CN213362584U

CN213362584U - Oil fume purifying equipment

Info

Publication number: CN213362584U
Application number: CN201820939725.0U
Authority: CN
Inventors: 张黎明
Original assignee: Zhejiang King Environmental Protection Technology Co ltd
Current assignee: Zhejiang King Environmental Protection Technology Co ltd
Priority date: 2018-06-15
Filing date: 2018-06-15
Publication date: 2021-06-04
Anticipated expiration: 2028-06-15

Abstract

The utility model provides an oil smoke clarification plant, wherein oil smoke clarification plant includes an operation panel, an oil smoke collecting and distributing device, an electromagnetic oven subassembly to and an oil smoke purifier. The oil smoke collecting and distributing device is kept above the operating table, wherein the oil smoke collecting and distributing device collects oil smoke gas and discharges purified gas, wherein the oil smoke purifying device is communicated with the oil smoke collecting and distributing device, wherein the oil smoke purifying device receives the oil smoke gas collected by the oil smoke collecting and distributing device, and the oil smoke purifying device is used for separating and extracting oil drops in the oil smoke gas and upwards guiding the purified gas to the oil smoke collecting and distributing device.

Description

Oil fume purifying equipment

Technical Field

The utility model relates to a catering equipment field, more specifically say, relate to an oil smoke clarification plant, wherein oil smoke clarification plant can be applied to the oil smoke of purification treatment family kitchen or catering trade.

Background

In catering operation rooms or household kitchens, the range hood is an important tool for extracting kitchen oil smoke and is the most direct equipment for oil smoke purification treatment. Generally, whether an induction cooker or a gas cooker is used, oil smoke, water vapor and the like generated in the process of operation of people float upwards due to the high temperature of the gas. Therefore, the conventional range hood generally adopts a top-suction structure, that is, the range hood is integrally installed above a cooking bench, and after the oil smoke is collected by negative pressure generated by the range hood and then purified by the range hood, the oil smoke is discharged to the external environment. However, the conventional ceiling-type range hood has a bad effect of treating and purifying the oil smoke during the suction and discharge processes. The exhaust gas discharged by the traditional top-suction type range hood hardly reaches the discharge standard, particularly in public catering areas, the treatment and purification effect of oil smoke is poor, the environmental sanitation of the surroundings can be directly influenced, and the building can be influenced by the accumulation of impurities in the oil smoke for a long time.

In order to improve the purification treatment effect of the range hood on the oil smoke, the purification treatment process of the oil smoke is increased in the process that the range hood absorbs and discharges the oil smoke, for example, the water cooling device is added to reduce the temperature of the oil smoke, so that the oil smoke is cooled to form oil drops, and the condensed oil drops are collected. In addition, a lampblack adsorption device can be added, for example, an adsorption net is used for absorbing moisture, lampblack and the like in lampblack gas. However, the oil smoke purification treatment devices installed at the top of the cooking bench result in a heavy weight at the upper end of the range hood, which results in a heavy burden at the upper end of the range hood.

Traditional smoke ventilator is set up in the upper end of top of a kitchen range, but by oil drops after smoke ventilator purification treatment can be at the effect of gravity downwards drippage, consequently the in-process of collecting oil drops is difficult to avoid oil drops to drippage on the operation panel. The traditional treatment mode has relatively good pumping effect on the oil smoke, but cannot achieve good treatment and purification effect on the oil smoke pumped into the range hood. If the device for purifying and treating the oil smoke is arranged at the upper end of the range hood and is limited by the whole volume of the range hood, the purification treatment process of the oil smoke is not ideal, for example, the cooling of the oil smoke is incomplete, and oil drops can not be condensed into drops. However, if the oil smoke purifying treatment device is independent of the oil smoke exhausting device, the whole volume of the oil smoke exhauster is large, and the oil smoke exhauster is placed independently and has beautiful images. In addition, the traditional range hood is separated from the cooking bench, and meanwhile, the space at the lower part of the cooking bench is wasted, so that the whole space of the cooking bench and the range hood cannot be fully utilized.

In addition, the traditional range hood extracts the generated oil smoke upwards, but the oil smoke is inevitably condensed into drops in the extraction process, and the oil drops slide downwards under the action of gravity, so that the collection and the cleaning are inconvenient. Therefore, oil drops generated by the oil smoke gas can be scattered at various parts of the range hood, and the condition of poor sanitation can be caused after long-term storage.

SUMMERY OF THE UTILITY MODEL

The main advantage of the utility model is that it provides an oil smoke clarification plant, wherein oil smoke clarification plant can avoid the backward flow that oil drips at oil smoke purification treatment's in-process.

Another advantage of the utility model is that it provides an oil smoke clarification plant, wherein oil smoke clarification plant is applicable to various use scenes, both can be used to the oil smoke purification treatment of gas-cooker, also can be used to the oil smoke purification treatment of electromagnetic oven.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke purification apparatus of the oil smoke purification apparatus is disposed under the cooking bench, which can increase the space for oil smoke purification treatment.

Another advantage of the present invention is that it provides an oil smoke purifying apparatus, wherein the oil smoke generated by the cooking bench is guided from top to bottom in the oil smoke purifying apparatus so as to collect the treated oil drops.

Another advantage of the present invention is that it provides an oil smoke purifying apparatus, wherein the oil smoke purifying apparatus can fully utilize the space of the cooking bench.

Another advantage of the present invention is that it provides an oil smoke purifying apparatus, wherein the oil smoke purifying apparatus has a simple structure and is easy to miniaturize.

Another advantage of the present invention is that it provides an oil smoke purifying apparatus, wherein the oil smoke gas body that the oil smoke purifying apparatus guides the cooking bench to produce moves from top to bottom, and then guides the gas after the purifying treatment to discharge upwards, avoiding carrying the oil smoke or oil drop that is not purified at the in-process of the upwards exhaust gas.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke collection device and the processing device of the oil smoke purification apparatus are disposed at the periphery or the lower end of the cooking bench, and can be lowered to the whole center of gravity of the oil smoke purification apparatus, so as to be placed more safely.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke collection device and the oil smoke purification device of the oil smoke purification apparatus surround around the cooking bench, for the oil smoke purification apparatus purifies the processing oil smoke gas and provides sufficient processing space.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke purification apparatus sets up the oil smoke collection device and the oil smoke purification device with the cooking bench set up the integrated form together, is convenient for install and deposit to save occupation space.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil receiving device of the oil smoke purification apparatus is disposed at the bottom end, and the oil receiving device is prevented from dropping oil on the cooking bench in the process of being replaced.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke collection device and the oil smoke purification device of the oil smoke purification apparatus are arranged around the top of the kitchen range to prolong the path of the oil smoke integument purification treatment, thereby improving the purification degree of the oil smoke integument.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke purification apparatus collects the collected oil smoke gas through centrifugal treatment, cooling collection and irregular movement between gases, so as to better condense the oil smoke gas into oil drops.

Another advantage of the utility model is that it provides an oil smoke clarification plant, the oil smoke gas after oil smoke collection device collects is further again through high-pressure electrostatic purification and remove the flavor processing to further reduce the content of oil smoke in the exhaust gas.

Another advantage of the utility model is that it provides an oil smoke clarification plant, wherein the gas after purification treatment continues through high-efficient active carbon and filter equipment's processing to further the gaseous content of oil smoke in the less exhaust gas, thereby the gaseous up to standard gas of outwards discharging.

Another advantage of the present invention is that it provides an oil smoke purification apparatus, wherein the oil smoke gas that the oil smoke purification apparatus will collect is guided downwards and the purification treatment of the oil smoke is performed in the lower part of the purification apparatus, avoiding the oil drop backflow caused by the upward guidance of the oil smoke gas.

Another advantage of the present invention is that it provides a cooking fume purification apparatus suitable for use in a household kitchen or a catering industry kitchen, wherein the cooking fume purification apparatus does not require precise components and complex structures, and has a simple manufacturing process and a low cost.

The other advantages and features of the invention will be fully apparent from the following detailed description and realized by means of the instruments and combinations particularly pointed out in the appended claims.

According to the utility model discloses, can realize aforementioned purpose and other purposes and advantage the utility model relates to an oil smoke clarification plant, include:

an induction cooker assembly;

a cooking fume collecting and distributing device, wherein the cooking fume collecting and distributing device is held above the induction cooker assembly, wherein the cooking fume collecting and distributing device collects cooking fume gas and discharges purified gas; and

and the oil fume purification device is communicated with the oil fume collecting and distributing device, and guides and transmits the collected oil fume gas downwards to the oil fume purification device, wherein the oil fume purification device separates oil from gas in the oil fume gas and guides the gas obtained after purification treatment upwards to the oil fume collecting and distributing device.

According to some embodiments of the utility model, the oil smoke collecting and distributing device be set up in the operation panel, the oil smoke collecting and distributing device with the operation panel forms a gas collection space, wherein the oil smoke collecting and distributing device collects gas in the gas collection space.

According to some embodiments of the utility model, fume purification device be set up in the below of operation panel, by fume purification device supports the operation panel, wherein fume purification device surround in the below of operation panel.

According to some embodiments of the utility model, the oil smoke purifier guides the flow of oil smoke gas, and the separation is drawed oil in the oil smoke gas drips, wherein oil smoke purifier is still used for collecting the oil that draws to with the gas guide after purifying extremely oil smoke collection and distribution device.

According to the utility model discloses a some embodiments, oil smoke collecting and distributing device further includes:

a gas collection enclosure, wherein the gas collection enclosure is disposed above the operator station, the gas collection enclosure and the operator station defining the gas collection space, and preventing egress of gases within the gas collection space; and

and the gas collecting unit is communicated with the gas collecting hood, absorbs the lampblack gas in the gas collecting space and guides the lampblack gas to flow downwards.

According to some embodiments of the present invention, the gas collecting channel further comprises a front shielding unit and at least one gas collecting port, wherein the gas collecting port is formed on the front shielding unit, wherein the gas collecting port communicates with the gas collecting unit in the gas collecting space, so as to allow the gas collecting unit to absorb the oil smoke gas in the gas collecting space through the gas collecting port.

According to some embodiments of the utility model, the gas collection unit set up in the gas collecting channel, wherein the gas collection unit further includes a negative-pressure tank and intercommunication a gas guide box of negative-pressure tank, wherein the negative-pressure tank produces the negative pressure suction the oil smoke gas in the gas collection space, wherein gas in the negative-pressure tank is let in gas guide box, by gas guide box guide the oil smoke gas.

According to some embodiments of the present invention, the gas collection unit further comprises at least one negative pressure centrifugal device, wherein the negative pressure box has a negative pressure space, wherein the gas guide box has a gas guide space, the negative pressure centrifugal device is used for communicating the negative pressure space with the gas guide space, wherein the negative pressure centrifugal device is in the negative pressure box generate negative pressure in the negative pressure space to absorb the oil smoke gas in the gas collection space.

According to some embodiments of the utility model, negative pressure centrifugal device absorbs oil smoke gas, and is right through the centrifugal action oil smoke gas handles, follows separate oil droplet in the oil smoke gas.

According to some embodiments of the present invention, the gas collecting unit further includes a condensation gas collecting box, wherein the condensation gas collecting box has at least one condensation space, the condensation gas collecting box communicate with the gas collecting unit, by the gas collecting unit will the oil smoke gas is guided to the condensation space, wherein the condensation gas collecting box is used for reducing the temperature of the oil smoke gas in the condensation space, so that the oil smoke gas is liquefied and separated out the oil in the oil smoke gas.

According to some embodiments of the utility model, the condensation gas collecting tank further includes:

a condenser box, wherein the condenser box defines the condensation space; and

at least one refrigeration device, wherein the refrigeration device is maintained in the condensation space to reduce the temperature of the condensation space.

According to some embodiments of the utility model, the oil smoke collecting and distributing device further comprises an exhaust apparatus, wherein the exhaust apparatus communicate with the oil smoke purification device, by the gas outgoing after the exhaust apparatus separates the oil gas.

According to some embodiments of the present invention, the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel communicates with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, whereby the second exhaust channel discharges the gas.

According to some embodiments of the present invention, the second exhaust unit further comprises at least one filtering and purifying device, wherein the filtering and purifying device is disposed in the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying device comprises activated carbon.

According to some embodiments of the present invention, the oil smoke purification apparatus further comprises a flow concentration unit, wherein the flow concentration unit is connected to the oil smoke collecting and distributing device, the flow concentration unit is disposed under the operation table, wherein the flow concentration unit guides the flow of the oil smoke gas and collects oil drops dripping or sliding off.

According to some embodiments of the present invention, the oil smoke purification apparatus further includes a flow concentration unit, wherein the flow concentration unit is connected to the condensing gas collection box of the oil smoke collecting and distributing apparatus, and the condensing gas collection box guides and transmits the condensed oil smoke gas to the flow concentration unit, thereby guiding the flow of the oil smoke gas and collecting the oil drops that drip or slide.

According to some embodiments of the present invention, the collecting unit further includes a collecting box and at least one air-separating plate disposed on the collecting box, wherein the collecting box has a collecting channel, wherein the collecting channel guides the flow of the oil smoke gas and the oil drop collected or dropped, wherein the air-separating plate separates the flow of the air flow in the collecting channel, so that the oil smoke gas irregularly moves in the collecting channel, thereby causing the oil smoke gas to collide with each other or adsorb to form oil drops.

According to some embodiments of the utility model, the oil smoke purifier further includes a first purification unit and a second purification unit, wherein first purification unit set up in the mass flow unit the manifold, wherein first purification unit adopts high-pressure electrostatic absorption oil mist in the oil smoke gas, wherein the second purification unit is used for going out the peculiar smell in the gas.

According to some embodiments of the present invention, the first purifying unit and the second purifying unit are maintained at the current collecting channel of the current collecting unit, wherein the first purifying unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to the high voltage electrostatic oil removing device, wherein the high voltage electrostatic oil removing device ionizes oil mist in the cooking fume gas and separates oil drops at a polar plate.

According to some embodiments of the present invention, the second purifying unit further comprises a smell removing box and at least one ultraviolet light smell removing lamp disposed in the smell removing box, wherein the ultraviolet light smell removing lamp removes the smell of the purified gas through an ultraviolet purification mode.

According to some embodiments of the present invention, the cooking fume purification apparatus further comprises an induction cooker assembly, wherein the induction cooker assembly is disposed in the operation table and the cooking fume purification device, by the operation table and the cooking fume purification device support the induction cooker assembly.

According to some embodiments of the present invention, the operation panel is provided with at least one cooking hole, wherein the induction cooker assembly further comprises a movement and an electric connection at least one output device of the movement, wherein the output device is installed the operation panel the cooking hole.

According to some embodiments of the present invention, the cooking fume purifying apparatus further comprises a gas range assembly, wherein the gas range assembly is disposed on the operation table, and the gas range assembly is supported by the operation table.

According to some embodiments of the present invention, the operating platform is provided with at least one cooking hole, wherein the gas range assembly further comprises a wick and a gas supply device communicated with the wick, wherein the wick is disposed in the operating platform in the cooking hole.

According to the utility model discloses an on the other hand, the utility model discloses an oil smoke clarification plant oil smoke purification method is further provided, wherein oil smoke clarification method includes following step:

(a) guiding the collected oil smoke gas to flow downwards;

(b) separating and extracting oil fume impurities in the oil fume gas at the bottom end; and

(c) the purified gas is directed upwardly.

According to some embodiments of the invention, the method further comprises in method step (b) the steps of:

(b1) centrifuging the lampblack gas to separate and extract oil drops in the lampblack gas; and

(b2) and cooling the oil fume gas to liquefy the oil fume gas and separate out oil mist.

(b3) guiding the oil smoke gas to move in a collision way, and condensing and separating out liquid oil mist;

(b4) ionizing the oil smoke gas at high pressure, and adsorbing oil mist in the oil smoke gas to a polar plate; and

(b5) and irradiating the purified gas by ultraviolet light to remove the peculiar smell of the gas.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the appended claims.

Drawings

Fig. 1A is an overall schematic view of a lampblack purification device according to a first preferred embodiment of the present invention.

Fig. 1B is an overall schematic view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 2 is an exploded view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 3 is a partially exploded schematic view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 4A is a side view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 4B is a side view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 4C is a front view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 4D is a side view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 5 is a schematic view of a part of the structure of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 6 is a schematic view of the operation table of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 7 is an overall schematic view of a lampblack purification device according to a second preferred embodiment of the invention.

Fig. 8 is an exploded view of the lampblack purification device according to the above preferred embodiment of the present invention.

Fig. 9 is a schematic view of the operation table of the lampblack purification device according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 6 of the drawings, an oil smoke purifying apparatus according to a first preferred embodiment of the present invention will be explained in the following description. The oil fume purification equipment is mainly used for purifying and treating oil fume gas generated in a kitchen and discharging the treated gas to the external environment. The oil fume purification equipment is suitable for treating oil fume gas of a gas stove and can also be applied to treating the oil fume gas of an electromagnetic stove. It is worth mentioning that the fume purification device is suitable for both household kitchens and catering kitchens, and the gas stove or the operating console of the electromagnetic stove is integrally arranged in the fume collecting and processing device to reduce the overall size of the fume purification device, thereby reducing the space occupied by the fume purification device.

As shown in fig. 1A and 1B, the lampblack purification device comprises an operation table 10, a lampblack collection and distribution device 20 disposed on the upper portion of the operation table 10, and at least one lampblack purification device 30 disposed in communication with the lampblack collection and distribution device 20. The console 10 is used to carry cookware, such as cookware, wherein the console 10 also allows a user to operate thereon. In a first preferred embodiment of the present invention, the operating table 10 is implemented as an electromagnetic cooking table. The oil smoke gas generated by the operation table 10 during the operation process is absorbed by the oil smoke collecting and distributing device 20, wherein the oil smoke collecting and distributing device 20 absorbs the oil smoke gas and performs a preliminary oil removing operation on the received oil smoke gas. In other words, the soot dispersing device 20 collects soot gas while preliminarily extracting oil droplets contained in the soot gas.

The lampblack purification device 30 is disposed at a lower end of the lampblack distribution device 20, and the collected lampblack gas is delivered to the lampblack purification device 30 by the lampblack distribution device 20. The lampblack purification device 30 further purifies the collected lampblack gas, and extracts and collects oil droplets in the lampblack gas. The oil fume purification device 30 collects oil droplets or oil drops obtained after purification, and then introduces the purified gas into the oil fume collecting and distributing device 20, so that the purified gas is discharged to the external environment through the oil fume collecting and distributing device 20.

In detail, the operating table 10 is an electromagnetic cooking table in the first preferred embodiment of the present invention. Accordingly, the worktop 10 includes a worktop body 11 and has at least one cooktop 12, wherein the cooktop 12 is formed on the worktop body 11 of the worktop 10. It is understood that, in the present invention, the number of the cooking holes 12 provided on the operating platform 10 may be one, two or more according to the actual use requirement. Therefore, the present invention does not limit the number of the cooking holes 12. The console body 11 is disposed at a lower end of the oil smoke collecting and distributing device 20, and the oil smoke gas generated at the cooking hole 12 is collected by the oil smoke collecting and distributing device 20. It is understood that the cooktop 12 is formed on the worktop body 11 of the worktop 10, wherein the cooktop 12 is adapted to receive and hold cookware, such as a pot. Preferably, the cooktop 12 of the operating deck 10 is a circular hole. Alternatively, the cooktop 12 of the operating table may have a square shape or another shape.

The console body 11 is also provided at the lampblack purification device 30, wherein the console body 11 is connected and supported by the lampblack purification device 30. The console body 11 is a transverse partition board used for bearing kitchen utensils, such as an electromagnetic range, wherein the console body 11 is arranged to separate the space inside the lampblack purification device 30 and the space at the upper end of the console body 11, so as to prevent lampblack gas generated at the upper end of the console 10 from directly entering the lampblack purification device 30. It can be understood that the console body 11 of the console 10 is provided with a blocking component to directly enter the lampblack purification device 30 from the lampblack gas generated at the upper end of the console 10, so as to prevent the lampblack gas from condensing into oil drops outside the lampblack purification device 30, and further prevent the oil drops from polluting the surface of the lampblack purification device 30.

As shown in fig. 1A and 1B, the console 10 further includes at least one receiving portion 13, wherein the receiving portion 13 is disposed on the console body 11, and the receiving portion 13 is supported by the console body 11. The receiving portion 13 is adapted to receive and support a kitchen utensil such as a pot, a basin, or the like.

As shown in fig. 6, in the first preferred embodiment of the present invention, the oil smoke purifying apparatus is suitable for an electromagnetic cooker, and correspondingly, the oil smoke purifying apparatus further comprises an electromagnetic cooker assembly 40, wherein the electromagnetic cooker assembly 40 is disposed between the operating platform 10 and the oil smoke purifying device 30, and the electromagnetic cooker assembly 40 heats the kitchen ware, such as an electromagnetic cooker, disposed in the cooking hole 12 of the operating platform 10. As will be understood by those skilled in the art, the induction cooker assembly 40 is a device for heating the kitchen ware by the electromagnetic principle. Accordingly, the induction cooker assembly 40 further includes a movement 41, at least one output device 42 electrically connected to the movement 41, and a heat sink 43. The movement 41 of the induction cooker assembly 40 is adjustable to have an on state and an off state, and when the movement is in the on state, the output device 42 heats the kitchen ware placed in the cooking hole 12. Accordingly, when the movement 41 is in the off state, the output device 42 stops heating. It should be noted that when the movement 41 is in the on state, the movement 41 is also used for controlling the output power of the output device 42 to control the heating power of the kitchen ware at the cooking range 12. The heat dissipation device 43 is disposed and connected to the movement 41 of the induction cooker assembly 40, and the heat generated by the movement 41 is dissipated to the external environment by the heat dissipation device 43, so as to prevent the movement 41 from being damaged due to long-time operation or heat accumulation.

As shown in fig. 3, the soot dispersing device 20 is used to collect soot gas and guide the collected soot gas downward to the soot cleaning device 30. It should be noted that the oil smoke purifying apparatus is surrounded by the oil smoke collecting and distributing device 20 and the operation desk 10 to form an air collecting space 100, wherein the oil smoke gas and air in the air collecting space 100 are collected by the oil smoke collecting and distributing device 20, and then the collected oil smoke gas and air are guided to the oil smoke purifying device 30 by the oil smoke collecting and distributing device 20. It can be understood that the oil smoke gas generated by the electromagnetic oven during the operation process is a gas with a relatively high temperature, and the oil smoke gas contains tiny oil drops, small smoke particles, small water drops, etc., and the oil smoke gas is collected by the oil smoke collecting and dispersing device 20 in a suction manner. When the oil smoke collecting and distributing device 20 collects the oil smoke gas in the gas collecting space 100, the oil smoke gas is primarily treated to separate out some oil drops, impurities, and the like contained in the oil smoke gas.

Correspondingly, the oil smoke collecting and distributing device 20 further includes a gas collecting hood 21, at least one gas collecting unit 22 disposed on the gas collecting hood 21, and a condensing gas collecting box 23. The gas-collecting hood 21 is disposed at the upper end of the console 10, and forms the gas-collecting space 100 with the console body 11 of the console 10, wherein the gas-collecting hood 21 is further disposed to prevent the oil smoke gas in the gas-collecting space 100 from overflowing and to keep the oil smoke gas in the gas-collecting space 100. The gas-collecting hood 21 further includes an upper hood body unit 211, a front shielding unit 212, and at least two side shielding units 213, wherein the side shielding units 213 are respectively disposed at the left and right sides of the front shielding unit 212 to block the gas in the gas-collecting space 100 from overflowing from the two sides. The side shield unit 213 is further disposed at a lower end of the upper housing unit 211, and the upper housing 211 is supported by the side shield unit 213 and the front shield unit 212.

The upper housing unit 211 of the gas collecting housing 21 is configured to block upward movement of the gas in the gas collecting space 100. In other words, the fume gas is blocked at the lower side of the upper housing unit 211 so as to be collected by the gas collecting housing 21. The front shielding unit 212 of the gas collecting hood 21 is provided at the front end of the operating table 10, wherein the front shielding unit 212 is used to block the gas in the gas collecting space 100 from moving forward and to upwardly support the upper hood body unit 211 provided at the upper end of the front shielding unit 212. Preferably, the gas-collecting hood 21 is an "L" shaped hood body, and the gas-collecting space 100 is defined by the gas-collecting hood 21 and the operation table 10 together. Preferably, the upper hood unit 211 of the gas hood 21 is implemented as a cover, wherein the upper hood unit 211 is arranged to cover the gas collecting space 100 and to store a portion of the oil smoke gas.

As shown in fig. 4A, the upper housing unit 211 further includes a cover body 2111, wherein the cover body 2111 is used for storing a portion of the soot gas collected by the upper housing unit 211 and preventing the soot gas from flowing outwardly. The upper housing unit 211 is provided with at least one air storage slot 2112, wherein the air storage slot 2112 is surrounded by the cover body 2111 of the upper housing unit 211. The cover body 2111 further includes a top cover 21111 and at least one side edge cover 21112 surrounding the top cover 21111, wherein the side edge cover 21112 is disposed around the lower edge of the top cover 21111 to cooperate with the top cover 21111 to define the air reservoir 2112. It is worth mentioning that the gas storage slot 2112 of the upper cover unit 211 can store part of the oil smoke gas and to some extent guide the gas in the gas collecting space 100 to be collected by the gas collecting unit 22.

As shown in fig. 4A, the front shielding unit 212 of the gas collecting channel 21 is used to shield the gas in the gas collecting space 100 from flowing forward and keep oil droplets, water droplets, etc. generated by the electromagnetic range during operation from leaking outward. Accordingly, the side shield units 213 of the gas collecting channel 21 are respectively disposed at the left and right sides of the front shielding unit 212. Preferably, the front shielding unit 212 and the two side shielding units 213 together form a "U" shaped shielding space, and the fume gas in the shielding space is collected by the gas collecting hood 21. More preferably, the front shielding unit 212 and the side shielding unit 213 of the gas collecting channel 21 are assembled by using a partition plate. It is worth mentioning that the front shielding unit 212 and the side shielding unit 213 are used to guide the gas in the shielding space to the gas collecting unit 22.

The gas collecting channel 21 is further provided with at least one gas collecting port 214, wherein the gas collecting port 214 communicates the gas collecting space 100 with the gas collecting unit 22, and wherein the gas in the gas collecting space 100 is guided to the gas collecting unit 22 through the gas collecting port 214. Preferably, the gas collection opening 214 of the gas collection enclosure 21 is formed in the upper portion of the gas collection enclosure 21. It will be understood by those skilled in the art that the fume gas entangled in the operation of the electromagnetic cookware, for example, is a gas with a higher temperature, and the fume gas with a higher temperature will flow upward in the gas collecting space 100, so that the gas collecting port formed at the upper part of the gas collecting hood 21 can better guide the fume gas to be absorbed into the gas collecting unit 22.

Preferably, the gas collecting port 214 of the gas collecting channel 21 is formed at the front shielding unit 212 of the gas collecting channel 21. That is, the gas in the gas collecting space 100 is directed rearward to the gas collecting unit 22. When the air collecting port 214 is formed at the front shielding unit 212 of the air collecting hood 21, the lampblack gas in the air collecting space 100 flows upward first and is shielded and stored in the air storage slot 2112 by the upper hood body unit 211 arranged at the top. The soot gas stored in the gas storage slot 2112 is guided to the gas collecting unit 22 through the gas collecting port 214. In addition, the side shield units 213 disposed at both sides of the front shielding unit 212 directly guide the gas in the gas collecting space 100 to the gas collecting port 214 of the gas collecting channel 21.

It will be understood by those skilled in the art that the gas collecting port 214 can also be disposed on the upper housing unit 211 of the gas collecting housing 21, i.e. the side of the upper housing 211 facing the operation table 10. It is understood that when the gas collecting opening 214 is provided at the upper cover unit 211 of the gas collecting channel 21, the oil fume gas in the gas collecting space 100 is directly guided through the gas collecting opening 214 by the upper cover unit 211. Accordingly, when the air collecting port 214 is disposed in the upper housing unit 211, the front shielding unit 212 and the side shielding unit 213 guide the cooking fume in the shielding space to the air storing slot 2112 of the upper housing unit 211, and then the upper housing unit 211 guides the cooking fume to the air collecting port 214. It is understood that the gas collecting port 214 can also be disposed at the side baffle unit 213 of the gas collecting channel 21, and in the first preferred embodiment of the present invention, the position where the gas collecting port 214 is formed is not limited herein.

As shown in fig. 4A, the gas collecting unit 22 of the lampblack collecting and dispersing device 20 is disposed at the gas collecting hood 21, and the gas collecting unit 22 guides and absorbs the gas in the gas collecting space 100 through the gas collecting port 214, wherein the gas may be air, lampblack gas, or a mixture of multiple gases. The gas collecting unit 22 sucks the oil smoke gas stored in the gas collecting space 100 through the gas collecting port 214, and then guides and transfers the absorbed oil smoke gas to the condensing gas collecting tank 23. Accordingly, the gas collecting unit 22 is disposed at the rear side of the front shielding unit 212 of the gas collecting hood 21, wherein the gas collecting unit 22 sucks the gas in the gas collecting space 100 in a negative pressure suction manner. In addition, the gas collecting unit 22 also performs centrifugal treatment on the received oil smoke gas in the process of absorbing gas, so as to separate out micro oil droplets, large particle impurities and the like contained in the oil smoke gas, thereby achieving the effect of primary oil removal.

Correspondingly, the gas collecting unit 22 further includes at least one negative pressure tank 221, and a gas guiding tank 222 communicated with the negative pressure tank 221. The negative pressure tank 221 forms a negative pressure to suck the gas in the gas collecting space 100 through the gas collecting port 214. The negative pressure tank 221 and the gas guiding tank 222 are communicated with each other, and the soot gas absorbed in the negative pressure tank 221 is introduced into the gas guiding tank 222. The gas guiding box 222 is configured to guide the oil smoke gas to the condensed gas collecting box 23. Further, the gas collecting unit 22 further includes at least one negative pressure centrifugal device 223, wherein the negative pressure centrifugal device 223 is disposed between the negative pressure tank 221 and the gas guide tank 222, a negative pressure is generated in the negative pressure tank 221 by the negative pressure centrifugal device 223, and the gas in the negative pressure tank 221 is sucked to the gas guide tank 222. In addition, the negative pressure centrifugal device 223 is still producing the in-process of negative pressure will oil smoke gas carries out centrifugal treatment to will oil drop, large granule impurity in the oil smoke gas separate out, and then reach the effect of preliminary deoiling.

Specifically, the negative pressure tank 221 is provided with at least one negative pressure space 2211, wherein the negative pressure space 2211 is used for storing the lampblack gas and storing the collected oil drops in the negative pressure tank 221. As will be understood by those skilled in the art, the fume gas in the gas collecting space 100 is sucked by the negative pressure tank 221 of the gas collecting unit 22, wherein the fume gas may partially drop into the negative pressure tank 221 during being guided to the negative pressure tank 221. The negative pressure tank 221 collects the dripping oil droplets and guides the oil droplets to the condensation header tank 23.

Accordingly, the gas guiding box 222 of the gas collecting unit 22 is disposed to communicate with the negative pressure space 2211 of the negative pressure box 221 through the negative pressure centrifugal device 223, and the oil smoke gas and oil drops obtained by centrifugation collected by the negative pressure box 221 are guided to the condensed gas collecting box 23 by the gas guiding box 222. The gas guiding box 222 has at least one gas guiding space 2221, wherein the gas guiding space 2221 is used for storing the lampblack gas collected by the negative pressure centrifugal device 223, and storing the substances such as oil drops obtained by the centrifugation of the negative pressure centrifugal device 223. It is worth mentioning that the negative pressure space 2211 and the gas guiding space 2221 of the gas collecting unit 22 are mutually independent spaces, and the negative pressure space 2211 and the gas guiding space 2221 are communicated by the negative pressure centrifugal device 223, and the gas in the negative pressure space 2211 is unidirectionally guided to the gas guiding space 2221 by the negative pressure centrifugal device 223. That is, the soot gas is unidirectionally guided within the gas collecting unit 22, wherein the negative pressure centrifugal device 223 is capable of preventing backflow of the soot gas.

Preferably, the negative pressure tank 221 and the gas guide tank 222 of the gas collecting unit 22 are assembled and spliced by using partition plates. The gas collecting unit 22 further comprises a first partition 2212, a second partition 2213, a third partition 2214, a left partition 2215 and a right partition 2216, wherein the first partition 2212, the second partition 2213, the left partition 2215 and the right partition 2216 form the negative pressure tank 221. Accordingly, the gas guide box 222 of the gas collecting unit 22 includes the second partition 2213, the third partition 2214, the left partition 2215 and the right partition 2216. It can be understood that the second partition 2213 is used to separate the negative pressure space 2211 of the negative pressure tank 221 and the gas guiding space 2221 of the gas guiding tank 222. The negative pressure centrifugal device 223 is provided in the second partition 2213, and the negative pressure centrifugal device 223 is connected to and supported by the second partition 2213.

More preferably, the right side partition 2216 of the gas collecting unit 22 is the side baffle unit 213 of the gas collecting channel 21.

It will be understood by those skilled in the art that the negative pressure tank 221 and the gas guiding tank 222 of the gas collecting unit 22 can also be implemented as independently assembled boxes, wherein the negative pressure tank 221 and the gas guiding tank 222 are arranged in the gas collecting channel 21 in an assembled manner.

The negative pressure centrifugal device 223 of the gas collecting unit 22 further includes a negative pressure generating device 2231 and a centrifugal device 2232, wherein the negative pressure generating device 2231 and the centrifugal device 2232 are in communication with each other. The negative pressure generating device 2231 generates a negative pressure in the negative pressure tank 221 of the gas collecting unit 22 to suck the gas in the gas collecting space 100, wherein the negative pressure generating device 2231 also absorbs the gas in the negative pressure space 2211 of the negative pressure tank 221 and introduces the gas into the gas guiding space 2221 of the gas guiding tank 222. The centrifugal device 2232 is disposed to communicate with the negative pressure generating device 2231, and performs centrifugal treatment on the gas in the process of guiding and conveying the gas to separate out oil droplets contained in the lampblack gas.

Preferably, according to the first preferred embodiment of the present invention, wherein the negative pressure centrifugal device 223 of the gas collecting unit 22 is implemented as a centrifugal fan device, wherein the negative pressure centrifugal device 223 is disposed on the second partition 2213, and the negative pressure centrifugal device 223 is supported by the second partition 2213. It is worth mentioning that the negative pressure centrifugal device 223 is further provided to unidirectionally guide the gas in the negative pressure space 2211 of the negative pressure tank 221 to the gas guide tank 222.

The gas collecting unit 22 further includes a bottom partition 2217, wherein the bottom partition 2217 is disposed at the lower end of the first partition 2212 and the second partition 2213, wherein the bottom partition 2217 is used for separating the negative pressure tank 221 from the condensed gas collecting tank 23, and the gas guiding space communicating with the gas guiding tank 222 is provided in the condensed gas collecting tank 23. In other words, the bottom partition 2217 is used to guide the lampblack gas in the gas collecting unit 22 to the condensing gas collecting box 23.

The gas guiding box 222 of the gas collecting unit 22 is communicated with the condensed gas collecting box 23, and the oil smoke gas and oil drops obtained by centrifugation collected by the gas collecting unit 22 are guided to the condensed gas collecting box 23 by the gas guiding box 222. Accordingly, the gas guiding box 222 further has at least one guiding opening 2223, wherein the guiding opening 2223 communicates the gas guiding space 2221 of the gas guiding box 222 with the condensed gas collecting box 23. The guide ports 2223 are formed in the bottom partition 2217 of the gas collecting unit 22. Accordingly, the negative pressure tank 221 of the gas collecting unit 22 is further provided with at least one oil dropping hole 2218, wherein the oil dropping hole 2218 is formed in the bottom partition 2217 to communicate the negative pressure space 2211 of the negative pressure tank 221 with the condensation gas collecting tank 23, so as to guide oil drops collected in the negative pressure tank 221 to the condensation gas collecting tank 23.

As shown in fig. 4A, the condensing gas collecting box 23 of the oil smoke collecting and distributing device 20 is disposed at the lower end of the gas collecting unit 22, wherein the oil smoke gas and oil drops collected by the gas collecting unit 22 are guided to the condensing gas collecting box 23. The condensing gas collecting box 23 condenses the oil smoke gas, so that the oil smoke gas is condensed into oil drops or water drops under the condensing action of the condensing gas collecting box 23. In brief, the condensing header 23 is configured as a device having a refrigeration function, and reduces the temperature of the oil smoke gas in the condensing header 23. As will be appreciated by those skilled in the art, the temperature of the cooking fumes is reduced to liquefy into oil droplets and water droplets, thereby separating out the oil droplets or water droplets within the condensate header 23.

It should be noted that the condensed gas collecting box 23 is communicated with the gas collecting unit 22 through the guide hole 214, and the condensed gas collecting box 23 is disposed at the lower end of the gas collecting unit 22. It is understood that the oil drops separated out in the gas collecting unit 22 drop or slide down to the bottom partition 2217 under the action of its own gravity, and the oil drops are guided by the bottom partition 2217 to flow into the condensed gas collecting tank 23. It will be understood that the soot gas is directed downwardly in the gas collecting unit 22, and the flow direction of the soot gas is the same as the flow direction of the collected oil droplets.

The condensing gas-collecting box 23 further comprises a condensing box 231, and at least one condensing device 232 disposed on the condensing box 231. The condensing box 231 is used for receiving and storing the oil smoke gas transmitted by the gas collecting unit 22, and guiding the condensed oil smoke gas to the oil smoke purifying device 30. Accordingly, the condensing unit 232 is disposed in the condensing box 231, and the temperature of the soot gas stored in the condensing box 231 is reduced by the condensing unit 232, so that the soot gas is liquefied into oil droplets or water droplets due to the temperature reduction. It is worth mentioning that the condensation box 231 is assembled by sealing and connecting partition plates. The condensing box 231 further has at least one condensing space 2311, wherein the condensing space 2311 is used for storing the oil smoke gas transmitted by the gas collecting unit 22 and accommodating the condensing device 232.

Accordingly, the condensing unit 232 of the condensing header tank 23 is disposed in the condensing space 2311 of the condensing tank body 231. The condensing unit 232 is a refrigerating unit, and can absorb the temperature of the cooking fume in the condensing space 2311. Preferably, the condensing unit 232 of the condensing header tank 23 is a condensing pipe, wherein the condensing pipe is bent and arranged in the condensing space 2311 of the condensing tank body 231 to increase a contact area of the condensing unit 232 with gas. It should be noted that when the lampblack gas in the condensation space 2311 contacts the condensation device 232, the lampblack gas has a higher temperature, and the condensation device 232 has a lower temperature, so that the lampblack gas with the higher temperature is liquefied on the outer surface of the condensation device 232, and oil drops and water drops are separated out.

It is worth mentioning that the oil droplets collected in the gas collecting unit 22 are also directed to the condensation gas collecting tank 23. Correspondingly, the condensation gas collecting tank 23 is communicated with the oil fume purification device 30, wherein the condensation gas collecting tank 23 guides and transmits the liquefied oil drops and the condensed and collected oil drops to the oil fume purification device 30, so that the oil drops are further purified and collected by the oil fume purification device 30.

As shown in fig. 4D, the oil smoke collecting and distributing device 20 further includes an exhaust device 24, wherein the exhaust device 24 is disposed in communication with the oil smoke purifying device 30, the oil smoke purifying device 30 guides the purified gas to the exhaust device 24, and the exhaust device 24 exhausts the purified gas to the external environment. It should be noted that the exhaust device 24 is disposed at the upper end of the lampblack purification device 30, wherein the gas purified by the lampblack purification device 30 is guided upwards to be transmitted to the exhaust device 24. The exhaust 24 is further arranged to further purify the gas from impurities, such as water vapor, fine oil and gas, oil droplets or odor, so as to further reduce the impurities contained in the exhausted gas.

Accordingly, the exhaust device 24 further includes a first exhaust unit 241 and a second exhaust unit 242. The first exhaust unit 241 is disposed to communicate with the lampblack purification device 30 and the second exhaust unit 242, and the first exhaust unit 241 guides the gas purified by the lampblack purification device 30 to the second exhaust unit 242, and the gas is exhausted to the external environment through the second exhaust unit 242. The first exhaust unit 241 of the exhaust device 24 is implemented as an exhaust passage which is communicated up and down, so that the gas purified by the soot cleaning device 30 is guided upward by the first exhaust unit 241. Correspondingly, the first exhaust unit 241 further has at least one first exhaust channel 2411, wherein the first exhaust channel 2411 is communicated with the lampblack purification device 30. Preferably, the first exhaust unit 241 is a passage hermetically assembled by a partition. Alternatively, the first exhaust channel 241 may be implemented as an up-down through exhaust duct.

Accordingly, the second exhaust unit 242 is disposed to communicate with the first exhaust unit 241, wherein the gas guided by the first exhaust unit 241 is exhausted to the external environment by the second exhaust unit 242. Preferably, the second exhaust unit 242 is a passage hermetically assembled by a partition. Alternatively, the second exhaust channel 241 may be implemented as an up-down through exhaust duct. The second exhaust unit 242 further has at least one exhaust passage 2421, wherein the exhaust passage 2421 is communicated with the first exhaust passage 2411 of the first exhaust unit 241. It is understood that the gas in the second exhaust unit 242 is exhausted to the external environment. The second exhaust unit 242 further has at least one exhaust port 2422, wherein the second exhaust port 2422 is formed at the top end of the second exhaust unit 242, and the purified gas is guided upwards to the external environment by the second exhaust unit 242. More preferably, the second exhaust unit 242 is disposed to longitudinally communicate with the first exhaust unit 241, and guides the gas of the first exhaust unit 241 laterally outward, forming a larger exhaust port for the second exhaust unit 242.

The exhaust device 24 further comprises a filtering and purifying device 243, wherein the filtering and purifying device 243 is used for filtering and purifying the gas purified by the lampblack purifying device 30 so as to further reduce impurities such as water vapor and oil droplets contained in the gas exhausted to the external environment, so that the gas exhausted to the external environment meets the emission standard. Preferably, the filtering and purifying device 243 is provided at the second exhaust unit 242 of the exhaust device 24. Preferably, in the first preferred embodiment of the present invention, the filtering and purifying device 243 is implemented as an activated carbon filtering device, wherein the activated carbon filtering device is disposed in the second exhaust passage 2421 of the second exhaust unit 242 of the exhaust device 24, wherein the activated carbon filtering device can adsorb impurities contained in the gas in the second exhaust passage 2421, such as water droplets, oil droplets, or substances with odor, etc. It should be noted that, in the first preferred embodiment of the present invention, the filtering and purifying device 243 is only used as an example and is not limited thereto.

As shown in fig. 4A to fig. 5, the oil smoke purifying device 30 is used for receiving the oil smoke gas collected by the oil smoke collecting and distributing device 20 and receiving oil drops obtained after the condensation process of the oil smoke collecting and distributing device 20. The lampblack purification device 30 further purifies the received lampblack gas, and guides the purified gas upward to the exhaust unit 24 of the lampblack collection and distribution device 20. The lampblack purification device 30 is also used for guiding and collecting impurities such as oil droplets and water droplets obtained by purifying the lampblack gas. Accordingly, the lampblack purification device 30 is provided at the lower end of the console 10, and the console 10 is supported upward by the lampblack purification device 30. It is worth mentioning that the lampblack purification device 30 is arranged at the lower end of the operation table 10 in a surrounding manner, the space at the lower part of the operation table 10 is fully utilized, and the lampblack gas is guided to be sufficiently surrounded in the lampblack purification device 30, so that the lampblack gas has a larger purification processing space.

Accordingly, the lampblack purification device 30 further comprises a collecting unit 31, a first purification unit 32 and a second purification unit 33. The collecting unit 31 is used for collecting the oil smoke gas and oil drops, etc. guided and transmitted by the gas collecting unit 20, and the oil smoke gas is guided to the first purifying unit 32 by the flow of the oil smoke gas guided by the collecting unit 31. The collecting unit 31 is arranged to guide the oil smoke gas to move irregularly inside the collecting unit 31, so that the condensed oil mist collides and adsorbs each other, and heavy oil droplets are formed and drop or slide on the bottom of the collecting unit 31. It is worth mentioning that the manifold unit 31 is also used to guide and collect dripping or sliding oil droplets. The collecting unit 31 guides and transmits the treated oil smoke gas to the first purifying unit 32 and the second purifying unit 33, and the first purifying unit 32 and the second purifying unit 33 further purify the oil smoke gas to extract impurities such as oil drops and water drops contained in the oil smoke gas.

The lampblack purification device further comprises a support 50, wherein the collecting unit 31, the first purification unit 32 and the second purification unit 33 are arranged on the support 50, and the collecting unit 31, the first purification unit 32 and the second purification unit 33 are supported by the support 50. It is understood that the console 10 is also provided to the bracket 50 of the lampblack purification device 30, and the console 10 is supported by the bracket 50. The stand 50 further comprises at least three support legs 51 and at least one support plate 52, wherein the support plate 52 is provided to the support legs 51, and a connection frame is assembled by the support plate 52 and the support legs 51. It is understood that the collecting unit 31, the first purifying unit 32 and the second purifying unit 33 of the lampblack purifying device 30 are respectively arranged on the bracket 50.

The current collecting unit 31 is circumferentially disposed at a lower end of the operating table 10. Preferably, the header 311 of the collecting unit 31 is a ring-shaped tank which is hermetically assembled by a plurality of partitions. Alternatively, the collecting tank 311 of the collecting unit 31 may be implemented as a pipe, which guides the flow of the soot gas and collects oil droplets in the pipe.

Correspondingly, the collecting unit 31 further includes a collecting tank 311, and at least one gas barrier 312 disposed on the collecting tank 311, wherein the collecting tank 311 is used for receiving the oil smoke gas and oil droplets guided and transported by the condensing gas collecting tank 23. The header 311 is also used to guide the flow of the soot gas and to guide the soot gas to be delivered to the first purification unit 32. In addition, the header tank 311 is also used to guide the flow of the impurities such as the oil droplets and collect the oil droplets. Accordingly, the lampblack purification device 30 further comprises an oil receiving basin 34, wherein the oil receiving basin 34 is arranged on the collecting unit 31, and impurities such as oil drops and water drops collected by the collecting unit 31 are received by the oil receiving basin 34. In other words, the manifold unit 31 guides the oil drops in the manifold unit 31 and guides the oil drops to the oil receiving basin 34, and the oil receiving basin 34 collects impurities such as oil drops. The oil receiving basin 34 is detachably disposed at the bottom of the collecting unit 31.

The collecting unit 31 is further provided with a collecting channel 313, wherein the collecting channel 313 is formed by the collecting tank 311 in a surrounding manner. The collecting channel 313 of the collecting unit 31 is used for collecting, storing and transmitting oil smoke gas, purifying oil droplets and the like obtained by treatment. The collecting unit 31 further has an air inlet 314 and an air outlet 315, wherein the air inlet 314 is formed at the front end of the collecting tank 311, and the condensed oil smoke gas and oil drops in the condensed gas collecting tank 23 are introduced into the collecting channel 313 of the collecting unit 31 through the air inlet 314. In other words, the air inlet 314 communicates the collecting channel 313 of the collecting unit 31 with the condensing space 2311 of the condensing header 23. Accordingly, the gas outlet 315 is formed at the end of the collecting unit 31, wherein the gas outlet 315 is configured to communicate the collecting channel 313 of the collecting unit 31 with the first exhaust channel 2411 of the exhaust unit 24, and the gas after the purification treatment is guided by the collecting channel 313 to be exhausted to the exhaust channel 2411 through the gas outlet 315.

It is worth mentioning that the oil fume is introduced into the collecting unit 31, and the flow of the oil fume gas around the collecting channel 313 is guided by the collecting tank 311 of the collecting unit 31. It is worth mentioning that the oil smoke gas circularly flows in the collecting tank 311, and is purified to separate out impurities such as oil drops, water drops and the like in the flowing process.

Preferably, the first purification unit 32 and the second purification unit 33 are respectively disposed at the collecting tank 311 of the collecting unit 31, and the first purification unit 32 and the second purification unit 33 further purify the soot gas in the collecting channel 313 in the collecting unit 31 to further remove oil droplets, water droplets, and the like contained in the soot gas.

The gas barrier 312 of the collecting unit 31 is disposed at the collecting tank 311, and the collecting channel 313 of the collecting unit 31 is partitioned into two or more partitioned spaces by the gas barrier 312, wherein the partitioned spaces are communicated with each other, and the soot gas is guided and circulated in the partitioned spaces. It is understood that the gas barrier 312 is disposed in the collecting channel 313 in the collecting tank 311, wherein the soot gas in the collecting channel 313 is blocked by the gas barrier 312 during the flowing process. The oil smoke gas in the collecting channel 313 is blocked by the gas barrier 312, so that the oil smoke gas makes irregular movement in the collecting channel in the collecting tank 311.

As will be understood by those skilled in the art, the oil mist airflows in the oil smoke condensed by the condensation header 23 move irregularly, so that the oil mist airflows collide or adsorb each other to form heavy oil droplets. Such heavier oil mist drops downward by its own weight or precipitates on the inner walls of the gas barrier 312 and the header tank 311, and the oil mist slides down along the inner walls of the gas barrier 312 or the header tank 311 by its own weight on the bottom of the header tank 311. Oil droplets dropping or sliding down in the header tank 311 are guided to the oil pan 34 by the header tank 311.

It should be noted that, in the first preferred embodiment of the present invention, the collecting unit 31 of the oil fume purifying device 30 guides and collects oil drops separated out from the oil fume gas. The flow direction of the oil droplets in the collecting unit 31 is the same as the moving direction of the oil smoke gas, that is, the direction of the oil droplets is the same as the direction of the oil smoke gas. Therefore, the problem that oil drops are difficult to collect due to oil drop backflow caused by the fact that the direction of the oil smoke gas guided to move is opposite to the flowing direction of the oil drops is solved.

As shown in fig. 4B and 4C, the first purifying unit 32 and the second purifying unit 33 are respectively disposed at the collecting tank 311 of the collecting unit 31, wherein the first purifying unit 32 ionizes the smoke and the remaining oil mist by high voltage static electricity and then adsorbs the ionized smoke and oil mist to the electrode plate, and wherein the second purifying unit 33 is used for removing the odor in the purified gas.

In detail, the first purifying unit 32 further includes a high voltage electrostatic oil removing device 321, wherein the high voltage electrostatic oil removing device 321 can ionize the oil smoke gas retained in the collecting channel 313 of the collecting unit 31 under the condition that a high voltage is provided, and the ionized oil smoke and the remaining oil mist are adsorbed on the electrode plate. Briefly, the oil fume in the collecting channel 313 is electrostatically ionized by the high-voltage electrostatic oil removing device 321 and then deposited on the electrode plate, so as to further reduce the oil fume in the discharged gas. Preferably, the high-voltage electrostatic oil removing device 321 is a plasma pure high-voltage electrostatic oil fume purifying device. The first purifying unit 32 further comprises a power device 322, wherein the power device 322 is electrically connected to the high-voltage electrostatic degreasing device 321, and the power device 322 provides electric energy for the high-voltage electrostatic degreasing device 321. Preferably, the power supply device 322 is a high voltage power supply with power of 800W.

The second purification unit 33 is disposed at the collecting tank 311 of the collecting unit 31, wherein the second purification unit 33 is used to remove the odor of the gas within the collecting channel 313 of the collecting unit 31. Briefly, the second purifying unit 33 is an odor removing device. Preferably, in the first preferred embodiment of the present invention, the second purification device 33 is implemented as an ultraviolet odor removal device. It is noted that the second purification unit 33 is only given here as an example and not as a limitation, and that other suitable odour removal means may be applied.

Specifically, the second purifying unit 33 further comprises an odor elimination housing 331, and at least one ultraviolet odor elimination lamp 332 disposed in the housing 331, wherein the ultraviolet odor elimination lamp 332 is capable of removing odor from the gas in the odor elimination housing 331 when in an energized state. The odor-removed gas purified by the second purifying unit 33 is discharged out of the lampblack purifying device 30 through the gas outlet 315, wherein the purified odor-removed gas is guided and transmitted to the exhaust device 24 of the lampblack collecting and distributing device 20, and the purified odor-removed gas is discharged to the external environment through the exhaust device 24.

According to the utility model discloses an on the other hand, the utility model discloses an oil smoke clarification plant's oil smoke purification method is further provided, including following step:

(1) guiding the collected oil smoke gas to flow downwards;

(2) separating and extracting oil fume impurities in the oil fume gas at the bottom end; and

(3) the purified gas is directed upwardly.

It is worth mentioning that in the first preferred embodiment of the present invention, the oil smoke gas is guided downwards after being collected, wherein the oil smoke gas is primarily purified of separated oil droplets in the process of being guided downwards. The cooking fume is guided from the cooking fume collecting and distributing device 20 to the cooking fume purifying device 30, and oil drops and purified gas are separated from the cooking fume purifying device, wherein the oil drops obtained after purification are retained in the cooking fume purifying device 30, and wherein the gas obtained after purification is guided upward so as to be discharged to the external environment. It is understood that, in the above-mentioned purification treatment method, the purification and separation of the oil smoke are performed when the oil smoke is guided downward and the oil smoke is at the bottom of the operation table 10. In a first preferred embodiment of the present invention, the direction in which the oil drops in the cooking fume gas are separated, collected and guided is the same as the direction in which the cooking fume gas is guided. That is, the oil fume gas is guided downward, the impurities such as oil mist in the oil fume gas are separated at the lower end, and the gas purified after separation is guided upward and discharged. It can be understood that the separated oil drops are not guided upwards along with the oil smoke gas, and the oil drops are prevented from flowing back from top to bottom in the process of being guided upwards by the oil smoke.

In the above treatment and purification method (2), the method for separating and extracting oil droplets from the oil fume gas further comprises the following steps: (2.1) centrifuging the lampblack gas to primarily separate and extract oil drop impurities in the lampblack gas; and (2.2) cooling the oil smoke gas to liquefy oil mist in the oil smoke gas. The above treatment and purification method further comprises the following steps: and (2.3) guiding the oil smoke gas to move in a collision way, and condensing and separating out larger oil drops. The purification treatment method of the oil fume purification equipment further comprises the following steps: (2.4) ionizing the oil smoke gas at high pressure, and adsorbing oil mist in the oil smoke gas to a polar plate; and (2.5) ultraviolet irradiation to remove odor of the gas. The purification treatment method of the oil fume purification equipment further comprises the following steps: (2.6) filtering and adsorbing impurities in the exhaust gas.

Referring to fig. 7 to 9 of the drawings, an oil smoke purifying apparatus according to a second preferred embodiment of the present invention will be explained in the following description. The lampblack purification device comprises an operation table 10A, a lampblack collecting and dispersing device 20 arranged at the upper part of the operation table, and at least one lampblack purification device 30 arranged and communicated with the lampblack collecting and dispersing device 20. The console 10A is used to support various gas cookers, such as pots, and to allow a user to operate on the console. In a second preferred embodiment of the present invention, the operating table is implemented as a gas cooking table. The oil smoke gas generated by the operation table 10A during the operation process is absorbed by the oil smoke collecting and distributing device 20, wherein the oil smoke collecting and distributing device 20 absorbs the oil smoke gas and performs a preliminary oil removing operation on the received oil smoke gas. The lampblack purification equipment further comprises a bracket 50, wherein the bracket 50 is arranged at the lower end of the operation table, and the operation table and the lampblack purification device 30 are supported by the bracket.

In detail, the operating table 10A is a gas cooking range in a second preferred embodiment of the present invention. Accordingly, the operating table 10A includes an operating table body 11A, and further includes at least one burner 12A, wherein the burner 12A is formed on the operating table body 11A of the operating table 10A. It is understood that, in the present invention, the number of the cooking ranges 12A provided on the operating platform 10A may be one, two or more according to the actual use requirement. That is, the oil fume purification device can be a single-stove device, a double-stove device or a multi-stove device. Therefore, the present invention does not limit the number of the cooking holes 12A. The console body 11A is disposed at a lower end of the oil smoke collecting and distributing device 20, and the oil smoke gas generated at the cooktop 12A is collected by the oil smoke collecting and distributing device 20. It is understood that the cooktop 12A is formed on the worktop body 11A of the worktop 10A, wherein the cooktop 12A is adapted to receive and hold a utensil, such as a pot. Preferably, the cooktop 12A of the operating deck 10A is a circular hole.

As shown in fig. 8 to 9, the cooking fume purifying apparatus further includes a gas range assembly 40A, wherein the gas range assembly 40 is disposed between the operating table 10 and the cooking fume purifying device 30, and the gas range assembly 40 heats a kitchen ware, such as a gas cooker, disposed in the cooking hole 12 of the operating table 10.

It should be noted that, in the second preferred embodiment of the present invention, the structure and function of the console 10, the oil smoke collecting and distributing device 20, the oil smoke purifying device 30, and the support 50 of the oil smoke purifying apparatus are substantially the same as those of the first preferred embodiment. The difference is that the structure of the gas range assembly 40A is different from the structure and function of the induction cooker assembly 40 in the first preferred embodiment.

As shown in fig. 9, the gas range assembly 40A further includes a burner 41A and a gas supply device 42A, wherein the burner 41A is connected to the gas supply device 42A, and the burner 41A is supplied with fuel by the gas supply device 42A. It is understood that the core 41A is provided to the table body 11A of the table 10A. Preferably, the core 41A of the gas range has an inner diameter of 300 mm. The core 41A is mounted to the cooktop 12A of the operating deck 10A. It is understood that a gas cooking utensil, such as a pot, is put into the cooktop 12A of the operating table 10A, and the pot is heated by the wick 41A.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention.

The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims

1. An oil smoke clarification plant which characterized in that includes:

an electromagnetic oven assembly or a gas oven assembly;

a soot collecting and diffusing device, wherein the soot collecting and diffusing device is held above the induction cooker assembly or the gas cooker assembly, wherein the soot collecting and diffusing device collects soot gas and discharges purified gas; and

2. The fume purification apparatus according to claim 1, wherein said fume purification apparatus further comprises a console, said console being disposed on said fume collector and said electromagnetic range assembly or said gas range assembly being supported by said console, wherein said fume collector and said console form a gas collecting space, wherein said fume collector collects gas in said gas collecting space.

3. The lampblack purification device according to claim 2, wherein the lampblack purification device is arranged below the operation table, the operation table is supported by the lampblack purification device, and the lampblack purification device surrounds the lower portion of the operation table.

4. The lampblack purification device according to claim 3, wherein the lampblack purification device guides the flow of the lampblack gas and separates and extracts oil drops in the lampblack gas, wherein the lampblack purification device is further used for collecting the extracted oil drops and guiding the purified gas to the lampblack collection and dispersion device.

5. The lampblack purification device according to any one of claims 2 to 4, wherein the lampblack dispersing device further comprises:

6. The vapor purification apparatus according to claim 5, wherein the vapor collection hood further comprises a front shielding unit and has at least one vapor collection port, wherein the vapor collection port is formed in the front shielding unit, wherein the vapor collection port communicates with the vapor collection unit in the vapor collection space to allow the vapor collection unit to absorb the vapor in the vapor collection space through the vapor collection port.

7. The fume purification apparatus according to claim 6, wherein said gas collection unit is disposed at said gas collection hood, wherein said gas collection unit further comprises a negative pressure tank and a gas guide tank communicating with said negative pressure tank, wherein said negative pressure tank generates negative pressure to attract fume gas in said gas collection space, wherein gas in said negative pressure tank is introduced into said gas guide tank, and said fume gas is guided by said gas guide tank.

8. The lampblack purification device according to claim 7, wherein the gas collection unit further comprises at least one negative pressure centrifugal device, wherein the negative pressure tank has a negative pressure space, wherein the gas guide tank has a gas guide space, the negative pressure centrifugal device being used to communicate the negative pressure space and the gas guide space, wherein the negative pressure centrifugal device generates a negative pressure in the negative pressure space of the negative pressure tank to absorb lampblack gas in the gas collection space.

9. The fume purification apparatus according to claim 8, wherein said negative pressure centrifugal device absorbs fume gas, and processes said fume gas by centrifugal action, and separates oil droplets from said fume gas.

10. The fume purification apparatus of claim 5, wherein the gas collecting unit further comprises a condensing gas collecting tank, wherein the condensing gas collecting tank has at least one condensing space, the condensing gas collecting tank is connected to the gas collecting unit, and the fume gas is guided to the condensing space by the gas collecting unit, wherein the condensing gas collecting tank is used for reducing the temperature of the fume gas in the condensing space so as to liquefy the fume gas and separate out the oil in the fume gas.

11. The fume purification apparatus of claim 6, wherein the gas collecting unit further comprises a condensing gas collecting tank, wherein the condensing gas collecting tank has at least one condensing space, the condensing gas collecting tank is connected to the gas collecting unit, the fume gas is guided to the condensing space by the gas collecting unit, and wherein the condensing gas collecting tank is used for reducing the temperature of the fume gas in the condensing space so as to liquefy the fume gas and separate out the oil in the fume gas.

12. The fume purification apparatus of claim 7, wherein the gas collecting unit further comprises a condensing gas collecting tank, wherein the condensing gas collecting tank has at least one condensing space, the condensing gas collecting tank is connected to the gas collecting unit, and the fume gas is guided to the condensing space by the gas collecting unit, wherein the condensing gas collecting tank is used to lower the temperature of the fume gas in the condensing space, so that the fume gas is liquefied to separate out the oil in the fume gas.

13. The fume purification apparatus of claim 8, wherein the gas collecting unit further comprises a condensing gas collecting tank, wherein the condensing gas collecting tank has at least one condensing space, the condensing gas collecting tank is connected to the gas collecting unit, and the fume gas is guided to the condensing space by the gas collecting unit, wherein the condensing gas collecting tank is used to lower the temperature of the fume gas in the condensing space, so that the fume gas is liquefied to separate out the oil in the fume gas.

14. The vapor purification apparatus of claim 9, wherein the gas collection unit further comprises a condensing gas collection tank, wherein the condensing gas collection tank has at least one condensing space, the condensing gas collection tank is connected to the gas collection unit, the vapor is guided to the condensing space by the gas collection unit, and wherein the condensing gas collection tank is used to reduce the temperature of the vapor in the condensing space, so that the vapor is liquefied to separate out the oil in the vapor.

15. The fume purification apparatus of claim 10, wherein the condensate header tank further comprises:

a condensing box body, wherein the condensing space is formed in the condensing box body; and

16. The fume purification apparatus of claim 11, wherein the condensate header tank further comprises:

17. The fume purification apparatus of claim 12, wherein the condensate header tank further comprises:

18. The fume purification apparatus of claim 13, wherein the condensate header tank further comprises:

19. The fume purification apparatus of claim 14, wherein the condensate header tank further comprises:

20. The lampblack purification device according to claim 1, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

21. The lampblack purification device according to claim 5, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

22. The lampblack purification device according to claim 10, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

23. The lampblack purification device according to claim 11, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

24. The lampblack purification device according to claim 12, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

25. The lampblack purification device according to claim 13, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

26. The lampblack purification device according to claim 14, wherein the lampblack distribution device further comprises an exhaust device, wherein the exhaust device is communicated with the lampblack purification device, and the gas after oil-gas separation is exhausted through the exhaust device.

27. The lampblack purification device as claimed in claim 20, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, and the gas is exhausted through the second exhaust channel.

28. The lampblack purification device as claimed in claim 21, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, and the gas is exhausted through the second exhaust channel.

29. The lampblack purification device as claimed in claim 22, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, and the gas is exhausted through the second exhaust channel.

30. The lampblack purification device as claimed in claim 23, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, and the gas is exhausted through the second exhaust channel.

31. The lampblack purification device as claimed in claim 24, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, and the gas is exhausted through the second exhaust channel.

32. The lampblack purification device as claimed in claim 25, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel directs the purified gas upward to the second exhaust channel, through which the gas is exhausted.

33. The lampblack purification device as claimed in claim 26, wherein the exhaust device further comprises a first exhaust unit and a second exhaust unit, wherein the first exhaust unit has at least a first exhaust channel, wherein the second exhaust unit has at least a second exhaust channel, wherein the first exhaust channel is communicated with the second exhaust channel, wherein the first exhaust channel guides the purified gas upward to the second exhaust channel, and the gas is exhausted through the second exhaust channel.

34. The lampblack purification device according to claim 27, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

35. The lampblack purification device according to claim 28, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

36. The lampblack purification device according to claim 29, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

37. The lampblack purification device according to claim 30, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

38. The lampblack purification device according to claim 31, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

39. The lampblack purification device according to claim 32, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

40. The lampblack purification device according to claim 33, wherein the second exhaust unit further comprises at least one filtering and purifying means, wherein the filtering and purifying means is provided to the second exhaust unit to further remove impurities in the gas, wherein the filtering and purifying means comprises activated carbon.

41. The lampblack purification device according to claim 2, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the lampblack distribution device and is arranged below the operating platform, and the flow collecting unit guides the flow of the lampblack gas and collects dropped or slipped oil drops.

42. The lampblack purification device according to claim 15, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the condensation gas collecting tank of the lampblack distribution device, condensed lampblack gas is guided and transmitted to the flow collecting unit by the condensation gas collecting tank, the flow of the lampblack gas is guided by the flow collecting unit, and dropped or slipped oil drops are collected.

43. The lampblack purification device according to claim 15, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the condensation gas collecting tank of the lampblack distribution device, condensed lampblack gas is guided and transmitted to the flow collecting unit by the condensation gas collecting tank, the flow of the lampblack gas is guided by the flow collecting unit, and dropped or slipped oil drops are collected.

44. The lampblack purification device according to claim 16, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the condensation gas collecting tank of the lampblack distribution device, condensed lampblack gas is guided and transmitted to the flow collecting unit by the condensation gas collecting tank, the flow of the lampblack gas is guided by the flow collecting unit, and dropped or slipped oil drops are collected.

45. The lampblack purification device according to claim 17, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the condensation gas collecting tank of the lampblack distribution device, condensed lampblack gas is guided and transmitted to the flow collecting unit by the condensation gas collecting tank, the flow of the lampblack gas is guided by the flow collecting unit, and dropped or slipped oil drops are collected.

46. The lampblack purification device according to claim 18, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the condensation gas collecting tank of the lampblack distribution device, condensed lampblack gas is guided and transmitted to the flow collecting unit by the condensation gas collecting tank, the flow of the lampblack gas is guided by the flow collecting unit, and dropped or slipped oil drops are collected.

47. The lampblack purification device according to claim 19, wherein the lampblack purification device further comprises a flow collecting unit, wherein the flow collecting unit is communicated with the condensation gas collecting tank of the lampblack distribution device, condensed lampblack gas is guided and transmitted to the flow collecting unit by the condensation gas collecting tank, the flow of the lampblack gas is guided by the flow collecting unit, and dropped or slipped oil drops are collected.

48. The fume purification apparatus according to claim 41, wherein said collecting unit further comprises a collecting tank and at least one air-barrier plate disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-barrier plate blocks the flow of air in said collecting channel, so that said fume and said oil streams move irregularly in said collecting channel, thereby causing said fume and said oil streams to collide or adsorb each other and form oil drops.

49. The fume purification apparatus according to claim 42, wherein said collecting unit further comprises a collecting tank and at least one air-blocking plate disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-blocking plate blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

50. The fume purification apparatus according to claim 43, wherein said collecting unit further comprises a collecting tank and at least one air-barrier disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-barrier blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

51. The fume purification apparatus according to claim 43, wherein said collecting unit further comprises a collecting tank and at least one air-barrier disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-barrier blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

52. The fume purification apparatus according to claim 44, wherein said collecting unit further comprises a collecting tank and at least one air-blocking plate disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-blocking plate blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

53. The fume purification apparatus according to claim 45, wherein said collecting unit further comprises a collecting tank and at least one air-barrier plate disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects the dropped or slipped oil drops, wherein said air-barrier plate blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

54. The fume purification apparatus according to claim 46, wherein said collecting unit further comprises a collecting tank and at least one air-blocking plate disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-blocking plate blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

55. The fume purification apparatus according to claim 47, wherein said collecting unit further comprises a collecting tank and at least one air-blocking plate disposed at said collecting tank, wherein said collecting tank has a collecting channel, wherein said collecting channel guides the flow of said fume and collects dropped or slipped oil drops, wherein said air-blocking plate blocks the flow of air in said collecting channel, so that said fume and air irregularly move in said collecting channel, thereby causing said fume and air streams to collide or adsorb each other and form oil drops.

56. The lampblack purification device according to claim 48, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

57. The lampblack purification device according to claim 49, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

58. The lampblack purification device according to claim 50, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

59. The lampblack purification device according to claim 51, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

60. The lampblack purification device according to claim 52, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

61. The lampblack purification device according to claim 53, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

62. The lampblack purification device according to claim 54, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

63. The lampblack purification device according to claim 55, wherein the lampblack purification device further comprises a first purification unit and a second purification unit, wherein the first purification unit is arranged at the collecting tank of the collecting unit, wherein the first purification unit adsorbs oil mist in the lampblack gas by high-voltage static electricity, and wherein the second purification unit is used for removing peculiar smell in the gas.

64. The cooking fume purification apparatus according to claim 56, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to said high voltage electrostatic oil removing device, wherein said high voltage electrostatic oil removing device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

65. The cooking fume purification apparatus of claim 57, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removal device and a power supply device electrically connected to said high voltage electrostatic oil removal device, wherein said high voltage electrostatic oil removal device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

66. The cooking fume purification apparatus according to claim 58, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to said high voltage electrostatic oil removing device, wherein said high voltage electrostatic oil removing device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

67. The cooking fume purification apparatus according to claim 59, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to said high voltage electrostatic oil removing device, wherein said high voltage electrostatic oil removing device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

68. The cooking fume purification apparatus according to claim 60, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to said high voltage electrostatic oil removing device, wherein said high voltage electrostatic oil removing device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

69. The cooking fume purification apparatus according to claim 61, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to said high voltage electrostatic oil removing device, wherein said high voltage electrostatic oil removing device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

70. The cooking fume purification apparatus according to claim 62, wherein said first purification unit and said second purification unit are held in said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removing device and a power supply device electrically connected to said high voltage electrostatic oil removing device, wherein said high voltage electrostatic oil removing device ionizes oil mist in cooking fume and separates oil droplets on a polar plate.

71. The cooking fume purification apparatus of claim 63, wherein said first purification unit and said second purification unit are held at said collecting passage of said collecting unit, wherein said first purification unit further comprises a high voltage electrostatic oil removal device and a power supply device electrically connected to said high voltage electrostatic oil removal device, wherein said high voltage electrostatic oil removal device ionizes oil mist in cooking fume and separates oil droplets at a polar plate.

72. The fume purification apparatus of claim 64, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by way of ultraviolet purification.

73. The fume purification apparatus according to claim 65, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by way of ultraviolet purification.

74. The fume purification apparatus of claim 66, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of the purified gases by way of ultraviolet purification.

75. The fume purification apparatus of claim 67, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by way of ultraviolet purification.

76. The fume purification apparatus of claim 68, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by way of ultraviolet purification.

77. The fume purification apparatus of claim 69, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by way of ultraviolet purification.

78. The fume purification apparatus according to claim 70, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by means of ultraviolet purification.

79. The fume purification apparatus according to claim 71, wherein said second purification unit further comprises an odor elimination housing and at least one ultraviolet light odor elimination lamp disposed in said odor elimination housing, wherein said ultraviolet light odor elimination lamp removes odors of purified gases by means of ultraviolet purification.

80. The lampblack purification apparatus according to claim 2, wherein the induction cooker assembly or the gas stove assembly is provided to the operation table and the lampblack purification device, and the induction cooker assembly or the gas stove assembly is supported by the operation table and the lampblack purification device.

81. The lampblack purification device according to claim 80, wherein said console is provided with at least one burner, wherein said induction cooker assembly further comprises a movement and at least one output device electrically connected to said movement, wherein said output device is mounted at said burner of said console.