CN213272739U - Device for filtering oil smoke and range hood - Google Patents

Abstract

The utility model relates to a household electrical appliances technical field discloses a device for filtering oil smoke, includes: oil net portion and power portion. The oil screen part is provided with a plurality of pores; the power part is connected with the center of the oil net part and is configured to drive the oil net part to rotate; wherein, the smaller the thickness of the oil net part is, the higher the rotating speed of the power part is. In this application, with the thickness of oil net portion rather than the slew velocity relevance, give the rotation of oil net portion and set for the rotational speed according to the thickness of oil net portion, can make better filtering the oil smoke of oil net portion, improve the filtration efficiency of oil smoke. The application also discloses a range hood.

Description

Device for filtering oil smoke and range hood

Technical Field

The application relates to the technical field of household appliances, for example to a device, lampblack absorber for filtering oil smoke.

Background

At present, an oil net of a household range hood is generally a single-layer metal oil net or a multi-layer common metal oil net, and due to the fact that the aperture of the oil net is large, the interception efficiency is low, and the oil smoke interception rate of the oil net is about 30%. If the size of the mesh on the oil screen is reduced, the effect of improving the oil smoke interception rate is limited, and the wind resistance can be increased, the oil screen can capture particles in oil smoke through rotation by arranging the dynamic oil screen in the related technology, so that the oil smoke interception rate of the whole machine can be improved on the premise of small air loss.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the rotating speed of the dynamic oil screen is set to neglect the influence of the thickness of the oil screen on the oil smoke filtering efficiency, so that the oil screen reduces the oil smoke filtering efficiency.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a device for filtering oil smoke and a range hood, and aims to solve the problem that the filtering efficiency of an oil screen on the oil smoke is reduced.

In some embodiments, an apparatus for filtering cooking fumes comprises: oil net portion and power portion. The oil screen part is provided with a plurality of pores; the power part is connected with the center of the oil net part and is configured to drive the oil net part to rotate; wherein, the smaller the thickness of the oil net part is, the higher the rotating speed of the power part is.

In some embodiments, a range hood includes: the device for filtering oil smoke of the above embodiment.

The device for filtering oil smoke, the range hood provided by the embodiment of the disclosure can realize the following technical effects:

the thickness of the oil screen part is related to the rotating speed of the oil screen part, and the rotating speed is set for the rotation of the oil screen part according to the thickness of the oil screen part, so that the oil screen part can better filter oil smoke, and the filtering efficiency of the oil smoke is improved.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

fig. 1 is a schematic structural diagram of an apparatus for filtering soot according to an embodiment of the present disclosure;

FIG. 2 is a side view of an apparatus for filtering cooking fumes provided by an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of an oil screen section provided by an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of another oil screen section provided by an embodiment of the present disclosure;

FIG. 5 is an exploded view of an apparatus for filtering cooking fumes according to an embodiment of the present disclosure;

FIG. 6 is a cross-sectional view of an apparatus for filtering cooking fumes according to an embodiment of the present disclosure;

fig. 7 is an exploded schematic view of a range hood provided by the embodiment of the present disclosure;

fig. 8 is an internal structure schematic diagram of a range hood provided by the embodiment of the present disclosure;

FIG. 9 is an exploded view of a dynamic oil screen and oil deflector combination provided by an embodiment of the present disclosure;

fig. 10 is a schematic structural diagram of a dynamic oil network provided in an embodiment of the present disclosure.

Reference numerals:

100. an oil screen section; 101. a pore; 103. a first annular region; 104. a second annular region; 105. A flow guide part; 200. a power section; 201. connecting ribs; 300. a solenoid; 400. a housing; 500. a flue; 600. a dynamic oil screen; 700. an oil guide ring; 701. a collecting section; 702. an oil guide part; 703. a circular through opening; 704. a leak hole; 800. an oil cup; 900. and (4) a protection net.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

The terms "first," "second," and the like in the description and in the claims, and the above-described drawings of embodiments of the present disclosure, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the present disclosure described herein may be made. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the disclosed embodiments and their examples and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art as appropriate.

In addition, the terms "disposed," "connected," and "secured" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. Specific meanings of the above terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art according to specific situations.

The term "plurality" means two or more unless otherwise specified.

In the embodiment of the present disclosure, the character "/" indicates that the preceding and following objects are in an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes objects, meaning that three relationships may exist. For example, a and/or B, represents: a or B, or A and B.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

Referring to fig. 1 to 4, an embodiment of the present disclosure provides an apparatus for filtering soot, including: an oil screen section 100 and a power section 200. The oil screen portion 100 is provided with a plurality of apertures 101; the power unit 200 is connected to the center of the oil network unit 100, and configured to drive the oil network unit 100 to rotate; the smaller the thickness of the oil screen portion 100, the higher the rotation speed of the power portion 200.

By adopting the device for filtering oil smoke provided by the embodiment of the disclosure, the thickness of the oil screen part 100 is related to the rotating speed of the oil screen part, and the rotating speed of the oil screen part 100 is set according to the thickness of the oil screen part 100, so that the oil screen part 100 can better filter the oil smoke, and the filtering efficiency of the oil smoke is improved.

Optionally, the thickness of the oil screen portion 100 ranges from 0.5 mm to 3.5 mm. Thus, the oil screen part 100 has a certain thickness, so that the oil screen part 100 can be better contacted with the oil smoke when rotating, and the oil smoke passing through the oil screen part 100 can be better filtered.

Alternatively, the rotation speed of the power unit 200 ranges from 300 rpm to 3000 rpm. Thus, the rotation speed of the power unit 200 is used to control the oil screen unit 100 to maintain a proper rotation speed, so that the oil screen unit 100 has a good filtering effect on the oil smoke.

Optionally, the pores 101 have a pore size in the range of 3 to 8 millimeters. Like this, set up the aperture of hole 101 in 3 ~ 8 millimeters, can keep the oil smoke to pass through, under the condition that reduces the windage, make better and the oil smoke contact of oil net portion 100, improve the filter effect to the oil smoke.

Alternatively, when the pore diameter of the pore 101 is 5 mm and the thickness of the oil screen part 100 is 2mm, the rotation speed of the power part 200 is greater than 1200 rpm. In this way, the thickness of the oil screen part 100 is set to be 2mm, and the rotating speed of the power part 200 is set to be more than 1200 rpm according to the area of the air flow for cutting the oil smoke, so that the oil screen part 100 can filter the oil smoke efficiently.

Alternatively, when the aperture of the aperture 101 is 5 mm and the thickness of the oil net part 100 is 1.5 mm, the rotation speed of the power part 200 is more than 1800 rpm. Thus, the thickness of the oil screen part 100 is set to 1.5 mm, and the rotating speed of the power part 200 is set to be more than 1800 rpm according to the area of the oil screen part cutting the oil smoke, so that the oil screen part 100 can efficiently filter the oil smoke.

Alternatively, when the pore diameter of the pore 101 is 5 mm and the thickness of the oil screen part 100 is 1 mm, the rotation speed of the power part 200 is greater than 2400 rpm. Thus, the thickness of the oil screen part 100 is set to 1 mm, and the rotating speed of the power part 200 is set to be greater than 2400 rpm/s according to the area of the air flow for cutting the oil smoke, so that the oil screen part 100 can efficiently filter the oil smoke.

Optionally, for every 0.1 mm reduction in the thickness of the oil screen portion 100, the rotation speed of the power portion 200 is correspondingly increased by 50-150 rpm. Thus, along with the reduction of the thickness of the oil screen part 100, the contact between the oil screen part 100 and the oil smoke during rotation is reduced, at the moment, the rotating speed of the power part 200 is correspondingly increased, the oil screen part 100 is driven to increase the rotating speed, the oil screen part 100 is in contact with more oil smoke in unit time, and the filtering effect on the oil smoke is improved.

Optionally, the oil screen portion 100 is circular, and the apertures 101 are arc-shaped groove structures that diverge from the center of the oil screen portion 100 to the circumference. Therefore, the holes 101 are outwards diffused along the circle center of the oil screen part 100, and when the oil screen part 100 rotates, oil smoke gas flow can be impacted through cutting, and the oil smoke interception rate is improved.

Optionally, the oil screen portion 100 is divided into a plurality of annular regions from the center to the circumference, and the bending direction of the apertures 101 in some of the annular regions is opposite to that in the rest of the annular regions. Thus, the part of the aperture 101 with the same bending direction as the rotation direction of the oil mesh part 100 can reduce wind-cut noise; the part of the pore 101 with the bending direction opposite to the rotation direction of the oil screen part 100 impacts the oil smoke gas flow through cutting, so that the oil smoke interception rate can be improved, the bending direction of the pore 101 in the partial annular area of the oil screen part 100 is opposite to the bending direction of the rest of the pore 101, namely, the oil smoke can be intercepted efficiently, and the effect of reducing noise can be achieved.

Optionally, in the plurality of annular regions, including: a first annular region 103 and a second annular region 104. First annular region 103 the direction of curvature of the aperture 102 in the first annular region 103 is the same as the direction of rotation of the oil screen portion 100; second annular region 104 the direction of curvature of apertures 102 in second annular region 104 is opposite to the direction of rotation of oil screen portion 100; wherein the first annular region 103 is closer to the circumference of the oil pan section 100 than the second annular region 104. In this way, the linear velocity of the circle center area of the oil screen part 100 in the rotation process is smaller than that of the circumference area, so that the oil smoke interception rate of the circle center area is lower, the wind-cut noise of the circumference area is higher, the circumference of the first annular area 103, which is closer to the oil screen part 100 than the second annular area 104, can reduce the wind-cut noise of the circumference area, and the oil smoke interception rate of the circle center area can be improved by the second annular area 104, which is closer to the circle center of the oil screen part 100 than the first annular area 103.

Optionally, the device for filtering oil smoke further comprises: and a flow guide part 105 provided at the center of the oil screen part 100 and configured to guide the air flow blown toward the center of the oil screen part 100 toward the periphery. In this way, in the rotation process of the oil screen part 100, the linear velocity near the circle center area is smaller than that near the circumference area, so that the oil smoke interception efficiency of the circle center area is lower than that of the circumference area, and the flow guide part 105 arranged at the circle center of the oil screen part 100 is beneficial to guiding the oil smoke of the circle center area to the circumference area and improving the oil smoke interception rate.

Optionally, the flow guide 105 is of a conical configuration. Thus, the conical structure has the effect of guiding flow to the periphery in the rotating process, and is beneficial to guiding the oil smoke in the circle center area of the oil screen part 100 to the circumferential area.

Optionally, the diversion part 105 is detachably connected with the oil screen part 100. In this way, removal and cleaning of the flow guide 105 is facilitated.

Optionally, the flow guide 105 is covered with an oil-repellent coating. Thus, the adhesion of oil stains on the surface of the flow guide part 105 can be reduced, and more oil stains are prevented from being adhered to the flow guide part 105.

Optionally, the oil-repellent coating is a nanosilica coating. Thus, the nano silicon dioxide is sprayed on the flow guide part 105, so that oil stains are prevented from being condensed on the flow guide part 105, and the cleanness of the flow guide part 105 is kept.

Alternatively, the oil mesh part 100 is provided in plurality, and the plurality of oil mesh parts 100 are concentrically provided. Therefore, the oil smoke is intercepted by the plurality of oil net parts 100, the oil smoke interception rate is improved, and the plurality of oil net parts 100 are concentrically arranged, so that the plurality of oil net parts 100 are conveniently connected with the power part 200, and the plurality of oil net parts 100 are conveniently driven.

Alternatively, multiple oil network portions 100 are driven by the same power portion 200. Thus, the oil net parts 100 are uniformly stressed and synchronously rotate by the driving of the same power part 200, and the oil net part is energy-saving and environment-friendly.

Alternatively, the apertures 101 of the plurality of oil pan sections 100 are curved in opposite directions. Thus, the oil mesh part 100 having the same bending direction and rotation direction of the apertures 101 can reduce wind-cut noise, and the oil mesh part 100 having the opposite bending direction and rotation direction of the apertures 101 can improve oil smoke interception rate, so that the oil mesh part 100 can reduce noise and improve oil smoke interception rate.

Alternatively, the bending directions of the pores 101 on the two adjacent oil mesh parts 100 are opposite. Thus, when the oil smoke passes through the two adjacent oil mesh parts 100, the oil mesh parts 100 with the same bending direction and rotation direction of the pores 101 can reduce wind-cut noise, and the oil mesh parts 100 with the opposite bending direction and rotation direction of the pores 101 can improve the oil smoke interception rate.

Alternatively, the pore diameters of the pores 101 of the plurality of oil mesh portions 100 are enlarged layer by layer. Therefore, the oil smoke with different particle sizes is intercepted according to the different pore sizes of the oil screen part 100, the oil screen part 100 with the large pore size intercepts the oil smoke with large particles, the oil screen part 100 with the small pore size intercepts the oil smoke with small particles, and therefore the oil smoke with different particle sizes can be intercepted, and the oil smoke interception rate is improved.

Alternatively, the pore diameters of the pores 101 on the oil mesh part 100 on the leeward side one layer are enlarged layer by layer toward the pore diameters of the pores 101 on the oil mesh part 100 on the windward side one layer. Therefore, when oil smoke enters the oil screen part 100, large-particle oil smoke particles are intercepted first, small-particle oil smoke particles are intercepted later, and the oil smoke interception rate is improved.

Alternatively, the plurality of oil mesh portions 100 have different diameters. Thus, in the rotation process of the oil screen portion 100, the linear velocity of the area close to the circle center of the oil screen portion 100 is smaller than the linear velocity of the circumferential area, which results in the oil smoke interception rate of the circle center area of the oil screen portion 100 being lower than that of the circumferential area, but in the rotation process of the oil screen portions 100 with different diameters, the oil screen portion 100 with the small diameter guides the oil smoke in the circle center area of the oil screen portion 100 with the large diameter to the circumferential area, thereby improving the oil smoke interception rate.

Alternatively, of the plurality of oil mesh parts 100, the diameter of the oil mesh part 100 on the windward side is smaller than the diameter of the oil mesh part 100 on the leeward side. Therefore, when the oil screen part 100 positioned on the windward side rotates, the oil smoke in the circle center area of the oil screen part 100 positioned on the leeward side can be guided to the circumferential area, and the oil smoke interception rate is effectively improved.

With reference to fig. 5-6, another device for filtering soot provided by the embodiments of the present disclosure includes: an oil pan section 100 and a solenoid 300. The oil screen portion 100 is made of a soft magnetic alloy material; the solenoid 300 is installed on a side surface of the oil pan section 100, and is configured to generate a changing magnetic field.

Adopt the device for filtering oil smoke that this disclosed embodiment provided, oil net portion 100 adopts soft magnetic alloy material to make, and sets up solenoid 300 in one side of oil net portion 100, and solenoid 300 produces the magnetic field that can change, and soft magnetic alloy can produce a large amount of intensive eddies under the magnetic field that changes to produce the heat, melt the oil stain on the oil net portion 100, make the oil stain on the oil net portion 100 be convenient for clean, keep the cleanness of oil net portion 100.

Alternatively, the solenoid 300 has an annular structure, and the center of the annular structure is on the same axis as the center of the oil screen portion 100. Thus, the magnetic field area formed by the spiral pipe can be continuously contacted with the fixed area of the oil screen part 100, the continuous heating of the fixed area of the oil screen part 100 is kept, the heating efficiency is improved, oil stains on the oil screen part 100 are better melted, and the cleanness of the oil screen part 100 is kept.

Optionally, the solenoid 300 is configured to convert a high-frequency alternating current into an alternating magnetic field, and the specific principle thereof is well known in the art and will not be described herein.

Optionally, the annular radius of the annular structure is greater than or equal to one fifth of the radius of the oil screen section 100 and less than or equal to one half of the radius of the oil screen section 100. Thus, by setting the radius of the annular structure between one fifth and one half of the radius of the oil screen part 100, the solenoid 300 can generate a magnetic field with a sufficient area to heat the oil screen part 100, and does not occupy too much space, thereby preventing the air flow rate from being affected.

Optionally, the annular radius of the annular structure is equal to one third of the radius of the oil mesh portion 100. Like this, set up the radius of annular structure for the one-third of oil net portion 100 radius, can produce the magnetic field of sufficient area, heat oil net portion 100, and can not occupy too big space, prevent to influence the percent of pass of air current, reduce the windage.

Optionally, the distance between the inner diameter of the annular structure and the center of the oil screen portion 100 is less than or equal to the distance between the outer diameter of the annular structure and the circumference of the oil screen portion 100, so that the solenoid 300 of the annular structure is closer to the center of the oil screen portion 100, the oil screen portion 100 can drive the oil smoke in the circumferential direction of the oil screen portion 100 under the action of centrifugal force when rotating, the oil smoke passing amount at the center of the oil screen portion 100 is less, the solenoid 300 is arranged at the center of the oil screen portion 100, the blocking of the solenoid 300 on the oil smoke can be reduced, and the oil smoke passing rate is prevented from being affected.

Alternatively, the inner diameter of the ring structure is located at a distance from the center of the oil screen portion 100 that is equal to the outer diameter of the ring structure from the circumference of the oil screen portion 100. Like this, can make loop configuration's solenoid just in time be located the radial middle section of oil net portion 100, can heat the middle section of oil net portion 100, and the heat of being convenient for conducts fast to whole oil net portion 100, can make the heating efficiency who improves oil net portion 100, the cleanness of the oil stain on the oil net portion 100 of being more convenient for.

Optionally, the distance between the solenoid 300 and the oil mesh part 100 is in the range of 2-4 cm. Thus, the distance between the solenoid 300 and the oil mesh part 100 is maintained within an appropriate range, and the set gap is maintained between the solenoid 300 and the oil mesh part 100 while the efficient heating of the oil mesh part 100 is maintained, so that the air flow can pass through the gap between the solenoid 300 and the oil mesh part 100, thereby reducing the wind resistance, and the temperature of the solenoid 300 is lowered, thereby preventing the solenoid 300 from being damaged due to overheating.

Optionally, the solenoid 300 is provided with a thermal insulation layer on the side facing the oil pan section 100. Thus, the solenoid 300 can be prevented from being damaged by heat, increasing the service life of the solenoid 300.

Referring to fig. 7-10, in some embodiments, a range hood further includes a device for filtering soot of any of the above embodiments.

In some embodiments, a range hood, comprising: a housing 400 having a vertical flue 500 therein; the dynamic oil screen 600 is arranged in the flue 500 or at a port, and comprises an oil screen part 100 and a power part 200 for driving the oil screen part 100 to rotate; the oil guide ring 700 includes a collecting portion 701 and an oil guide portion 702 disposed below the collecting portion 701, and the collecting portion 701 is fitted around the oil screen portion 100.

Adopt this disclosed embodiment to provide's lampblack absorber, set up at dynamic oil net 600 and lead oil ring 700, wherein lead oil ring 700's collection portion 701 cover and establish the week circle at dynamic oil net 600, collect the oil stain back that dynamic oil net 600 threw away, make the oil stain store in oil guide portion 702 along with collection portion 701 flows in, better collect the oil stain on dynamic oil net 600, prevent oil stain sputtering.

Alternatively, the oil guide 702 is a rectangular groove with a circular through hole 703 in the middle. Thus, the oil guide part 702 can smoothly guide the collected oil stain out, and the oil stain is prevented from leaking.

Optionally, the diameter of the circular through opening 703 is larger than the diameter of the oil mesh portion 100. Therefore, external oil smoke can smoothly enter the dynamic oil net 600 through the oil guide part 702, and oil stains in the oil smoke are conveniently intercepted by the dynamic oil net 600.

Optionally, the collecting part 701 is a flange protruding upward relative to the oil guide part 702, and the collecting part 701 and the oil guide part 702 are connected by welding. Like this for the oil stain that collection portion 701 can be better collection oil net part 100 throws away prevents that oil stain spatters.

Alternatively, the power part 200 is a motor, and a rotating shaft of the motor is connected to the center of the oil screen part 100. Thus, when the power part 200 drives the oil net part 100 to rotate, the oil net part 100 is stressed uniformly.

Optionally, the rotating shaft of the motor is detachably connected to the oil screen portion 100. Thus, the oil screen part 100 is convenient to mount and dismount, and the oil screen part 100 is convenient to dismount for maintenance when the oil screen part 100 is damaged or seriously polluted.

Optionally, the detachable connection comprises a screw connection or a snap connection. Therefore, the screw connection and the buckle connection belong to common detachable connection modes, and are convenient to operate and install.

Alternatively, the power part 200 is fixed to the inner wall of the flue 500 by welding through the connecting rib 201. In this way, the power unit 200 is welded and fixed to the inner wall of the flue 500 by the connecting ribs 201, so that the power unit 200 is more stable, and vibration and noise generated when the power unit 200 works are reduced.

Optionally, the oil guiding ring 700 is detachably mounted on the side wall of the flue 500 corresponding to the dynamic oil screen 600. Thus, the oil guide ring 700 is convenient to disassemble for maintenance.

Optionally, a preset included angle is formed between the dynamic oil screen 600 and the horizontal plane. Therefore, oil stains intercepted on the dynamic oil screen 600 can smoothly flow down, and the dynamic oil screen 600 is convenient to clean.

Optionally, a conical table is arranged at the center of the oil screen part 100. Therefore, in the rotating process of the oil screen part 100, the linear velocity close to the circle center area is smaller than the linear velocity close to the circumferential edge, so that the oil fume interception efficiency of the circle center area is lower than that of the circumferential edge, and the conical table arranged at the circle center of the oil screen part 100 is beneficial to guiding the oil fume in the circle center area to the circumferential edge, thereby being beneficial to improving the oil fume interception rate of the dynamic oil screen 600.

Optionally, the oil screen part 100 is detachably mounted with the conical table. Therefore, the conical table is convenient to mount and dismount and clean.

Optionally, oil deflector 700 is mounted in parallel with dynamic oil screen 600. Like this for lead oil ring 700 plane and dynamic oil net 600 plane parallel, do benefit to and lead oil ring 700 and collect the derivation to the oil stain that throws away when rotating dynamic oil net 600, prevent that the oil stain from outwards sputtering.

Optionally, dynamic oil screen 600 is horizontally disposed. Therefore, the oil screen part 100 is stressed uniformly when rotating, and the service life of the oil screen part 100 is prolonged.

Optionally, the collecting part 701 is installed in parallel with the dynamic oil net 600, and a preset included angle is formed between the lower side surface of the oil guiding part 702 and the horizontal plane. Like this for collection portion 701 is in the coplanar with developments oil net 600, does benefit to the oil stain that collection portion 701 throwed away when rotating developments oil net 600 and collects, leads to be equipped with between oil portion 702 downside and the horizontal plane and predetermine the contained angle and do benefit to the oil stain of collection portion 701 collection and derive smoothly, and better collects the oil stain on developments oil net 600, prevents that the oil stain from spattering.

Optionally, the preset included angle is greater than or equal to 5 degrees and less than or equal to 45 degrees. Like this for dynamic oil net 600 inclines for the horizontal plane, but dynamic oil net 600's inclination is less than or equal to the degree, has both guaranteed that the oil stain of interception on dynamic oil net 600 can flow down smoothly, and the atress is relatively even when making dynamic oil net 600 rotate again, can be better collect the oil stain on dynamic oil net 600, can prolong dynamic oil net 600's life again.

Optionally, the radial size difference between the oil guide ring 700 and the dynamic oil screen 600 is L, and L is greater than or equal to 3mm and less than or equal to 10 mm. Like this, be convenient for lead collection portion 701 cover of oil ring 700 and establish on dynamic oil net 600, do not influence the rotation of dynamic oil net 600 and better collect the oil stain of intercepting on dynamic oil net 600, prevent oil stain sputtering.

Optionally, the vertical height difference of the assembly of the oil guide ring 700 and the dynamic oil screen 600 is B, and B is greater than or equal to 2mm and less than or equal to 2 mm. Like this, make and lead and have vertical difference in height between oil portion 702 of oil ring 700 and the oil net portion 100 of dynamic oil net 600, be convenient for carry out the water conservancy diversion to the oil stain of collecting when not influencing dynamic oil net 600 and rotate, prevent oil stain sputtering.

Optionally, an oil cup 800 is provided at the lower side of the lower end of the oil guide ring 700. Like this for the oil stain that leads oil portion 702 and derive can flow into oil cup 800 smoothly, be convenient for the storage of oil stain, prevent that the oil stain from leaking outward.

Alternatively, the oil cup 800 is detachably provided at the lowermost end of the oil guide 702. Thus, the oil cup 800 is convenient to disassemble and clean oil stains in the oil cup 800.

Optionally, the lowest end of the oil guide 702 is provided with a leak hole 704 configured to communicate the oil guide 702 with the oil cup 800. Thus, oil stains in the oil guide part 702 are dropped into the oil cup 800 through the drain hole 704, and the oil stains can be conveniently led out.

Optionally, the oil cup 800 is strip-shaped. Like this for more oil stain can be stored to oil cup 800 when not sheltering from dynamic oil net 600, prevents that the oil stain from leaking outward.

Optionally, the range hood further comprises: and a protection net 900 disposed under the dynamic oil net 600. Therefore, the user can be protected from contacting the rotating dynamic oil net 600 in the using process, and the safety is improved.

Optionally, protection net 900 is detachably mounted on oil guide ring 700, and mounted protection net 900 is concentric with dynamic oil net 600. Therefore, the protection net 900 is convenient to detach and maintain, and the installed protection net 900 does not influence the oil smoke entering the flue 500 to be cleaned by the dynamic oil net 600.

Optionally, protective netting 900 is covered with an oil-repellent coating. Like this, reduce the attached of oil stain on guard net 900, prevent to attach more oil stain influence oil smoke's suction on guard net 900.

Optionally, the oil-repellent coating is a nanosilica coating. Thus, the nano silicon dioxide is sprayed on the protection net 900 to prevent oil stains from being condensed on the protection net 900, and the protection net 900 is kept clean.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (8)

1. A device for filtering cooking fumes, characterized by comprising:

an oil screen portion provided with a plurality of pores;

a power part connected with the center of the oil net part and configured to drive the oil net part to rotate;

wherein the smaller the thickness of the oil screen part is, the higher the rotation speed of the power part is;

the oil screen part is circular, and the pore is of an arc groove structure which is diffused to the circumference along the circle center of the oil screen part;

the oil screen part is divided into a plurality of annular areas from the circle center to the circumference, and the bending directions of the pores in part of the annular areas are opposite to those of the pores in the rest of the annular areas.

2. The device for filtering cooking fumes of claim 1, wherein a thickness of the oil mesh portion ranges from 0.5 mm to 3.5 mm.

3. The device for filtering cooking fumes of claim 1, wherein a rotation speed of the power part ranges from 300 to 3000 revolutions per second.

4. The device for filtering cooking fumes of claim 1, wherein the pores have a pore size ranging from 3 to 8 millimeters.

5. An apparatus for filtering cooking fumes according to any one of claims 1 to 4, wherein the rotation speed of the power unit is increased by 50-150 rpm for every 0.1 mm reduction in thickness of the oil screen unit.

6. An apparatus for filtering cooking fumes according to any one of claims 1 to 4, wherein in the plurality of annular zones, comprises:

a first annular region in which a bending direction of the apertures is the same as a rotation direction of the oil pan section;

a second annular region in which the apertures are curved in a direction opposite to the direction of rotation of the oil screen portion;

wherein the first annular region is closer to a circumference of the oil pan than the second annular region.

7. An apparatus for filtering cooking fumes according to any one of claims 1 to 4, further comprising: and a flow guide part arranged at the center of the oil screen part and configured to guide the airflow blowing to the center of the oil screen part to the periphery.

8. A range hood, characterized by further comprising a device for filtering cooking fumes according to any one of claims 1 to 7.

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