CN210158463U - Oil fume filtering system based on automatic cooking robot - Google Patents

Abstract

Oil smoke filtering system based on automatic cooking machine people, including automatic cooking machine people's inner bag, this system still includes filter screen, vertical wind channel, spiral wind channel and one connects oily container, specific beneficial effect: the full-automatic intelligent cooking robot can finish cooking dishes only by a small amount of manual work without consuming excessive time and energy. Oil gas is further reduced by reducing the oil cracking degree and dissipated into the air, and the influence on people and household environment is reduced. Carry out the card through interim buckle to spiral wind channel or vertical wind channel and fix, it is all very convenient when needing to maintain spiral wind channel or vertical wind channel, clearance, change, because spiral wind channel or vertical wind channel are the traditional chinese medicine link of this application, so convenient dismantlement seems very necessary, especially spiral wind channel belongs to the spiral and arranges to vertical arranging (as shown in figure 7), so fixed also seem not so easy, this problem of solution that the buckle through this application can be fine.

Description

Oil fume filtering system based on automatic cooking robot

Technical Field

An oil fume filtering system and method based on an automatic cooking robot are characterized by comprising a spiral air duct, a vertical air duct, a guide fan, a filter screen and an oil receiving container.

Background

At present, most families are worried about cooking at home, namely the food materials are unsafe, the dishes are inconvenient to buy, and the dishes are not delicious. Because the source of food materials is not clear, the pesticide is feared to be unsafe and unsanitary; when the user is busy for one day, the user goes home to a vegetable market to buy vegetables, wash vegetables and cut vegetables, and the operation is complicated and inconvenient; the embarrassment situation of eating for ten minutes in two hours of cooking often appears.

Most of the existing automatic cooking robots in the market are pots and heating stoves which are directly exposed to the external environment, so that a great amount of oil smoke can be emitted to the surrounding environment while dishes are cooked. A very large impact both for the cooked food cook and the home environment.

SUMMERY OF THE UTILITY MODEL

Utility model purpose:

an oil smoke filtering system and an oil smoke filtering method based on an automatic cooking robot aim to solve the problems in the past. The system and the method are provided on the basis of an automatic cooking robot, and the system and the method are used for reducing the oil cracking degree and further reducing the oil gas dissipation.

The technical scheme is as follows:

an oil fume filtering system based on an automatic cooking robot comprises an inner container of the automatic cooking robot, a filter screen, a vertical air duct, a spiral air duct and an oil receiving container, wherein the spiral air duct is connected to the upper part of the inner container of the automatic cooking robot, surrounds the outer wall of the inner container, and is communicated to the oil receiving container from top to bottom; connect the top intercommunication vertical air duct of oil container, vertical air duct connects at automatic cooking robot's inner bag outer wall and along the vertical setting from bottom to top of inner bag outer wall, and the filter screen is connected on the top in vertical air duct, and the bottom is connected and is connect oil container.

Spiral wind channel encircles the inner bag outer wall, and spiral winding is at the inner bag outer wall, and spiral wind channel passes through the buckle to be fixed in the inner bag outside at the in-process that encircles.

The spiral air duct is a one-way air duct, a one-way valve which only enables oil gas to move downwards along the spiral air duct is arranged in the spiral air duct, and the spiral air duct is made of a good thermal conductor material.

The vertical air duct is fixed on the outer wall of the inner container through a buckle, the upper end of the vertical air duct is connected to the external environment through a filter screen and directly discharges redundant gas into the automatic cooking robot, the oil container is connected to the lower portion of the vertical air duct, and the vertical air duct is a one-way exhaust duct.

The air outlet near the top end of the vertical air duct is bent and then connected to the filter screen.

The oil receiving container is positioned outside the inner container.

The spiral air duct or the vertical air duct adopts an aluminum-plastic pipe for fuel gas; the buckle for clamping and fixing the spiral air duct or the vertical air duct comprises a clamping and fixing device for clamping the spiral air duct or the vertical air duct and a clamping seat fixed on the inner container;

the clamping device comprises an arc-shaped clamping frame, an arc-shaped clamping seat, a fixed cylinder, a telescopic rod and an upper ejection spring;

the lower end of the telescopic rod extends into the fixed cylinder and can move up and down in the fixed cylinder, the upper end of the telescopic rod is connected with an arc-shaped clamping frame, the arc-shaped clamping frame can rotate by taking the telescopic rod as a shaft, and two ends of the arc-shaped clamping frame are provided with hooks; the bottom of the fixed cylinder is connected with an arc-shaped clamping seat; the top of the upper top spring is in contact with the telescopic rod, and the bottom of the upper top spring is connected with the bottom in the fixed cylinder;

the clamping seat comprises two seat blocks fixed on the inner container, the seat blocks are respectively arranged on two sides of the arc-shaped clamping frame when in use, and the position of the seat blocks enables the hooks to only hook the bottom of the seat blocks;

during the use, spiral wind channel or vertical wind channel pass between two seat pieces, the spiral wind channel is withstood to the arc cassette, then rotatory arc card frame, make the couple of arc card frame stagger with the seat piece, then press the arc card frame to spiral wind channel, make and go up the top spring and compressed, then, reverse rotation arc card frame, make the couple of arc card frame be in the bottom of two seat pieces, as shown in figure 4, then loosen arc card frame, under the reset action of last top spring, the arc card frame shifts up, the couple hooks the seat piece and accomplishes the temporary fixation to spiral wind channel or vertical wind channel. And in a natural state, namely when the arc-shaped clamping frame is not pressed down, the hook is positioned above the seat block.

The bottom of seat piece is provided with the groove of falling that supplies the couple to hook, and the opening of slot is down, and the bottom of slot is up, and the couple stretches into the inslot and hooks the seat piece during the use.

The arc-shaped clamping frame is an arc-shaped elastic component, the hook is an L-shaped structure formed by a transverse claw and a vertical claw, the vertical claw is arranged at one end of the transverse claw, the other end of the transverse claw is connected with the arc-shaped clamping frame, the vertical claw is positioned at the outer side of the arc-shaped clamping frame to form an outward-turned hook, the transverse claw and the vertical claw are both of cylindrical structures, when the hook is used, the vertical claw extends into the groove, and the top of the vertical claw tightly pushes against the bottom of the groove;

the grooves are oblique grooves, and the directions of the two grooves are parallel; the groove is a through groove;

a plurality of holes for inserting the vertical claws are formed in the groove;

during the use, push down and rotatory arc card frame and make and found the claw and slide into the slot from slot one end, found the claw this moment and keep apart with the slot bottom, along with the rotation of arc card frame, including the slant setting of slot, make two of arc card frame found the claw and inwards folded gradually or outwards part, and then make the both ends of arc card frame inwards extrude gradually or outwards pull open and form the pretightning force, then loosen arc card frame, under the reset action of last top spring, arc card frame shifts up, found the claw and stretched into downthehole completion temporary card of correspondence and fix.

The method for filtering the oil smoke implemented by the oil smoke filtering system based on the automatic cooking robot is characterized by comprising the following steps of:

the method is divided into two parts: 1, obtaining a recipe command before cooking, determining whether the automatic cooking robot needs hot oil according to the recipe command, and if so, controlling the oil temperature to be slightly lower than the boiling point; this allows the temperature of the oil to be controlled to minimize the potential for oil gasification as much as possible. 2, the vaporized oil is changed into liquid and is reserved in the oil receiving container through the action of the spiral air duct and the vertical air duct, so that the oil is prevented from escaping to the outside.

The advantages and effects are as follows:

an oil fume filtering system and method based on an automatic cooking robot comprise a spiral air duct, a vertical air duct, a guide fan, a filter screen and an oil receiving container.

The spiral air duct is connected to the inner container of the automatic cooking robot in a manner of convenient disassembly and sealing. The spiral air duct surrounds the inner container to the bottom to connect the oil container. Have the buckle that is used for fixing outside at the in-process inner bag that encircles, the buckle is fixed on the inner bag outer wall. The spiral air duct is a one-way air duct, is similar to a heart valve, and is used for preventing oil gas from being blown into the inner container from the bottom upwards. In the process of oil gas from top to bottom, the oil temperature is reduced due to the action of the spiral air duct, so that the oil temperature is changed from a vapor state to a liquid state and flows to the oil receiving container. The spiral air duct mainly reduces the temperature of oil gas. The spiral air duct is made of a good heat conductor material.

The vertical air duct is also fixed on the fastener on the inner container, the upper part is communicated with the external environment to directly discharge redundant air out of the automatic cooking robot, and the lower part is connected with the oil container which is a one-way exhaust duct. It is important that the air outlet is curved in the vicinity of the air outlet. The oil receiving container is positioned outside the inner container and is used for receiving oil changed from a vapor state to a liquid state. Easy to disassemble and easy to clean. The guide fan is located the spiral wind channel bottom and links to each other with it for in driving liquid oil to the spiral wind channel, also play the effect of cooling simultaneously. And is easy to be detached from the spiral air duct. The filter screen is located the inside of vertical wind channel intercommunication external environment end. Its function is to adsorb residual oil in the water vapor.

The method has the following specific beneficial effects:

1. the full-automatic intelligent cooking robot can finish cooking dishes only by a small amount of manual work without consuming excessive time and energy.

2. Oil gas is further reduced by reducing the oil cracking degree and dissipated into the air, and the influence on people and household environment is reduced.

3. Carry out interim card through interim buckle to spiral wind channel or vertical wind channel and fix, it is all very convenient when needing to maintain spiral wind channel or vertical wind channel, clearance, change, because spiral wind channel or vertical wind channel are the important link of this application, so convenient dismantlement seems very necessary, especially spiral wind channel belongs to the spiral and arranges to vertical arranging (as shown in figure 7), so fixed also seem not so easy, this problem of solution that the buckle through this application can be fine.

Drawings

FIG. 1 is a block diagram of the mechanical structure of the present invention;

FIG. 2 is a flow chart of the present invention;

FIG. 3 is a schematic view of the buckle structure of the present invention;

FIG. 4 is a schematic view of a fastening device of the buckle shown in FIG. 3;

FIG. 5 is a view showing a state of use of the locking device;

FIG. 6 is an enlarged view of a portion of FIG. 3;

fig. 7 is a schematic view of the temporary buckle temporarily clamping the spiral duct or the vertical duct.

Detailed Description

In order to make the above-mentioned contents, features and advantages of the present invention clearer and more understandable, the following detailed description of the embodiments of the present invention is described in detail with reference to the accompanying drawings.

An oil fume filtering system based on an automatic cooking robot comprises an inner container 3 of the automatic cooking robot, a filter screen 1, a vertical air duct 2, a spiral air duct 4 and an oil receiving container 7, wherein the spiral air duct 4 is connected to the upper part of the inner container 3 of the automatic cooking robot, surrounds the outer wall of the inner container, and is communicated to the oil receiving container 7 from top to bottom; connect the top intercommunication vertical air duct 2 of oil container 7, vertical air duct 2 connects at 3 outer walls of inner bag of automatic cooking machine people and along the vertical setting from bottom to top of inner bag outer wall, and filter screen 1 is connected on the top of vertical air duct 2, and the bottom is connected and is connect oil container 7.

Spiral wind channel encircles the inner bag outer wall, and spiral winding is at the inner bag outer wall, and spiral wind channel passes through the buckle to be fixed in the inner bag outside at the in-process that encircles.

The spiral air duct is a one-way air duct, a one-way valve which only enables oil gas to move downwards along the spiral air duct is arranged in the spiral air duct, and the spiral air duct is made of a good thermal conductor material.

The vertical air duct is also fixed on the outer wall of the inner container through a buckle, the upper end of the vertical air duct is connected to the external environment through a filter screen 1 to directly discharge redundant gas out of the automatic cooking robot, an oil container is connected under the vertical air duct, the vertical air duct is a one-way exhaust duct (a fan is arranged at an air outlet on the upper side of the air duct to generate negative pressure difference, and the filter screen 1 is arranged below the fan;

the working process is as follows:

firstly, the hot gases (containing gaseous oil droplets) released during cooking rise automatically due to their low density, and secondly a fan provides a negative pressure at the upper outlet of the duct. The connection between the vertical air channel and the oil receiving container realizes sealing, the connection between the spiral air channel and the oil receiving container also realizes sealing, thus, the fan at the air outlet of the vertical air duct can lead the smoke out of the spiral air duct, because the spiral air duct increases the distance of the air duct, namely the cooling time, therefore, when the flue gas flows in the spiral air duct, a part of the flue gas is liquefied, and with the reduction of the temperature of the flue gas, the liquefied oil drops can fall down and enter the oil receiving container at the lowest end of the spiral air duct, and the remaining flue gas which is not completely liquefied can continuously rise in the vertical air duct, and simultaneously, there is a filter screen at last air outlet department, fan downside, and the filter screen can be stopped most gaseous oil that still does not liquefy dripping, and gaseous oil that drops on the filter screen is more and more along with, forms liquid oil and drips, will because of the action of gravity, drip to the below in connecing the oil container).

The vertical air duct is bent near the exhaust port at the top end and then connected to the filter screen 1. (the bending is to increase the length of the cooling channel so that the gas can be cooled as much as possible, thereby separating more vaporized oil drops into liquefied oil drops)

The oil receiving container is positioned outside the inner container.

The spiral air duct or the vertical air duct adopts an aluminum-plastic pipe for fuel gas; the buckle for clamping and fixing the spiral air duct or the vertical air duct comprises a clamping and fixing device for clamping the spiral air duct or the vertical air duct and a clamping seat fixed on the inner container 3;

the clamping device comprises an arc-shaped clamping frame 8-1, an arc-shaped clamping seat 8-2, a fixed cylinder 8-3, an expansion rod 8-4 and an upper ejection spring 8-5;

the lower end of the telescopic rod 8-4 extends into the fixed cylinder 8-3 and can move up and down in the fixed cylinder 8-3 (move up and down along the axial direction of the fixed cylinder 8-3), the upper end of the telescopic rod 8-4 is connected with the arc clamping frame 8-1, the arc clamping frame 8-1 can rotate by taking the telescopic rod 8-4 as an axis (the arc clamping frame 8-1 can only rotate and cannot move up and down along the axis of the telescopic rod 8-4!), (the arc clamping seat 8-2, the fixed cylinder 8-3, the telescopic rod 8-4 and the upper top spring 8-5 are all arranged in the arc opening of the arc clamping frame 8-1, and as shown in figure 3!) two ends of the arc clamping frame 8-1 are provided with hooks 8-1-1; the bottom of the fixed cylinder 8-3 is connected with an arc-shaped clamping seat 8-2; the upper top spring 8-5 is arranged in the fixed cylinder 8-3, the top of the upper top spring 8-5 is in contact with the telescopic rod 8-4, and the bottom of the upper top spring 8-5 is connected with the inner bottom of the fixed cylinder 8-3;

the clamping seat comprises two seat blocks 9 fixed on the inner container 3, when in use, the seat blocks 9 are respectively arranged at two sides of the arc-shaped clamping frame 8-1, and the position of the seat blocks 9 ensures that the hooks 8-1-1 can only hook the bottom of the seat blocks 9;

when in use, the spiral air duct 4 or the vertical air duct passes through the space between the two seat blocks 9, the arc-shaped clamping seat 8-2 props against the spiral air duct 4, then the arc-shaped clamping frame 8-1 is rotated to make the hook 8-1-1 of the arc-shaped clamping frame 8-1 staggered with the seat block 9 (not corresponding, as shown in figure 5), then the arc-shaped clamping frame 8-1 is pressed towards the spiral air duct 4, so that the upper top spring 8-5 is compressed, then, the arc-shaped clamping frame 8-1 is rotated reversely to enable the hook 8-1-1 of the arc-shaped clamping frame 8-1 to be positioned at the bottom of the two seat blocks 9, as shown in figure 4, then the arc-shaped clamping frame 8-1 is loosened, under the reset action of the upper top spring 8-5, the arc-shaped clamping frame 8-1 moves upwards, and the hook 8-1-1 hooks the seat block 9 to complete the temporary fixation of the spiral air duct 4 or the vertical air duct. The arc-shaped clamping seat 8-2 is arc-shaped and is matched with the outer wall of the spiral air duct 4 or the outer wall of the vertical air duct, and the arc-shaped clamping frame 8-1 is rotatable, so that when the fixing is needed, no matter what oblique angle the spiral air duct 4 has, the arc-shaped clamping frame 8-1 can accurately hook the seat block 9, as shown in fig. 4.

The bottom of the seat block 9 is provided with an inverted groove 9-1 for hooking the hook 8-1-1, the opening of the groove 9-1 faces downwards, the bottom of the groove 9-1 faces upwards, and the hook 8-1-1 extends into the groove 9-1 to hook the seat block 9 when in use. (firmness enhancement)

The arc-shaped clamping frame 8-1 is an arc-shaped elastic component, the hook 8-1-1 is an L-shaped structure formed by a transverse claw 8-1-1-1 and a vertical claw 8-1-1-2, the vertical claw 8-1-1-2 is arranged at one end of the transverse claw 8-1-1-1, the other end of the transverse claw 8-1-1-1 is connected with the arc-shaped clamping frame 8-1, the vertical claw 8-1-1-2 is positioned at the outer side of the arc-shaped clamping frame 8-1 to form an outward-turned hook, the transverse claw 8-1-1-1 and the vertical claw 8-1-1-2 are both cylindrical structures, when the vertical claw 8-1-1-2 extends into the groove 9-1, and the top of the vertical claw 8-1-1-2 tightly pushes against the bottom of the groove 9-1;

the grooves 9-1 are oblique grooves (i.e. as shown in fig. 4, the direction of the grooves 9-1 is oblique relative to the axial direction of the liner 3, i.e. not parallel to the axial direction of the liner 3), and the directions of the two grooves 9-1 are parallel; the groove 9-1 is a through groove;

a plurality of holes 9-1-1 for inserting the vertical claws 8-1-1-2 are arranged in the groove 9-1;

when in use, the arc-shaped clamping frame 8-1 is pressed downwards and rotated to enable the vertical claws 8-1-1-2 to slide into the groove 9-1 from one end of the groove 9-1, at the moment, the vertical claws 8-1-1-2 keep a distance with the bottom of the groove 9-1, and the oblique arrangement of the groove 9-1 is added along with the rotation of the arc-shaped clamping frame 8-1, so that the two vertical claws 8-1-1-2 of the arc-shaped clamping frame 8-1 are gradually folded inwards or separated outwards, so that the two ends of the arc-shaped clamping frame 8-1 are gradually pressed inwards or pulled outwards to form pretightening force, then the arc-shaped clamping frame 8-1 is loosened, under the reset action of the upper top spring 8-5, the arc-shaped clamping frame 8-1 moves upwards, and the vertical claw 8-1-1-2 extends into the corresponding hole 9-1-1 to complete temporary clamping. The seat blocks 9 are welded on the outer wall of the inner container 3 to form permanent fixation or the two seat blocks 9 are connected to two ends of a U-shaped frame, when the novel temporary fixing device is used, the inner container 3 is sleeved through the U-shaped frame, and then when the hook 8-1-1 hooks the seat blocks 9, the arc-shaped clamping frame 8-1 forms a relatively fixed temporary fixing structure on the U-shaped frame, so that the temporary fixing effect is achieved.

The method for filtering the oil smoke implemented by the oil smoke filtering system based on the automatic cooking robot is characterized by comprising the following steps of:

the method is divided into two parts: 1, obtaining a recipe command before cooking, determining whether the automatic cooking robot needs hot oil according to the recipe command, and if so, controlling the oil temperature to be slightly lower than the boiling point; this allows the temperature of the oil to be controlled to minimize the potential for oil gasification as much as possible. 2, the vaporized oil is changed into liquid and is reserved in the oil receiving container through the action of the spiral air duct and the vertical air duct, so that the oil is prevented from escaping to the outside. The spiral air duct is used for enabling the oil gas to be cooled as much as possible and liquefied into oil drops, and the oil drops flow back to the oil container; the vertical air channel is used for liquefying and dripping oil gas collected on the filter screen into an oil receiving container

The spiral air duct is a one-way air duct, and a one-way valve (similar to a heart valve in effect) which only enables oil gas to move downwards along the spiral air duct is arranged in the spiral air duct so as to prevent the oil gas from being blown into the inner container upwards from the bottom. In the process of oil gas from top to bottom, the oil temperature is reduced due to the action of the spiral air duct, so that the oil temperature is changed from a vapor state to a liquid state and flows to the oil receiving container. The spiral air duct mainly reduces the temperature of oil gas.

The oil receiving container is positioned outside the inner container and is used for receiving oil changed from a vapor state to a liquid state. Easy to disassemble and easy to clean.

The guide fan is used for driving liquid oil to the spiral air duct, and meanwhile, the guide fan also plays a role in cooling. And is easy to be detached from the spiral air duct.

The filter screen is located the inside of vertical wind channel intercommunication external environment end. Its function is to adsorb residual oil in the water vapor.

The following detailed description is made with reference to the accompanying drawings:

an oil fume filtering system and method based on an automatic cooking robot are characterized by comprising an inner lead main body 3, a spiral air duct 4, a vertical air duct 2, a guide fan, a connecting line of the guide fan and the spiral air duct, a filter screen 1 and an oil receiving container 7.

The spiral air duct is connected to an inner container of the automatic cooking robot in a manner of convenient detachable airtight connection, such as flange connection. The spiral air duct surrounds the inner container to the bottom to connect the oil container. Have the buckle that is used for fixing outside at the in-process inner bag that encircles, the buckle is fixed on the inner bag outer wall. The spiral air duct is a one-way air duct, is similar to a heart valve, and is used for preventing oil gas from being blown into the inner container from the bottom upwards. The temperature of the oil gas is reduced from a vapor state to a liquid state due to the action of the spiral air duct in the process from top to bottom, and the oil gas flows to the oil receiving container. The spiral air duct mainly reduces the temperature of oil gas. The spiral air duct is made of a good heat conductor material.

The vertical air duct is also fixed on the fastener on the inner container, the upper part is communicated with the external environment to directly discharge redundant air out of the automatic cooking robot, and the lower part is connected with the oil container which is a one-way exhaust duct. It is important that the air outlet is curved in the vicinity of the air outlet.

The oil receiving container is positioned outside the inner container and is used for receiving oil changed from a vapor state to a liquid state. Easy to disassemble and easy to clean.

The guide fan 6 can be positioned at the bottom of the spiral air duct and connected with the spiral air duct, and is used for driving liquid oil into the spiral air duct and cooling the spiral air duct. And is easy to be detached from the spiral air duct.

The filter screen is located the inside of vertical wind channel intercommunication external environment end. Its function is to adsorb residual oil in the water vapor.

The flow chart used in conjunction with fig. 2 is detailed as follows:

a method, characterized by: the utility model discloses a focus is on two parts: 1 acquisition recipe command before cooking determines from the recipe command whether hot oil is required and if so controls the oil temperature to be slightly below boiling. This allows the temperature of the oil to be controlled to minimize the potential for oil gasification as much as possible. 2 the vaporized oil is changed into liquid state by the action of the spiral air duct and the vertical air duct and is reserved in the oil receiving container, so that the oil is prevented from escaping to the outside.

Claims (9)

1. The utility model provides a filter oil smoke system based on automatic cooking robot, includes automatic cooking robot's inner bag (3), its characterized in that: the system also comprises a filter screen (1), a vertical air duct (2), a spiral air duct (4) and an oil receiving container (7), wherein the spiral air duct (4) is connected to the upper part of the inner container (3) of the automatic cooking robot, surrounds the outer wall of the inner container, and is communicated to the oil receiving container (7) from top to bottom; connect the top intercommunication vertical wind channel (2) of oil container (7), vertical wind channel (2) are connected at inner bag (3) outer wall of automatic cooking machine people and along the vertical setting from bottom to top of inner bag outer wall, and filter screen (1) is connected on the top of vertical wind channel (2), and bottom connection connects oil container (7).

2. The automatic cooking robot-based lampblack filtering system according to claim 1, wherein: spiral wind channel encircles the inner bag outer wall, and spiral winding is at the inner bag outer wall, and spiral wind channel passes through the buckle to be fixed in the inner bag outside at the in-process that encircles.

3. The automatic cooking robot-based lampblack filtering system according to claim 2, wherein: the spiral air duct is a one-way air duct, a one-way valve which only enables oil gas to move downwards along the spiral air duct is arranged in the spiral air duct, and the spiral air duct is made of a good thermal conductor material.

4. The automatic cooking robot-based lampblack filtering system according to claim 2, wherein: the vertical air duct is fixed on the outer wall of the inner container through a buckle, the upper end of the vertical air duct is connected to the external environment through a filter screen (1) and directly discharges redundant gas to the inside of the automatic cooking robot, the oil container is connected to the lower portion of the vertical air duct, and the vertical air duct is a one-way exhaust duct.

5. The automatic cooking robot-based lampblack filtering system according to claim 4, wherein: the air outlet near the top end of the vertical air duct is bent and then connected to the filter screen (1).

6. The automatic cooking robot-based lampblack filtering system according to claim 1, wherein: the oil receiving container is positioned outside the inner container.

7. The automatic cooking robot-based lampblack filtering system according to claim 2 or 4, wherein: the spiral air duct or the vertical air duct adopts an aluminum-plastic pipe for fuel gas; the buckle for clamping and fixing the spiral air duct or the vertical air duct comprises a clamping and fixing device for clamping the spiral air duct or the vertical air duct and a clamping seat fixed on the inner container (3);

the clamping device comprises an arc-shaped clamping frame (8-1), an arc-shaped clamping seat (8-2), a fixed cylinder (8-3), an expansion rod (8-4) and an upper ejection spring (8-5);

the lower end of the telescopic rod (8-4) extends into the fixed cylinder (8-3) and can move up and down in the fixed cylinder (8-3), the upper end of the telescopic rod (8-4) is connected with the arc-shaped clamping frame (8-1), the arc-shaped clamping frame (8-1) can rotate by taking the telescopic rod (8-4) as a shaft, and two ends of the arc-shaped clamping frame (8-1) are provided with hooks (8-1-1); the bottom of the fixed cylinder (8-3) is connected with an arc-shaped clamping seat (8-2); the upper top spring (8-5) is arranged in the fixed cylinder (8-3), the top of the upper top spring (8-5) is in contact with the telescopic rod (8-4), and the bottom of the upper top spring (8-5) is connected with the inner bottom of the fixed cylinder (8-3);

the clamping seat comprises two seat blocks (9) fixed on the inner container (3), the seat blocks (9) are respectively arranged on two sides of the arc-shaped clamping frame (8-1) when the clamping seat is used, and the hooks (8-1-1) can only hook the bottoms of the seat blocks (9) due to the positions of the seat blocks (9).

8. The automatic cooking robot-based lampblack filtering system according to claim 7, wherein: the bottom of the seat block (9) is provided with an inverted groove (9-1) for hooking the hook (8-1-1), the opening of the groove (9-1) faces downwards, the bottom of the groove (9-1) faces upwards, and the hook (8-1-1) extends into the groove (9-1) to hook the seat block (9) when the seat block is used.

9. The automatic cooking robot-based lampblack filtering system according to claim 8, wherein: the arc-shaped clamping frame (8-1) is an arc-shaped elastic component, the hook (8-1-1) is an L-shaped structure formed by a transverse claw (8-1-1-1) and a vertical claw (8-1-1-2), the vertical claw (8-1-1-2) is arranged at one end of the transverse claw (8-1-1-1), the other end of the transverse claw (8-1-1-1) is connected with the arc-shaped clamping frame (8-1), the vertical claw (8-1-1-2) is positioned at the outer side of the arc-shaped clamping frame (8-1) to form an outward turning hook, the transverse claw (8-1-1-1) and the vertical claw (8-1-1-2) are both cylindrical structures, and the vertical claw (8-1-1-2) extends into the groove (9-1) when the hook is used, the top of the vertical claw (8-1-1-2) tightly pushes the bottom of the groove (9-1);

the grooves (9-1) are oblique grooves, and the directions of the two grooves (9-1) are parallel; the groove (9-1) is a through groove;

the bottom of the groove (9-1) is provided with a plurality of holes (9-1-1) for inserting the vertical claws (8-1-1-2).

Images