondence between the reference numbers and the component names in fig. 1 to 8 is:

100 a body, 110 a mounting part, 120 a containing part, 200 a container, 300 a gas generating component, 310 a gas generating component, 320 a gas conveying pipe, 330 an electromagnetic valve, 400 a cover body, 500 a driving component, 510 a driving component, 520 a speed reducer, 530 a transmission shaft, 540 a gear, 550 a rack, 560 a bearing, 600 a food processing component, 610 a connecting rod and 620 a hammer body.

Detailed Description

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

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

A food processor provided in accordance with some embodiments of the present invention is described below with reference to fig. 1-8.

The first embodiment is as follows:

referring to fig. 1, 2 and 3, an embodiment of the present invention provides a food processor, including: a body 100 and a gas generating assembly 300, the body 100 being formed with a receiving portion 120; the gas generating assembly 300 is disposed on the body 100, and the gas generating assembly 300 is used for introducing a predetermined gas into the container 200 to discharge oxygen in the container 200.

The gas generating module 300 may be configured to introduce a predetermined gas into the housing 120, wherein the predetermined gas may be a gas having a density greater than that of air, and after the predetermined gas is introduced into the housing 120, the predetermined gas may descend in the housing 120 due to the high density, and oxygen may ascend in the housing 120 and may be gradually discharged out of the housing 120. Alternatively, the predetermined gas may be a gas that is not miscible with oxygen, and when the predetermined gas is introduced into the housing unit 120 at a high speed, the predetermined gas can push the oxygen in the housing unit 120 out of the housing unit 120. In a word, after the designated gas is introduced, most of the oxygen of the container 200 can be discharged out of the accommodating part 120, so that no oxygen or a small amount of oxygen exists in the accommodating part 120, and the food is not easily oxidized in a small amount of oxygen environment, so that the processing time of the food is not required to be considered, the processing effect on the food can be improved by increasing the processing time and the processing time of the food, and the taste of the food can be improved because the food is not easily oxidized.

In addition, since a small amount of oxygen exists in the accommodating part 120, bacteria are not easy to survive in the container 200, so that the edible safety of food materials can be improved, and the use experience of a user on the food processor can be improved.

As shown in fig. 4 and 5, further, the gas generating assembly 300 includes: the gas generating piece 310 is arranged on the body 100, and the gas generating piece 310 is provided with a gas outlet; the first end of the gas pipe 320 is connected to the gas outlet, and the second end of the gas pipe 320 is used for introducing the designated gas into the accommodating part 120.

The gas outlet of the gas generating piece 310 can discharge specified gas, the specified gas discharged from the gas outlet is discharged into the accommodating part 120 through the gas conveying pipe 320, and the gas conveying pipe 320 is arranged near the accommodating part 120 to avoid influencing the operation of the food processing assembly 600 due to the fact that the occupied space of the gas conveying pipe 320 is small, and the installation positions of all parts in the food processor are reasonably arranged. Moreover, the gas generating member 310 can be arranged at a position where other components are not easily affected, and then the specified gas is conveyed through the gas conveying pipe 320, so that the space utilization rate in the food processor is improved.

Further, the food processor further comprises: the container 200 can be placed in the body 100, and the container 200 is located in the accommodating portion 120.

The container 200 is used for containing food materials, and the food processing assembly 600 in the food processor can process the food materials in the container 200. After the food processor processes the food material, the user needs to take the container 200 out of the body 100, so that the food material in the container 200 can be taken out conveniently. The container 200 can accommodate food materials, so that the situation that the food materials are splashed out is avoided, and the cleaning workload of a user on the food processor is reduced.

Further, as shown in FIGS. 4 and 5, the gas delivery conduit 320 extends partially into the container 200.

The relative position of the gas conveying pipe 320 and the container 200 is particularly limited, specifically, the second end of the gas conveying pipe 320 is located in the container 200, the specified gas exhausted through the gas conveying pipe 320 can be directly discharged into the container 200, the specified gas exhausted through the gas conveying pipe 320 is not easy to leak out of the container 200, and waste of the specified gas is avoided. The utilization rate of the designated gas is improved. In addition, because the gas pipe 320 partially stretches into the container 200, the specified gas can rapidly discharge oxygen out of the container 200, so that the discharge speed of the oxygen is increased, the oxidation speed of the food material is further reduced, and the taste of the food material is improved.

Example two:

with reference to fig. 4 and 5, on the basis of the first embodiment, the food processor further includes: the electromagnetic valve 330, the electromagnetic valve 330 is arranged on the air delivery pipe 320.

The electromagnetic valve 330 is arranged on the gas conveying pipe 320, the electromagnetic valve 330 can open or close the gas conveying channel of the gas conveying pipe 320, and a user can open or close the gas conveying pipe 320 according to use requirements, so that waste of specified gas is avoided. The electromagnetic valve 330 can also adjust the cross-sectional area of the gas transmission passage of the gas transmission pipe 320, so as to adjust the discharge speed of the designated gas and reasonably use the designated gas.

Further, the food processor further comprises: and a pressure reducing valve provided in the gas delivery pipe 320, the pressure reducing valve being located between the gas generating member 310 and the solenoid valve 330.

The gas source may provide compressed gas with a high pressure, and in order to avoid damage to the solenoid valve 330, a pressure reducing valve is disposed between the gas generating member 310 and the solenoid valve 330 to reduce the gas pressure and ensure the operation stability of the food processor.

Example three:

in the above embodiment, as shown in fig. 4 and 5, the gas generating member 310 includes: the gas holder, the gas holder is used for storing appointed gas, and the gas holder is equipped with the gas outlet.

In this embodiment, the gas container can store a predetermined gas, and the gas in the gas container is discharged to the container 200 through the gas pipe 320, so that oxygen in the container 200 is discharged, and the oxidation rate of the food material is reduced. The air storage tank can be replaced by storing the air storage tank. After appointed gas in the gas holder is used up, can change the gas holder, will be full of the gas holder of appointed gas and be connected with gas-supply pipe 320 to can use the gas holder in succession, store appointed gas through the gas holder, can improve the convenience in utilization to appointed gas.

Further, the food processor further comprises: the valve body is arranged on the gas storage tank and used for opening and closing the gas outlet.

The valve body can open or close the gas outlet on the gas holder, and after appointed gas in the gas holder was used up, the user need change the gas holder, when changing new gas holder, can close the valve body earlier, avoids appointed gas to take place to leak, after being connected to gas pipe 320 with new gas holder, opens the valve body again for appointed gas in the gas holder passes through gas pipe 320 and discharges to in the container 200, thereby the oxygen in the discharge container 200 reduces the oxidation rate of eating the material.

As shown in fig. 4 and 5, further, the food processor further includes: the mounting portion 110 is provided in the main body 100, and the air tank can be disposed in the mounting portion 110.

The gas holder can be placed in installation department 110, and body 100 can hold the gas holder promptly, and the gas holder is difficult for revealing in body 100, uses body 100 to protect the gas holder, avoids the gas holder to take place to damage. Moreover, since the gas tank can be accommodated in the body 100, the food processor has an integral structure, and a user does not need to move the gas tank alone but only needs to move the body 100 when moving the food processor, thereby improving the convenience of the user in using the food processor.

Example four:

in the above embodiment, the gas generating assembly 300 further includes: the gas inlet is arranged on the gas generating piece 310; the gas generating cavity is arranged on the gas generating piece 310, the gas inlet is communicated with the gas generating cavity, and the gas generating cavity is used for generating specified gas.

In this embodiment, air can enter the gas generation chamber through the air inlet, and the gas generation chamber can process the air to thereby separate the specified gas in the air, and the separated specified gas is discharged into the container 200 through the gas pipe 320, thereby discharging oxygen in the container 200 and reducing the oxidation rate of the food material. Through setting up the gas generation chamber, food processor self can produce appointed gas to need not set up the gaseous gas holder of storage alone, save the change time of user to the gas holder, the user can use appointed gas at any time, improves the user to food processor's convenience of use.

Example five:

in the above embodiments, the specified gas includes any one or combination of: carbon dioxide, nitrogen, xenon, and krypton.

Carbon dioxide, nitrogen, xenon and krypton are colorless and odorless gases and have no toxicity, and carbon dioxide, nitrogen, xenon and krypton are used as specified gases and discharged into the container 200, so that the taste and the edible safety of the food materials are not easily affected.

Specifically, under normal temperature and pressure, the density of carbon dioxide, xenon, and krypton is higher than that of oxygen, and after carbon dioxide, xenon, and krypton are discharged into the container 200, carbon dioxide, xenon, and krypton can be lowered in the container 200, and oxygen rises in the container 200, so that oxygen in the goose container 200 is gradually discharged, and the oxidation rate of the food material is reduced.

The designated gas may be stored in a gas tank, wherein the gas tank may store compressed gas, and the density of the nitrogen gas may be lower than that of the oxygen gas at normal temperature and normal pressure, but the density of the compressed nitrogen gas may be higher than that of the oxygen gas, so that the compressed nitrogen gas discharged from the gas tank may descend in the container 200, and the oxygen gas in the container 200 may ascend and gradually discharge from the container 200, thereby reducing the oxidation rate of the food material. The nitrogen is more and higher in content in the air, so that the nitrogen is more easily obtained.

Of course, in other embodiments, other non-toxic gases may be introduced into the container 200 to expel oxygen from the container 200.

Example six:

as shown in fig. 6, 7 and 8, in the above embodiment, the food processor further includes: and a cover 400, wherein the cover 400 is disposed on the body 100, and the cover 400 is used for opening and closing the accommodating part 120.

In this embodiment, the cover body 400 can cover the opening of the accommodating portion 120, and after the container 200 containing food materials is placed in the accommodating portion 120, the opening side of the accommodating portion 120 can be closed by using the cover body 400, and when the specified gas is introduced into the container 200, the opening side of the accommodating portion 120 can be shielded by the cover body 400, so that the specified gas is not easy to leak, and waste of the specified gas is avoided. Moreover, when the food processor is in operation, the hand of the user is difficult to stretch into the container 200 through the opening side of the accommodating part 120, so that the problem that the user is injured due to the fact that the hand of the user stretches into the container 200 by mistake can be effectively avoided, the safety of the user in the process of using the food processor is improved, after the food processor processes food materials, the opening side of the accommodating part 120 can be opened through the cover body 400, the user can take the container 200 out conveniently, and the food materials in the container 200 can be taken out.

In one embodiment, the cover 400 is removably attached to the body 100.

After the container 200 containing the food materials is placed in the accommodating part 120, the cover 400 can be installed on the opening side of the accommodating part 120, the cover 400 closes the opening side of the accommodating part 120, and the specified gas is not easy to leak due to the fact that the cover 400 shields the opening side of the accommodating part 120, and waste of the specified gas is avoided. The hand of the user is not easy to extend into the container 200 through the opening side of the accommodating part 120, so that the problem that the hand of the user is damaged due to the fact that the hand of the user extends into the container 200 by mistake can be effectively avoided. After the food processor processes the food material, the cover 400 is detached from the body 100, thereby facilitating the user to take out the container 200 containing the food material. After the cover 400 is detached from the body 100, the opening of the accommodating portion 120 is not blocked by the cover 400, so that the user can conveniently place the container 200 in the accommodating portion 120 at various angles, and the convenience of the user in taking and placing the container 200 is improved.

In another embodiment, the cover 400 is rotatably coupled to the body 100.

After the container 200 containing the food materials is placed in the accommodating part 120, the cover body 400 can be rotated relative to the body 100, so that the cover body 400 closes the opening side of the accommodating part 120, and the specified gas is not easy to leak because the cover body 400 shields the opening side of the accommodating part 120, and is prevented from causing waste. The hand of the user is not easy to extend into the container 200 through the opening side of the accommodating part 120, so that the problem that the hand of the user is damaged due to the fact that the hand of the user extends into the container 200 by mistake can be effectively avoided. After the food processor processes the food material, the cover 400 is rotated with respect to the body 100, and the cover 400 can open the opening side of the receiving portion 120, thereby facilitating the user to take out the container 200 containing the food material. The mode that cover body 400 and body 100 rotate to be connected convenience of customers opens or closes the opening side of portion of holding 120, improves the convenience to cover body 400 drive process, moreover, because cover body 400 can rotate to be connected in body 100, so cover body 400 is difficult for body 100 to appear the separation to avoid cover body 400 to drop in the condition emergence of body 100, be favorable to improving the user and experience the use of food processor.

Example seven:

in the above embodiment, as shown in fig. 1, 3 and 5, the food processor further includes: a driving assembly 500 and a food processing assembly 600, the driving assembly 500 is provided to the body 100; the food processing assembly 600 is coupled to the driving assembly 500, and the food processing assembly 600 can move relative to the body 100 by the driving assembly 500.

In this embodiment, the driving assembly 500 can drive the food processing assembly 600 to move, so that the food processing assembly 600 can process and process the food materials in the container 200, when the food processing assembly 600 processes and processes the food materials, the opening side of the accommodating part 120 is closed by the cover body 400, the specified gas is not easy to leak, waste of the specified gas is avoided, when the food processing assembly 600 processes and processes the food materials, the opening side of the accommodating part 120 is opened by the cover body 400, and the user can take out the container 200 and take out the food materials in the container 200.

Further, food processing assembly 600 is a hammering assembly that is capable of extending into or out of container 200 upon actuation of drive assembly 500.

The hammering assembly can hammer food materials under the driving of the driving assembly 500, so that the food materials are processed into food material chips by the hammering assembly.

As shown in conjunction with fig. 1, 3 and 5, further, the food processing assembly 600 includes: a connecting rod 610 and a hammer body 620, wherein the connecting rod 610 is connected with the driving assembly 500; the hammer body 620 is provided to the connecting rod 610.

Food processing assembly 600 is a hammering assembly, driving assembly 500 is disposed in body 100, and in order to avoid interference between driving assembly 500 and container 200, driving assembly 500 is disposed above container 200, so that the hammering assembly needs to be in transmission fit with a transmission assembly above container 200, if the whole hammering assembly is a hammering body 620, more material is used for hammering body 620, and the weight of hammering body 620 is larger, resulting in a larger overall weight of the food processor. Therefore, in order to reasonably realize the assembly of the hammering assembly and the driving assembly 500, the connecting rod 610 is arranged on the hammering body 620, the connecting rod 610 is matched with the driving assembly 500, the connecting rod 610 has light weight, and the connecting rod 610 can be extended to a position suitable for being matched with the driving assembly 500, so that the reasonable adjustment of the installation position of the components in the body 100 is facilitated.

Further, the hammer body 620 is detachably coupled to the connecting rod 610.

When hammering different food materials, different hammering forces may be required, and since the hammering assembly hammers the food materials by free fall, the weight of the hammer body 620 is able to do the hammering force on the food materials. Set up and beat the body 620 and can dismantle and connect in connecting rod 610, when needing to beat the body 620 and change, can dismantle in connecting rod 610 with beating the body 620, and need not change whole subassembly of beating, improve the convenience of beating the body 620 process of change. When the worn hammer member 620 needs to be replaced, the worn hammer member 620 may be detached from the connecting rod 610, and the replaced hammer member 620 may be attached to the connecting rod 610.

As shown in conjunction with fig. 1, 3 and 5, the driving assembly 500 includes: drive member 510, reducer 520, drive shaft 530, gear 540, bearing 560, and rack 550. The driving member 510 can be a motor, the decelerator 520 can be a deceleration gear 540, the gear 540 and a bearing 560 are sleeved on the transmission shaft 530, the bearing 560 is used for limiting the gear 540, and the rack 550 is connected to the hammering assembly.

The driving member 510 can drive the transmission shaft 530 to rotate, the gear 540 is sleeved on the transmission shaft 530, the rotating transmission shaft 530 can drive the gear 540 to rotate, the rack 550 is connected to the hammering assembly, and the extending direction of the rack 550 is the same as the extending direction of the hammering assembly. The gear 540 is engaged with the rack 550, and when the gear 540 rotates, the gear 540 can drive the rack 550 to ascend or descend, and the rack 550 can drive the hammering assembly to ascend or descend.

The gear 540 is provided with toothed and non-toothed portions. There may be a plurality of gears 540 and racks 550, so that a plurality of hammering assemblies can be driven, and any two gears 540 are fixed on the transmission shaft 530 in a staggered manner at a certain angle, so that the toothed parts and the non-toothed parts of different gears 540 are also staggered at a certain angle. When the first gear 540 drives the rack 550 to move upwards, the toothless part of the second gear 540 is opposite to the rack 550, the second rack 550 is not restrained by the gear 540 any more, the second rack 550 and the hammering assembly assembled thereon fall down due to gravity, so that a certain force is generated by the hammering assembly to act on the food material placed on the container 200, when the rotating shaft of the motor rotates for a certain angle, the toothed part of the gear 540 is opposite to the second rack 550, so that the second rack 550 and the hammering assembly assembled thereon can be lifted upwards, and the toothless part of the gear 540 is opposite to the first rack 550, so that the first rack 550 and the hammering assembly assembled thereon fall down due to gravity, so that a certain force is generated by the hammering assembly to act on the food material placed on the container 200, and the cycle is carried out, so that the gravitational potential energy of the hammering assembly is converted into internal energy, through multiple hammering, the food materials are gradually separated into smaller blocks.

Besides the above structure of motor + gear 540, the reciprocating mechanism can also be realized by a structure of motor + crank, motor + cam or cylinder, etc.

The specific embodiment is as follows:

as shown in fig. 1 to 8, the food processor comprises a driving assembly 500, at least one hammering assembly, a frame for supporting the driving assembly 500, at least one container 200, and at least one gas pipe 320 for introducing gas into the container 200.

The gas is a simple asphyxia gas, including but not limited to nitrogen, carbon dioxide, an inert gas, or a mixture of a plurality of the gases; so that the food material inside the container 200 is isolated from oxygen in the air.

The gas pipe 320 may be provided with an electromagnetic valve 330 for cutting off the pipeline or adjusting the gas flow in the pipeline.

The gas pipe 320 may further include a pressure reducing valve for reducing the pressure of the gas.

The food material processor can further comprise a gas source for providing the gas, the gas source can be a gas storage bottle containing the gas, and a valve is arranged on the gas storage bottle and used for closing or opening an outlet of the gas storage bottle to the outside.

The gas source may also be a generating device capable of generating the above-mentioned gas, in particular a device for extracting nitrogen using air as the gas source.

The food processor may further include a cover 400 disposed around the container 200 to prevent a large amount of gas inside the cover 400 from leaking to the outside, so that the amount of gas introduced into the container 200 may be minimized.

This embodiment is through letting in simple stifled gas around eating the material to keep apart the oxygen in eating material and the environment, thereby avoid eating the material on the one hand and beat the process by oxygen oxidation, on the other hand, also can reduce the reproductive rate of most microorganisms in eating the material by a wide margin, play fresh-keeping effect.

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

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

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

Claims (16)

1. A food processor, comprising:

a body formed with an accommodating part;

the gas generating assembly is arranged on the body and used for introducing specified gas into the accommodating part so as to discharge oxygen in the accommodating part.

2. The food processor of claim 1, wherein the gas generation assembly comprises:

the gas generating piece is arranged on the body and provided with a gas outlet;

and the first end of the gas pipe is connected with the gas outlet, and the second end of the gas pipe is used for introducing the specified gas into the accommodating part.

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

a container accessible to the body, the container being located within the receptacle.

4. The food processor of claim 3,

the gas transmission pipe part extends into the container.

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

the electromagnetic valve is arranged on the gas transmission pipe.

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

the pressure reducing valve is arranged on the gas transmission pipe and is positioned between the gas generating piece and the electromagnetic valve.

7. The food processor of claim 2, wherein the gas generating member comprises:

the gas holder is used for storing the specified gas, and the gas holder is provided with the gas outlet.

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

the valve body is arranged on the gas storage tank and used for opening and closing the gas outlet.

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

the installation department locates the body, the gas holder can set up in the installation department.

10. The food processor of claim 2, wherein the gas generation assembly further comprises:

the gas inlet is arranged on the gas generating piece;

the gas generating cavity is arranged on the gas generating piece, the gas inlet is communicated with the gas generating cavity, and the gas generating cavity is used for generating the specified gas.

11. The food processor of any one of claims 1 to 10,

the specified gases include any one or combination of the following:

carbon dioxide, nitrogen, xenon, and krypton.

12. A food processor as claimed in any one of claims 1 to 10, further comprising:

the cover body is arranged on the body and used for opening and closing the accommodating part.

13. The food processor of claim 12,

the cover is detachably connected to the body.

14. The food processor of claim 12,

the cover body is rotatably connected to the body.

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

the driving assembly is arranged on the body;

the food processing assembly is connected with the driving assembly and can move relative to the accommodating part under the driving of the driving assembly.

16. The food processor of claim 15,

the food processing assembly is a hammering assembly which can extend into or out of the container under the driving of the driving assembly.

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