CN212618544U

CN212618544U - Fume exhaust fan

Info

Publication number: CN212618544U
Application number: CN202021244341.0U
Authority: CN
Inventors: 徐烽; 任树栋
Original assignee: Ningbo Fotile Kitchen Ware Co Ltd
Current assignee: Ningbo Fotile Kitchen Ware Co Ltd
Priority date: 2020-03-27
Filing date: 2020-06-29
Publication date: 2021-02-26
Anticipated expiration: 2030-06-29
Also published as: CN112539428B; CN112539430A; CN112539431A; CN212618543U; CN111442312B; CN215863589U; CN213237677U; CN112539432A; CN112539436B; CN111442312A; CN112539434A; CN112539437A; CN112539429A; CN111561721A; CN212618542U; CN112539435A; CN111561721B; CN215259982U; CN112539436A; CN112539433A

Abstract

The utility model discloses a range hood, including casing, fixed top panel and the activity setting of setting in the casing front side at the casing front side lower panel assembly, its characterized in that: the air inlet is formed below the front side of the shell and the upper panel, the lower panel assembly can be located at a first position and a second position, when the lower panel assembly is located at the first position, the air inlet is closed by the lower panel assembly, when the lower panel assembly is located at the second position, the air inlet is opened, the lower panel assembly is located on the front side of the upper panel, and the bottom of the lower panel assembly is provided with a lighting lamp. Compared with the prior art, the utility model has the advantages of: the bottom installation light of panel components below avoids the dazzling problem of light, can also shine whole kitchen mesa, promotes the user and cooks the experience effect.

Description

Fume exhaust fan

Technical Field

The utility model relates to an oil smoke purifier, especially a range hood.

Background

The range hood has become one of the indispensable kitchen household electrical appliances in modern families. The range hood works by utilizing the fluid dynamics principle, sucks and exhausts oil smoke through a centrifugal fan arranged in the range hood, and filters partial grease particles by using a filter screen. The centrifugal fan comprises a volute, an impeller arranged in the volute and a motor driving the impeller to rotate. When the impeller rotates, negative pressure suction is generated in the center of the fan, oil smoke below the range hood is sucked into the fan, accelerated by the fan and then collected and guided by the volute to be discharged out of a room.

The existing side-draft range hood is generally provided with an air inlet on a panel, so that in order to avoid the problem that the air inlet is exposed out and not beautiful enough and oil smoke flows backward when the range hood does not work, the air inlet can be provided with a smoke baffle plate, and the range hood can also play a role of gathering smoke when in work. The suspension fixing structure of the smoke baffle plate of the range hood, disclosed in the Chinese patent with the application number of 201721592791.7, mainly comprises a range hood main body and the smoke baffle plate, wherein a smoke collecting cover is arranged on the range hood main body, a smoke collecting cavity is arranged above the smoke collecting cover, a smoke baffle assembly is arranged in the middle of the smoke collecting cavity and comprises a fixed part on the upper part and a detachable part on the lower part, the fixed part is an operating area, and the detachable part is the smoke baffle plate.

This kind of range hood, the light is generally installed on the board of box left and right sides or on the fixed panel down, and such mounting structure, light can penetrate eyes directly, causes dazzling problem, keeps off the cigarette board light-tight moreover, can shelter from the sight, is unfavorable for improving the culinary art and experiences.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to the not enough of above-mentioned prior art existence, provide a range hood, can avoid penetrating the user directly, provide better illuminating effect simultaneously.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a range hood, includes casing, the fixed top panel that sets up in the casing front side and the activity sets up the lower panel components in the casing front side, its characterized in that: the air inlet is formed below the front side of the shell and the upper panel, the lower panel assembly can be located at a first position and a second position, when the lower panel assembly is located at the first position, the air inlet is closed by the lower panel assembly, when the lower panel assembly is located at the second position, the air inlet is opened, the lower panel assembly is located on the front side of the upper panel, and the bottom of the lower panel assembly is provided with a lighting lamp.

In order to close the air inlet and set the illuminating lamp, the lower panel assembly comprises a lower panel matched with the air inlet and a first baffle, the first baffle extends into the shell from the bottom of the lower panel, and the illuminating lamp is arranged on the first baffle.

The condition of panel rear side under for the observation avoids sheltering from the sight, the lower edge of panel is provided with the halo region that can make the light of light emission see through down.

Preferably, the lower panel is made of black toughened glass, and the halation area is made by using an ink screen printing technology.

In order to improve the visual effect, opaque areas are arranged in the halation areas, white transparent areas are arranged between the opaque areas, and the opaque areas and the transparent areas are consistent in density and different in size, so that the gradually changed halation areas are formed.

In order to facilitate the light to be refracted to the halo area, the illuminating lamp comprises a light scattering cover and a light emitting source, the light scattering cover is positioned on the downward side of the light emitting source, and at least two bosses which have different inclination angles and enable the light emitted by the light emitting source to be refracted to the halo area are distributed on the inner surface of the light scattering cover.

Furthermore, the inner surface of the diffuser facing the light-emitting source is a plane, the surface of the boss facing the light-emitting source is inclined relative to the inner surface of the diffuser facing the light-emitting source, and the inclination angles of the bosses relative to the diffuser are different.

In order to fix the illuminating lamp conveniently, a lamp groove is formed in the first baffle, and the illuminating lamp is clamped in the lamp groove.

Preferably, the inside one side of panel assembly is provided with the snap ring under the light orientation, the snap ring is followed one side in the panel assembly under the light orientation, is crossed in the front and back direction, the draw-in groove has been seted up with the position that both sides correspond around the light trough, both ends respectively with the draw-in groove block of relevant position around the snap ring, snap ring and draw-in groove extrude each other and fix the light.

In order to facilitate the operation of the range hood under the working state of the range hood when the air inlet is opened, the upper panel is provided with a power key, and the lower panel assembly is provided with a function key, thereby forming a double-control switch structure.

Compared with the prior art, the utility model has the advantages of: the illuminating lamp is arranged at the bottom of the lower plate component, so that the problem of dazzling light is avoided, the whole kitchen range top can be illuminated, and the cooking experience effect of a user is improved; the lower panel is provided with the halation area, so that the lower panel can be prevented from blocking the sight, the condition of the rear side of the lower panel can be observed conveniently, and the cooking experience is improved; the functional keys are placed on the moving lower panel, so that the range hood can be operated conveniently when the air inlet is opened and under the working state of the range hood.

Drawings

Fig. 1 is a schematic view of a closed state of a range hood according to an embodiment of the present invention;

fig. 2 is a schematic view of an open state of the range hood according to the embodiment of the present invention;

fig. 3 is a side view of the open state of the range hood according to the embodiment of the present invention;

fig. 4 is a sectional view (front-rear section) of the open state of the range hood according to the embodiment of the present invention;

fig. 5 is a schematic diagram of an alternative embodiment of an inner liner assembly of a range hood according to an embodiment of the present invention;

fig. 6 is a schematic view of an illuminating lamp of the range hood according to the embodiment of the present invention;

fig. 7 is a schematic view of a baffle plate of a lower panel assembly of a range hood according to an embodiment of the present invention;

fig. 8 is a partial cross-sectional view of a lower panel assembly of a range hood according to an embodiment of the present invention;

fig. 9 is a schematic view of a lower panel assembly of a range hood according to an embodiment of the present invention;

FIG. 10 is a schematic view of a halo strip on the lower panel of FIG. 9;

fig. 11 is a partial schematic view of a closed state of the range hood according to the embodiment of the present invention;

fig. 12 is a perspective cross-sectional view of the moving mechanism of the lower panel assembly in a closed state of the range hood according to the embodiment of the present invention;

fig. 13 is a cross-sectional side view of the moving mechanism of the lower panel assembly closed state of the range hood according to the embodiment of the present invention;

fig. 14 is a side view of the moving mechanism of the range hood according to the embodiment of the present invention in the open state of the lower panel assembly;

fig. 15 is a partial schematic view of a second connecting rod of the moving mechanism of the lower panel assembly of the range hood according to the embodiment of the present invention;

fig. 16 is a side view of the range hood according to the embodiment of the present invention in an open intermediate state of the lower panel assembly (with the blower frame and the blower system omitted);

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar functions.

In the description of the present invention, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the disclosed embodiments of the invention may be oriented in different directions and the directional terms are intended to be illustrative and should not be construed as limiting, such as "upper" and "lower" are not necessarily limited to directions opposite to or coincident with the direction of gravity. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

Referring to fig. 1 and 2, a range hood is a side-draft range hood, and includes a housing 1, a front side of the housing 1 is open and is gradually inclined backward from top to bottom, and an upper panel 2 and a lower panel assembly 3 are respectively disposed at the open of the housing 1 and from top to bottom. The front side of the shell 1 and the position corresponding to the lower panel assembly 3 form an air inlet 11, and the air inlet 11 is arranged below the upper panel 2. The upper panel 2 and the housing 1 are fixedly disposed, and the lower panel assembly 3 is translatable and rotatable with respect to the housing 1 to open or close the intake vent 11. The casing 1 further comprises side plates 12 positioned on the left side and the right side, and a top back plate 13 arranged between the side plates 12, wherein the top back plate 13 comprises a top plate and a back plate, and the top plate and the back plate can be integrated or can be in a split structure connected together.

The utility model discloses a range hood has two accuse switch structures. The upper panel 2 is provided with a power key 21 and display icons, for example, an annular yellow silk-screen ring 211 can be arranged around the power key 21, and in a power-off state, a user can identify the position of the power key 21 according to the silk-screen ring 211.

Referring to fig. 2 to 4, the lower panel assembly 3 includes a lower panel 31, a first baffle 32, a second baffle 33 and a third baffle 34, the lower panel 31 corresponds to the air inlet 11 in shape and size, the first baffle 32 extends from the bottom of the lower panel 31 to the inside of the housing 1, the second baffle 33 has two baffles and is disposed at two sides of the first baffle 33, the third baffle 33 is connected between the rear sides of the first baffle 32 and the second baffle 33, the first baffle 32, the second baffle 33 and the third baffle 34 form a cover body with a triangular longitudinal section, and the cover body is connected and fixed with the lower panel 31 so that the lower panel assembly 3 forms a relatively closed space. The lower panel 31 is provided with function keys 35, such as an on-off key, a lamp, an air volume key, an air manager and the like. In the off state, the icon of the function key 35 is hidden. When the area in the silk-screen ring 211 is touched lightly, namely the power key 21 is touched lightly, the range hood enters a working state; at the same time, the function key 35 on the lower panel 31 lights up, and the icon of the function key 35 starts to appear. In addition, after the power key 21 of the upper panel 2 is turned on, the lower panel assembly 3 is driven by the movement mechanism to gradually move upwards and rotate, so that the air inlet 11 is opened, and the range hood enters an oil smoke suction working state. After the lower panel assembly 3 reaches the open state, the angle between the lower panel 31 and the vertical direction is 15 to 20 °, and the lower panel 31 is inclined from top to bottom gradually and backwards, which is beneficial for the user to operate the function keys 35. The lower panel 31 is inclined at a smaller angle than the upper panel 2. The specific structure and operation of the lower panel assembly 3 and its moving mechanism will be described in detail below.

A fan frame 4 is arranged above the shell 1, and a fan system 6 is arranged in the fan frame 4, so that the range hood with the upper fan is formed. An oil guide plate assembly 7 is arranged in the shell 1, and an oil cup 8 is arranged at the bottom of the shell 1. The oil guide plate assembly 7 includes a first oil guide plate 71 extending from the lower end of the upper surface plate 2 toward the inside of the casing 1, and preferably gradually inclined downward, and a second oil guide plate 72 extending from the rear end of the first oil guide plate 71 downward, and preferably gradually inclined forward, the lower end of the second oil guide plate 72 extending above the oil cup 8 so as to guide oil droplets into the oil cup 8. The upper end of the oil cup 8 is open, and the front side of the oil cup 8 covers the bottom of the shell 1, so that oil drops in the shell 1 can completely enter the oil cup 8. An oil leakage hole 16 is formed at the bottom of the shell 1 so that oil drops enter the oil cup 8 through the oil leakage hole 16.

The first oil guide plate 71 and the second oil guide plate 72 are preferably integrally formed. An inner lining plate assembly is arranged in the shell 1 and is arranged above the oil guide plate assembly 7. The inner liner assembly includes a front inner liner plate 151 disposed over the front side of the first oil deflection plate 71, the front inner liner plate 151 preferably extending upwardly and progressively forwardly from over the first oil deflection plate 71 to the top of the casing 1 to join with the top and rear plates 13 of the casing 1. More preferably, the front inner liner plate 151 is parallel to the upper panel 2. The inner liner assembly further includes side inner liner plates 152 respectively provided inside the left and right side plates 12 of the case 1. The space between the oil deflection panel assembly 7, the front inner liner panel 151, the side inner liner panel 152, the top rear panel 13, and the air frame 4 constitutes the inner chamber 142. When the range hood is in an open state, the space among the oil guide plate assembly 7, the side plate 12 and the lower panel assembly 3 forms an outer cavity 141 for collecting smoke. The inner cavity 142 and the outer cavity 141 are both located below the fan system 6. The oil guiding function of the oil guiding plate assembly 7 will be described in detail below.

In the closed state of the range hood, the first baffle 32, the second baffle 33 and the third baffle 34 of the lower panel assembly 3 are just arranged in the outer cavity 141, and the upper panel 2 and the lower panel 31 form a whole large plane, which is the first position of the lower panel assembly 3. When the range hood works and is in an open state, the lower panel assembly 3 can move to the front of the upper panel 2 to open the air inlet 11, and at the moment, a complete outer cavity 141 is formed, and at the moment, the lower panel assembly 3 is in a second position. The first oil guiding plate 71 is provided with a first inlet 711, and the second oil guiding plate 72 is provided with a second inlet 721, wherein the first inlet 711 is a main air inlet, and the second inlet 721 is an auxiliary air inlet. The outer cavity 141 can ensure that smoke can be rapidly collected and collected when the volume of the oil smoke is large, then the oil smoke is sucked from the first inlet 711 and the second inlet 721 on the oil guide plate assembly 7, and the oil smoke passes through the oil guide plate assembly 7 from the outer cavity 141, enters the fan system 6 through the inner cavity 142, and then is discharged outdoors. Preferably, the first inlet 711 and the second inlet 721 are both bar-shaped holes, and are uniformly spaced in the left-right direction, so that the first oil guide plate 71 and the second oil guide plate 72 become a grid net.

As described above, the front inner liner plate 151 is disposed obliquely with respect to the vertical direction and the horizontal direction, and in this embodiment, it is preferable that the front inner liner plate 151 is disposed at an angle of 50 ° with respect to the horizontal direction, in cooperation with the oblique disposition of the oil deflector assembly 7, so that the inner cavity 142 has a substantially conical cavity. The front inner lining plate 151 enables negative pressure in the inner cavity 142 to move outwards, and corresponding inlets on the first oil guide plate 71 and the second oil guide plate 72 are uniformly arranged, so that negative pressure in the outer cavity 141 can be uniform after the negative pressure moves outwards through the oil guide plate assembly 7, and the outer cavity 141 becomes a pressure equalizing cavity. In addition, the air inlet speed of each inlet on the oil guide plate component 7 is uniform, and oil smoke can uniformly enter the fan system 6. The outer cavity 141 is closer to the rising position of cooking food oil smoke, so that the rising oil smoke can be more easily captured, the oil smoke is prevented from escaping, and a user can really feel smokeless cooking in the cooking process.

Because of the negative pressure evenly distributed in the range of the outer cavity 141, the range is closer to the origin of fuming of cooking oil smoke, and the smoke on the two sides can not overflow the outside of the range hood. The soot rises and enters the inner cavity 142 through the first inlet 711 (path L3), the second inlet 721 (path L2), or the first inlet 711 (path L1) under the guidance of the lower plate assembly 3, directly in three directions. The rising oil smoke can be inclined at a certain angle by the arrangement of the second inlet 721 (the auxiliary air inlet). The air inlet area S1 of the second inlet 721 is inversely proportional to the rising inclination angle of the oil smoke and the wind speed V1; the smaller the S1, the higher the V1, and the larger the oil smoke rising inclination angle (within a certain range). The wind speed V2 of the soot at the first inlet 711 reaches a maximum, V2 > V1, and most of the soot is absorbed by it along the L3 path.

The oil smoke with the highest rising speed can diffuse when contacting the bottom surface of the first baffle 32 of the lower panel assembly 3, because of the inclined design of the first baffle 32, the oil smoke can drift upwards along the inclined surface, the wind speed V2 at the first inlet 711 is highest, according to the coanda wall effect principle, the oil smoke can drift towards the first inlet 711 along the outer wall at the top of the outer cavity 141, and the oil smoke is collected by the fan system 6 and then discharged to the outside, so that a user really feels smokeless cooking in the cooking process.

Because the fan system 6 is arranged on the upper portion, noise generated during operation is reflected and diffused downwards through the fan frame 4 and enters the conical inner cavity 142. Therefore, it is preferable that the front inner liner plate 151 is a noise reduction plate structure. Referring to fig. 5, the inner lining plate assembly further includes a sound absorption cotton 153 disposed at the front side of the front inner lining plate 151, and the noise reduction holes 154 are opened on the front inner lining plate 151, so that the noise reduction structure is composed of the front inner lining plate 15 and the sound absorption cotton 153, and can reflect the noise diffused downwards in the fan frame 4, and the uniform arrangement of the first inlet 711 and the second inlet 721 of the oil guide plate assembly 7 can block the reflected noise again. According to bernoulli and fluid continuity principle, the inner cavity 142 is located below the fan system 6, the flow speed of the inner fluid is high, the dynamic pressure is high, the static pressure is low, the static pressure of the gas in the pressure equalizing cavity formed by the outer cavity 141 is maximum, the dynamic pressure is minimum, the air flow is more stable, the flow loss is low, the air inlet fluid is more uniform, and the noise is lower.

When the range hood is opened and is in a working state, a certain gap is formed between the lower panel assembly 3 and the upper panel 2, the first baffle 32 of the lower panel assembly 3 gradually inclines upwards from front to back to form a flow guide structure, so that oil smoke below the lower panel assembly 3 can be quickly guided into the outer cavity 141 on the front side of the oil guide panel assembly 7. In order to ensure that the smoke collecting effect and the user experience are optimal, the range hood is installed on the wall, and the distance between the bottom of the lower panel 31 and the wall is 360-380 mm.

Can set up light 36 in the first baffle 32 department of lower plate subassembly 3, install light 36 in this region, avoid the dazzling problem that the user brought is directly penetrated to light, can also shine the whole kitchen mesa of range hood below, promote user's culinary art and experience the effect. Referring to fig. 6 and 7, the illuminating lamp 36 is an LED lamp, a lamp groove 321 is formed on the first baffle 32, the illuminating lamp 36 is clamped in the lamp groove 321, and in a working state of the range hood, light of the illuminating lamp 36 irradiates downwards.

In the present embodiment, it is preferable that the illumination lamps 36 are provided with two snap rings 361 at a side facing the inside of the lower panel assembly 3, each of the snap rings 361 is arranged at a left-right interval, and each of the snap rings 361 is fixed to the illumination lamp 36 by a screw 362. Preferably, the snap ring 361 is a metal snap ring. The following orientation under the range hood open mode is described, each snap ring 361 is from one side in light 36 orientation lower panel assembly 3, cross in the front and back direction, draw-in groove 322 has been seted up with the position that light 36 front and back both sides correspond, when installing light 36, the front and back both ends of extrusion every snap ring 361, thereby respectively with the draw-in groove 322 block of relevant position, after the installation targets in place, snap ring 361 and draw-in groove 322 extrude each other, it is fixed with light 36, thereby make light 36 and lower panel assembly 3 accomplish to dismantle and be connected.

Referring to fig. 8 to 10, the lower panel 31 is made of black tempered glass, a transparent circular-arc-shaped halation region 311 is formed on the lower edge of the lower panel by using an ink screen printing technique, opaque regions 3111 (black dots are preferred in practical effect) are formed in the halation region 311 by black opaque screen printing, a white transparent region 3112 is formed between the opaque regions 3111, and the halation region 311 with gradually changed size is formed by using a process of uniform density of the black dots but different size.

The illumination lamp 36 includes a diffuser 363 and a light emitting source 364, the light emitting source 364 preferably being in the form of an LED lamp bead for emitting light. The diffuser 363 is located on the downward side of the light source 364, and at least two bosses 365 with different inclined angles are distributed on the inner surface of the diffuser 363 and function to refract light to the halo region 311 on the lower edge of the lower panel 31. The different inclination angles here mean that the inner surface of the diffuser 363 facing the light emitting source 364 is a plane, the surface of the boss 365 facing the light emitting source 364 is inclined with respect to the plane, and the plurality of bosses 365 have different inclination angles. When the light emitted from the light source 364 is perpendicular to the surface of the convex platform 365 facing the light source 364, the light is not refracted according to the refraction theorem, and continues to pass through the medium of the light scattering cover 363 in the original direction, the light is refracted when passing through the light scattering cover 363 and propagating into the air, the density of the light scattering cover 363 is greater than that of the air, so that the refraction angle of the light is increased, and further the light propagates to the halation region 311 at the lower edge of the lower panel 31, and the light emitting and refraction route is shown by an arrow in fig. 8.

Referring to fig. 11 to 16, in order to automatically drive the lower panel assembly 3, a moving mechanism is provided on a side of the lower panel assembly 3 facing the inside of the housing 1, and includes a support beam 371 fixed in the housing 1, a driving mechanism 372, a first hinge 373, a second hinge 374, a first link 375, and a second link 376. The support beam 371 has both ends connected to the upper panel 2 and the rear panel of the top rear panel 13 of the housing 1. The first hinge 373 is bent, preferably, in a substantially V shape with a forward opening, one end of the first hinge 373 is hinged to the front end of the support beam 371 (the hinge is the rotation center of the first hinge 373), and the other end is hinged to the lower panel 31 through the panel bracket 312, wherein the panel bracket 312 is fixedly disposed on the side of the lower panel 31 facing the inside of the housing 1. The second hinge 374 may have a long bar shape, one end of which is hinged to the support beam 371 (the hinge is the rotation center of the second hinge 374), and the other end of which is hinged to the lower panel 31 through the panel bracket 312. The connection of the first hinge 373 to the panel bracket 312 is located above the connection of the second hinge 374 to the panel bracket 312. Alternatively, the first hinge 373 and the second hinge 374 may be connected to the lower panel 31 by two separate panel brackets 312. The second link 376 is preferably in the shape of an upwardly protruding arc, and has one end hinged to the second hinge 374, e.g., at an intermediate position of the second hinge 374, and the other end hinged to one end of the first link 375, and the other end of the first link 375 is connected to an output end of the driving mechanism 372 and is driven by the driving mechanism 372 to rotate around the connection with the driving mechanism 372. Preferably, the driving mechanism 372 is a motor, and is connected to the first link 375 through an output shaft 3724 (which may also be an output shaft of the motor) of the speed reducing mechanism, for example, the first link 375 is directly sleeved on the output shaft 3724. The second hinge 374 is a drive arm, and the first hinge 373 is a driven arm. The rotation axes at which the first hinge 373, the second hinge 374, the second link 376, and the first link 375 are hinged extend in the left-right direction.

The support beam 371 can support the weight of the lower panel assembly 3, is an interface of each rod piece for controlling the motion track of the lower panel assembly 3, is connected with the top rear plate 13 and the upper panel 2 of the shell 1, enhances the rigidity of the shell 1, and improves the anti-falling capacity in the transportation process.

The two motion mechanisms are driving ends, and the motion mechanism as a driven end does not need to be provided with the driving mechanism 372, and at this time, the first connecting rod 375 of the motion mechanism is connected with the output end of the driving mechanism 372 of the other motion mechanism through the connecting shaft 377 to transmit torque, and the connecting shaft 377 extends in the left-right direction, so that the motion mechanisms on both sides of the lower panel 31 are synchronized to be smoothly opened and closed. The connecting shaft 377 is connected to the output shaft 3724 and the first link 375 at its both ends. In consideration of space, the load rotation center (the rotation center of the coupling shaft 377) is shifted to a position close to the lower panel 31 by providing the link mechanism formed by the first link 375 and the second link 376, so that the installation can be facilitated.

By arranging the first hinge 373 and the second hinge 374, the motion tracks of the upper hinge point and the lower hinge point of the lower panel 31 are respectively controlled, so that the lower panel 31 realizes the compound motion of translation and rotation. Because the double-hinge structure has large shaking amount, and the non-driving end has two movable points and cannot move synchronously, a connecting shaft 377 is added to realize the transmission of torque and increase the synchronism of the movement of the left side and the right side.

Referring to fig. 1, 11 and 13, when the lower panel assembly 3 is in the closed state, the included angle α between the first link 375 and the second link 376 approaches the angle of the dead center, and the lower panel 31 and the upper panel 2 of the lower panel assembly 3 are flush with each other to form a large plane; referring to fig. 16, the moving mechanism is opened, and the lower panel assembly 3 is first translated forward and backward and then rotated counterclockwise; referring to fig. 3 and 14, when the lower panel assembly 3 moves to the fully opened state, which is at the front side of the upper panel 2, the included angle β between the first link 375 and the second link 376 approaches the close-dead-point angle, so that the transmission efficiency can be improved. In the present embodiment, the angle between the first link 375 and the second link 376 refers to the angle between the line (chord) connecting the two ends of the second link 376 and the center line of the first link 375. The angle of the link movement determines the position of the lower panel 31 when opened and closed, and a limit shaft 3711 is provided on the support beam 371 corresponding to the position below the first link 375 for limiting the movement of the first link 375 when closed, preventing it from crossing the dead point, resulting in failure of the link mechanism. Referring to fig. 12 and 15, the end of the first link 375 connected to the second link 376 is concavely formed with a movement groove 3751 for limiting the angle of movement of the second link 376 by the depth h of the movement groove 3751 when the lower panel assembly 3 is opened.

Claims

1. The utility model provides a range hood, includes casing (1), fixed upper panel (2) and the activity that sets up in casing (1) front side set up at casing (1) front side down panel assembly (3), its characterized in that: an air inlet (11) is formed below the front side of the shell (1) and the upper panel (2), the lower panel assembly (3) can be located at a first position and a second position, when the lower panel assembly (3) is located at the first position, the air inlet (11) is closed by the lower panel assembly (3), when the lower panel assembly (3) is located at the second position, the air inlet (11) is opened, the lower panel assembly (3) is located at the front side of the upper panel (2), and an illuminating lamp (36) is arranged at the bottom of the lower panel assembly (3).

2. The range hood of claim 1, wherein: the lower panel assembly (3) comprises a lower panel (31) matched with the air inlet (11) and a first baffle (32), the first baffle (32) extends into the shell (1) from the bottom of the lower panel (31), and the illuminating lamp (36) is arranged on the first baffle (32).

3. The range hood of claim 2, wherein: the lower edge of the lower panel (31) is provided with a halation area (311) which can enable light rays emitted by the illuminating lamp (36) to penetrate through.

4. The range hood of claim 3, wherein: the lower panel (31) is made of black toughened glass, and the halation area (311) is made by an ink screen printing technology.

5. The range hood of claim 3, wherein: and non-light-transmitting areas (3111) are arranged in the halation areas (311), white light-transmitting areas (3112) are arranged between the non-light-transmitting areas (3111), and the non-light-transmitting areas (3111) and the light-transmitting areas (3112) are consistent in density and different in size, so that the gradation halation areas (311) are formed.

6. The range hood of claim 3, wherein: the illuminating lamp (36) comprises a diffuser (363) and a light emitting source (364), wherein the diffuser (363) is positioned on the downward side of the light emitting source (364), and at least two bosses (365) which have different inclination angles and enable light rays emitted by the light emitting source (364) to be refracted to the halation area (311) are distributed on the inner surface of the diffuser (363).

7. The range hood of claim 6, wherein: the inner surface of the diffuser (363) facing the light emitting source (364) is a plane, the surface of the boss (365) facing the light emitting source (364) is inclined relative to the inner side surface of the diffuser (363) facing the light emitting source (364), and the inclination angles of the bosses (365) relative to the diffuser (363) are different.

8. The range hood of claim 2, wherein: a lamp groove (321) is formed in the first baffle (32), and the illuminating lamp (36) is clamped in the lamp groove (321).

9. The range hood of claim 8, wherein: the utility model discloses a lamp, including light (36), lamp groove (321) and light (36), light (36) are provided with snap ring (361) towards the inside one side of lower panel subassembly (3), snap ring (361) are followed light (36) and are crossed in the front and back direction towards one side in lower panel subassembly (3), draw-in groove (322) have been seted up with the position that light (36) front and back both sides correspond, both ends respectively with draw-in groove (322) block of relevant position around snap ring (361), snap ring (361) and draw-in groove (322) extrude each other and fix light (36).

10. The range hood according to any one of claims 1 to 9, wherein: the upper panel (2) is provided with a power key (21), and the lower panel assembly (3) is provided with a function key (35), so that a double-control switch structure is formed.