KR101306756B1 - Range hood capable of resisting draft - Google Patents

Abstract

A range hood that can be protected from draft is provided on the counter, and an air generator is located at the upper end of the counter. The range hood includes an exhaust hood having a bottom portion with an elongated exhaust slot for sucking air upwards. In addition, a blowing groove is provided in front of the elongated exhaust slot to blow air downward. Below the left and right surfaces of the exhaust hood are elongated left and long right plates, respectively. Thus, when the elongated exhaust slot draws in air, an inclined air flow is formed. In addition, the elongated left and right vertical plates can block drafts blowing from the sides, thus protecting the inclined airflow structure. As a result, an intimate upward flow of air flow is formed to release soot and harmful gases.

Description

Range hoods can be protected from drafts {RANGE HOOD CAPABLE OF RESISTING DRAFT}

The present invention relates to a range hood, more specifically, it can be protected from drafts blowing from the whole direction and can emit soot and pollutants, kitchen of a home, a kitchen of a restaurant, or A range hood suitable for other workplaces generating polluting gases.

The conventional range hood in the kitchen is not much different from the top-suction style range hood in the work space. In such conventional range hoods, the velocity of the airflow is greatly reduced as the airflow flowing upwards approaches the exhaust slot of the range hood at close range, and thus usually an upward extraction force. ) Is not enough. Thus, the performance of the range hood is much more easily affected by the draft caused by the operation of a passing person, a fan, or an air conditioner (air conditioner). As a result, the effective area confining soot is greatly reduced to a narrow area. In this way, the soot escapes along the draft when it is very close to the exhaust slot, which compromises the health of the chefs who are cooking in the kitchen.

Thus, in order to solve the above problem, the inventors have developed a range hood with an "air curtain" based on aerodynamic principles. The main technical feature of the lazy hood is to provide an air jet which is inclined upwardly from the front of the counter and to a slot-shaped air extraction hood on top of the oven. The left and right sides are kept open for air supply, thereby forming an almost two-dimensional air curtain by a blown air jet and a drawn air jet. This flow field according to aerodynamic principles allows the soot and harmful gases between the inclined air curtain and the rear wall to be reliably transported upwards to the exhaust hood and discharged.

In an embodiment, without strong drafts, the range hood can effectively localize and discharge soot and harmful gases. In addition, it is possible to minimize leakage caused by people passing by or slight drafts at speeds less than 20 cm / s. As described above, the left and right sides of the oven of the counter are kept open, and air can be sucked in and supplied to form a two-dimensional air curtain facing those who are cooking. In this way, strong protection can be provided from the interference of the wind in front of the counter. In the kitchen, however, it is quite difficult to completely eliminate the interference from the stronger winds coming from all directions, such as the flow of air generated by a fan or the flow of air generated by other winds entering through a door or window without such a fan. . This phenomenon complicates the draft in the kitchen. In particular, when there is an air draft near the left and right sides of the oven of the counter, the air curtain structure is destroyed by the air blown laterally through an air supply space formed near the left and right sides of the oven of the counter. Therefore, the ability to discharge soot can be greatly reduced. Experiments conducted at the National Taiwan University of Science and Technology have shown that when the wind speed exceeds about 20 cm / s, severe smoke leakage will occur in commercially available range hoods. Can be. This phenomenon also occurs in a range hood having a two-dimensional air curtain. Drafts are common in kitchens, and it is difficult to limit the speed to a small range. Therefore, soot leaks become very serious in such places. In addition, when soot and gas are high temperature, it is more difficult to prevent the leakage of soot due to the expansion characteristics of the gas.

In addition, the range hood having a two-dimensional air curtain needs to be provided with an air blow device and an exhaust device at the same time. Therefore, assembling or replacing these parts is very inconvenient. In addition, as more devices are required, device costs and labor costs rise accordingly.

In order to provide an improved structure that overcomes the above drawbacks while being different from the prior art, the inventors have the object of studying and developing the present invention. After intensive research and development, the inventors have developed a range hood that can be protected from drafts blowing from all directions and prevent the leakage of hot expansion gases, thereby effectively releasing soot and harmful gases. Provided.

The object of the present invention is to protect against draft by providing an elongate exhaust slot at the bottom of the air extraction hood and an elongate upright plate respectively under the left and right surfaces of the exhaust hood. It is possible to provide a range hood capable of preventing a lateral draft from blowing in and to form a completely upward air flow, thereby releasing soot and harmful gases.

Another object of the present invention is a range hood that can be protected against draft by providing elongated vertical plates below the left and right surfaces of the exhaust hood, respectively, and providing guiding structures at the front ends of the two vertical plates, respectively. And when the air is drawn into the space under the exhaust hood through the front end of the vertical plate, the exhaust air is reduced by reducing the backflow area formed by the air flow deviated from the front end of the left and right vertical plates. The flow can be smoothly flown.

Another object of the present invention is to provide a lazy hood which can be protected from draft by providing an air blow groove at one end of the exhaust slot located at the bottom of the exhaust hood, wherein the air blown upwards is air The hot expansion gas can be directed to an elongated exhaust slot to confine the hot expansion gas produced by the generator and prevent leakage.

In order to achieve the above object, the present invention provides a range hood that can be protected from draft, and its rear portion is disposed on the wall and positioned above the counter, and an air generating device is provided at the upper end of the counter. The range hood includes an exhaust hood, an elongated left vertical plate, and an elongated right vertical plate. The exhaust hood has a bottom with an elongated exhaust slot having an opening facing downward. The elongate exhaust slots are in circulation with the exhaust system to draw air upwards. The elongate exhaust slot has a front end with an elongated blower groove having an opening pointing downwards. The elongate blower groove is in circulation with the blower to blow air downward. An elongated exhaust slot and an elongated blower groove are provided between the front end surface and the rear end surface of the exhaust hood and are parallel to the front end surface and the rear end surface. The long left vertical plate is provided to be fixed under the left surface of the exhaust hood, the horizontal width of the long left vertical plate is greater than or equal to the horizontal distance from the rear end of the air generator to the wall, and the vertical of the long left vertical plate The length is greater than or equal to the height from the top of the counter to the bottom of the long left vertical plate. The elongated right upright plate is provided fixed under the right surface of the exhaust hood, and the horizontal width of the elongated right upright plate is greater than or equal to the horizontal distance from the rear end of the air generator to the wall, and is perpendicular to the elongated right upright plate. The length is greater than or equal to the height from the top of the counter to the bottom of the long right vertical plate.

In an embodiment, the first guide portion of the curved surface is provided on the right side of the front end of the left vertical plate, and the second guide portion of the curved surface is provided on the left side of the front end of the right vertical plate.

In an embodiment, when the range hood, which can be protected against draft, is suspended directly above the counter, the elongate exhaust slot is located midway between the front end surface and the rear end surface of the exhaust hood. The horizontal width of the long left vertical plate is greater than or equal to 1/4 of the horizontal width of the left surface of the exhaust hood, and the horizontal width of the long right vertical plate is greater than or equal to 1/4 of the horizontal width of the right surface of the exhaust hood. Thus, these left and right vertical plates can cover the left and right surfaces of the air generating device. In addition, the front and rear ends of the elongated exhaust slots are each provided with an elongated blower groove having openings pointing downwards. The elongate blower groove is in circulation with the blower to blow air downward. In addition, the blowing grooves are parallel to the elongate exhaust slots.

The following detailed description, given by way of example or example, will be best understood in conjunction with the accompanying drawings.

Accordingly, the present invention has the following advantages:

1. According to the present invention, an intact upward flow of air is provided by an elongated exhaust slot capable of sucking air to exhaust soot and harmful gases and an elongated left and right plate which can be protected from drafts blowing from the sides. Flow can be formed.

2. According to the present invention, by providing a curved guide portion in each of the front ends of the elongated left and right plates, it is possible to reduce the inflow of backflow bubbles into the space under the exhaust hood. Thus, the countercurrent foam does not escape to the outside, thereby preventing the spread of soot. In addition, the upflow airflow also remains intact, ensuring smooth exhaust.

3. According to the present invention, a full upward flow of air can be formed by the cooperative action of an elongated exhaust slot and an elongated left and right vertical plates to discharge soot and harmful gases. Therefore, the range hood of the present invention can be used in place of the conventional range hood without changing other kitchen utensils, thus being convenient to use.

4. According to the present invention, the air (wind) blown downward from the blowing groove provided at the bottom of the exhaust hood can prevent the leakage of the hot expansion gas, and the hot expansion gas is an elongated exhaust slot. It can be guided to flow into. Therefore, leakage can be effectively prevented even when the gas is in a high temperature state and the draft is present.

1 is a perspective view showing a first embodiment of the present invention, disposed on a counter,
2 is a cross sectional view showing a first embodiment of the present invention disposed on a wall,
3 and 4 are cross sectional views showing one shape of an air collector according to the present invention;
5 and 6 are views showing the use of the first embodiment of the present invention in the gas exhaust process;
7 is a view showing the use of the second embodiment of the present invention in the gas exhaust process,
8 is a cross sectional view showing a third embodiment of the present invention;
9 is a view showing use of a third embodiment of the present invention in a gas exhaust process;
FIG. 10 is a photograph showing smoke in the horizontal plane and the middle vertical plane. The present invention utilizes a technique that uses a laser to emit smoke over the oven and visualize the flow field of the smoke. ,
FIG. 11 is a comparison curve graph showing capture efficiency obtained after each of the present invention and another range hood has been subjected to a static test; FIG.
12 is a comparative curve graph showing the collection efficiencies respectively obtained after a dynamic test was performed on the present invention and another range hood,
13A is a cross sectional view of a fourth embodiment of the present invention disposed on a wall;
13B is a perspective view showing another pattern of the ventilation grooves in the fourth embodiment of the present invention,
14 illustrates the use of a fourth embodiment of the present invention,
15 is a cross sectional view of a fifth embodiment of the present invention.

1 and 2, there is shown a first embodiment of a range hood 1 which can be protected from drafts according to the invention. In this embodiment, the range hood has a rear portion disposed on the wall 11 and located above the counter 12. An oven is provided at the upper end of the counter 12, and a cooking utensil may be placed on the oven. The oven is designed to be an air generator 13. The air generator has a rear end 131 facing towards the wall 11 and a front end 132 remote from the wall 11 opposite the rear end 131. In an embodiment, the air generator 13 may also include cooking utensils or other kitchen utensils capable of generating harmful gases. In addition, the range hood 1 includes an exhaust hood 2, an elongated left vertical plate 3, and an elongated right vertical plate 4.

The exhaust hood 2 has an air collector 21. The air collector 21 is a generally rectangular casing with a space 211 therein. The air collector 21 also has a bottom plate 212 provided with an elongated exhaust slot 22 having an opening facing downward. The elongated exhaust slot 22 is located between the front end surface 23 and the rear end surface 24 of the exhaust hood 2 and is parallel to the front end surface 23 and the rear end surface 24. The bottom plate 212 of the air collector 21 is provided with an oil barrier frame 213. The oil barrier frame 213 protrudes from the surface of the bottom plate 212 and surrounds the elongated exhaust slot 22. An oil storage box 25 is provided below the rear end of the surface of the bottom plate 212 of the air collector 21. Alternatively, the oil storage box 25 may also be provided below the front end or below the side of the surface of the bottom plate 212. In addition, the upper end of the air collector 21 is provided with an exhaust inlet 214 to be connected with the exhaust device 26. This inlet 214 is disposed away from the position just above the elongated exhaust slot 22. In an embodiment, the exhaust device 26 may be a drawing fan, an air blower, or other fluidic device capable of sucking air.

In an embodiment, the air collector 21 may consist of a generally L-shaped casing. As shown in Fig. 3, the elongate exhaust slots 22 face downwards at an angle. In contrast, as shown in FIG. 4, the elongated exhaust slots 22 face away from the rear end surface 24 of the air collector 21.

The long left vertical plate 3 is generally rectangular with its upper end fixedly positioned below the left surface of the air collector 21 so that the long left vertical plate 3 and the elongate exhaust slot 22 are substantially perpendicular to each other. The left vertical plate 3 which has been elongated extends downward from the position below the left surface of the air collector 21. In addition, a curved first guide part 31 is provided on the right side of the front end of the elongated left vertical plate 3. The horizontal width W of the long left vertical plate 3 is not smaller than the horizontal distance W1 from the rear end 131 of the air generator 13 to the wall 11. That is, the long left vertical plate covers at least part of the left surface of the air generating device 13. In addition, the height H of the elongated left vertical plate 3 is not smaller than the height H1 from the upper end of the counter 12 to the bottom of the elongated left vertical plate 3.

The elongated right vertical plate 4 and the elongated left vertical plate 3 are provided symmetrically on the left and right sides of the air collector 21, respectively. The upper end portion of the elongated right vertical plate 4 is fixedly positioned below the right surface of the air collector 21, thereby allowing the elongated right vertical plate 4 and the elongated exhaust slot 22 to be substantially perpendicular to each other. The vertical plate 4 extends downward from the position below the right surface of the air collector 21. Further, a curved second guide portion 41 is provided on the left side of the front end of the elongated right vertical plate 4. The horizontal width of the elongated right vertical plate 4 is not smaller than the horizontal distance from the rear end 131 of the air generator 13 to the wall 11. That is, the long right vertical plate 4 covers at least part of the right surface of the air generating device 13. In addition, the height of the elongated right vertical plate 4 is not less than the height from the upper end of the counter 12 to the bottom of the elongated right vertical plate 4.

As a result, a substantially rectangular first air supply space 27 is formed below the front end of the elongated left vertical plate 3 and below the front end of the left side of the exhaust hood 2. A second substantially rectangular air supply space 28 is also formed below the front end of the elongated right vertical plate 4 and below the front end of the right side of the exhaust hood 2. In addition, a substantially rectangular third air supply space 29 is formed between the bottom of the left vertical plate 3 and the left side of the counter 12, while the bottom of the right vertical plate 4 and the counter are formed. Between the right side of 12, the 4th air supply space 30 of substantially rectangular shape is formed.

Therefore, as shown in Figs. 5 and 6, when the present invention is fixed to the wall and the air generator 13 starts to generate soot or other harmful gas, the elongate type is controlled by the operation of the exhaust device 26. The exhaust slot 22 begins to suck air upwards. The high-speed exhaust of the elongated exhaust slot 22 forms an inclined air flow under the front end of the air collector 21, thereby upwardly releasing soot or other harmful gases generated by the air generator 13 upwards. Will be carried. After passing through the space 211 in the air collector 21, soot or other harmful gas is discharged by the exhaust device 26. Since the exhaust inlet 214 of the exhaust device 26 is disposed away from the position just above the elongated exhaust slot 22, the accumulated waste oil passes through the elongated exhaust slot 22. It will stick to the surface of the bottom plate 212 without falling off. In addition, by enclosing the oil barrier frame 213 around the elongated exhaust slot 22, it is possible to prevent the waste oil from falling through the exhaust slot 22. Accordingly, the waste oil flows into the oil storage box 25. By blocking the elongated left vertical plate 3 and the elongated right vertical plate 4, it is possible to protect against the wind blowing from the lateral direction. As a result, the above-mentioned inclined air flow structure is not destroyed, and a full upstream air flow can be formed so as to discharge soot and harmful gases.

In addition, a curved first guide portion 31 is provided on the right side of the front end of the elongated left vertical plate 3, while a curved second guide 41 is provided on the left side of the front end of the elongated right vertical plate 4. Prepared. Therefore, when air flows into the space below the air collector 21 through the first air supply space 27 and the second air supply space 28, the first guide portion 31 and the second guide portion. The 41 departing points 311 and 411 are in the rearward position. As a result, the backflow region generated by the air flow can be reduced, and the exhaust air flow can flow smoothly.

7, a second embodiment of the present invention is illustrated. This embodiment differs from the first embodiment in the following aspects. The counter 12 has a front end provided with an elongate air blow part 5. The elongate blower section 5 has an inclined elongate blower slot 51, the size of the elongate blower slot 51 corresponding to the elongate blower slot 22. The elongate blower slot 51 is in circulation with an air blower 52. By the operation of the blower 52, an air jet is blown upwardly at an angle through the elongate blower slot 51 and flows into the elongated exhaust slot 22, whereby an elongate blower slot An inclined air curtain 53 can be formed between the 51 and the elongated exhaust slot 22. In embodiments, a cross-flow fan or other fluidic device may be used to replace the blower 52.

8, a third embodiment of the present invention is illustrated. This embodiment differs from the first embodiment and the second embodiment in the following aspects. The range hood is suspended just above the counter 12 so that the front side and the rear side of the exhaust hood 2 are open. The elongated exhaust slot 22 is located at an intermediate point between the front end surface and the rear end surface of the exhaust hood 2. The horizontal width W2 of the elongated left vertical plate 3 is not smaller than 1/4 of the horizontal width W3 of the left surface of the exhaust hood 2, and the horizontal width of the elongated right vertical plate 4 is the exhaust hood ( It is not smaller than 1/4 of the horizontal width of the right surface of 2), and thus can cover the left and right surfaces of the air generating device 13. As shown in FIG. 9, another elongate blower 6 may also be provided at the rear end of the counter 12. The elongate blower section 6 has an elongate blower slot 61 corresponding to the elongated exhaust slot 22. In addition, the elongate blower slot 61 is in circulation with the blower 52. Therefore, when the air jet is blown inclined at a predetermined angle from the elongated blower slot 61 and flows into the elongated exhaust slot 22, the elongated blower slot 61 and the elongated exhaust slot 22 are formed. Another inclined air curtain 62 may be formed therebetween.

Each of the single or double air curtains formed in the presence or absence of the blowers 5, 6 delivers soot or noxious gases stably up into the exhaust hood 2 and is discharged by the operation of the exhaust device 26. can do.

To view several horizontal and vertical planes of the apparatus of the present invention, smoke is emitted from above the oven and a laser assisted smoke flow visualization technique is used. 10 is a photograph showing smoke in the horizontal plane and in the middle vertical plane. As the distribution of the smoke in the vertical plane indicates, the smoke from the smoke generator first flows upwardly at an angle toward the rear wall at an angle, and then is drawn into the exhaust slot disposed in the rear position without exiting from the front. As the distribution of smoke in the horizontal plane indicates, the smoke from the smoke generator does not diffuse laterally but rather gathers around the central area.

Experiments conducted in the Thermal Fluid Laboratory of National Taiwan University of Science and Technology demonstrated the contaminant removal effect of the present invention, and the gas trace detection method was used. Sulfur hexafluoride (SF ₆ ) gas was discharged at a constant concentration and at a constant rate from a gas discharge device placed in an oven. To calculate the capture efficiency (η), the concentration and flow rate of sulfur hexafluoride at the end of the duct of the exhaust hood is measured, which is measured in "units measured at the end of the duct of the exhaust hood. Volume of SF ₆ gas flowing per hour divided by the volume of SF ₆ gas emitted by the gas release device per unit time.

The first test is a static test. In this test, the exhaust hoods are placed at different heights H from the counter. Under conditions in which the draft velocity (( V _draft ) of the surrounding environment is very low (about 0.03 m / s), the collection efficiencies of the five types of range hoods are measured, respectively. (2) A conventional range hood with slots at the front end of the counter to blow upwards; (3) A conventional range hood with protection plates on each of its left and right sides; 4) an air curtain type range hood, and (5) the range hood of the present invention, the result of which is shown in Fig. 11. The first three types of range hoods (conventional range hoods, to be blown upwards); The collection efficiency of the conventional range hood with slots at the front end of the counter and the conventional range hood with protective plates on each of the left and right sides is the last two types of range hoods (the air curtain type range hood and the range after the present invention). In addition, the collection efficiency of the range hood of the present invention is higher than the collection efficiency of the air curtain type range hood, which is particularly effective when the height of the range hood is greater than 0.5 m. It becomes clearer when higher.

The second test measures the ability of the environment to protect against draft. In this test, the exhaust hood is placed at a height of 0.6 m from the counter. In addition, drafts with different flow velocities ( V _draft ) at a distance of 2 m from the five types of range hoods were provided at an angle of 45 ° toward the range hoods.The collection efficiencies of the five types of range hoods were measured, respectively. The result is shown in Fig. 12. The first three types of range hoods (conventional range hoods, conventional range hoods with slots at the front end of the counter for blowing upwards, and protective plates on each of the left and right sides) are provided. It is clear that the collection efficiency of the conventional range hood is much lower than the collection efficiency of the last two types of range hoods (the air curtain type range hood and the range hood of the present invention). The collection efficiency is higher than that of the range hood of the air curtain type, especially the present invention is much more effective when the speed of the draft is higher than 0.2 m / s. The collection efficiency of the present invention is still maintained or slightly reduced even when the speed of the draft reaches 1 m / s, unlike the range hood according to the present invention, when the draft is gradually stronger, the remaining four types of The collection efficiency of the range hood is rapidly reduced to an unsatisfactory level, and similar results are obtained even if the draft is blown at different angles.

Referring to Fig. 13A, a fourth embodiment of the present invention is illustrated. In this embodiment, the long left vertical plate 3 is fixed at a position below the left surface of the exhaust hood 2, while the long right vertical plate 4 is fixed at a position below the right surface of the exhaust hood 2. do. In addition, the front end of the elongate exhaust slot 22 is provided with an elongate blowing groove 221 having an opening facing downward. The elongate blower groove 221 is parallel to the elongate exhaust slot 22, and the elongate blower groove 221 is in flow with the blower 222 so as to blow air downward. In an embodiment, the blower 222 is an air blower or a cross-flow fan. As shown in FIG. 13B, the elongated blower grooves 221 further include a left blower groove 2211 and a right blower groove 2212 aligned in a line and spaced apart from each other. In addition, the elongate blower groove 221, the left blower groove 2211, and the right blower groove 2212 may be configured by a plurality of blower holes arranged to be spaced apart from each other.

Thus, as shown in FIG. 14, when the air generating device 13 generates hot gas, soot is diffused toward the front end surface 23 of the exhaust hood 2 due to the gas expansion phenomenon. On the other hand, the air (wind) blowing downward from the blowing groove 221 not only prevents the hot expansion gas from leaking through the front end of the bottom portion of the exhaust hood 2, but also prevents the hot gas from escaping. Hot gas may be directed to flow into the elongate exhaust slot 22.

15 shows a fifth embodiment of the present invention. In this embodiment, the long left vertical plate 3 is provided to be fixed below the center of the left surface of the exhaust hood 2 while the long right vertical plate 4 is below the center of the right surface of the exhaust hood 2. It is provided to be fixed to. The elongate exhaust slot 22 has a front end and a rear end each provided with an elongate blower groove 221 having an opening facing downward. Each of the two elongated blower grooves 221 blows air downward to prevent hot gas from leaking from the front end surface 23 or the rear end surface 24 of the exhaust hood 2. And in circulation with the blower 222. In an embodiment, any of the elongate blower grooves 221 may be composed of the left blower grooves 2211 and the right blower grooves 2212 aligned and spaced apart from each other. Alternatively, the elongate blowing groove 221, the left blowing groove, and the right blowing groove may be configured with a plurality of blowing holes arranged to be spaced apart from each other.

As disclosed in the above description and the accompanying drawings, the present invention provides a range hood that can be protected from drafts that can block drafts blowing from all directions and can effectively discharge soot and harmful gases. can do. This is new and can be applied for industrial use.

While embodiments of the invention have been described in detail, many modifications and variations can be made by those skilled in the art from the teachings herein. Accordingly, it should be understood that any modifications and variations corresponding to the spirit of the present invention are included in the scope of the appended claims.

1: Range hood 2: Exhaust hood (2)
3: left vertical plate 4: right vertical plate
5, 6: blower 11: wall
12: Counter 13: Air Generator
21: air collector 22: exhaust slot
23: front end surface 24: rear end surface
26: exhaust device 27: first air supply space
28: second air supply space 29: third air supply space
30: fourth air supply space 31: first guide portion
41: second guide 51: elongated blowing slot
52: blower 131: rear end
132: front end 211: space
212: bottom plate 213: oil barrier frame
214: exhaust inlet

Claims (9)

A range hood capable of protecting against draft, wherein a rear portion of the range hood is disposed on a wall and positioned above a counter, and an air generator is provided at an upper end of the counter, and the air generator is provided with a rear end facing toward the wall. In the range hood having a rear end:
An air extraction hood provided with an elongated exhaust slot having an opening downward in the bottom, the elongated exhaust slot having an exhaust device and a circulation condition to suck air upwards Wherein the elongate exhaust slot is located between a front end surface and a rear end surface of the exhaust hood and is parallel to the front end surface and the rear end surface. Wow;
An elongated left vertical plate provided to be fixed below the left surface of the exhaust hood, wherein the horizontal width of the elongated left vertical plate is greater than or equal to the horizontal distance from the rear end of the air generating device to the wall, and the elongated left side A vertical length of the vertical plate is greater than or equal to a height from an upper end of the counter to a bottom of the elongated left vertical plate;
An elongated right vertical plate provided to be fixed below the right surface of the exhaust hood, wherein the horizontal width of the elongated right vertical plate is greater than or equal to the horizontal distance from the rear end of the air generating device to the wall, and the elongated right side A vertical length of the vertical plate is greater than or equal to a height from an upper end of the counter to a bottom of the elongated right vertical plate; And
The front end of the elongated exhaust slot is provided with an elongated blower groove having an opening facing downward, the elongated blower groove is in circulation with the blower device to blow air downward, A long exhaust slot and the elongated blow groove are provided between the front end surface and the rear end surface of the exhaust hood and parallel to the front end surface and the rear end surface.
Range hood which can be protected by draft. The air supply apparatus of claim 1, further comprising: a first air supply space is formed below the front end portion of the left vertical plate and the front end portion of the left surface of the exhaust hood; A second air supply space is formed below the front end portion of the right vertical plate and the front end portion of the right side surface of the exhaust hood; A curved first guide part is provided on the right side of the front end of the left vertical plate; The left side of the front end of the right vertical plate is provided with a curved second guide,
Range hood that can be protected from drafts. 3. An exhaust hood according to claim 1 or 2, wherein the exhaust hood comprises an air collector; The exhaust device is connected to an upper end of the air collector; The elongate exhaust slot is formed at the bottom of the air collector; The exhaust device is provided with an inlet for sucking air; The inlet is disposed away from a position immediately above the elongate exhaust slot,
Range hood that can be protected from drafts. 4. The air collector of claim 3, wherein the air collector has a bottom plate; The elongate exhaust slot is formed in the bottom plate; The bottom plate is provided with an oil barrier frame (oil barrier frame) surrounding the elongated exhaust slot,
Range hood that can be protected from drafts. 5. The apparatus of claim 4, wherein the counter has a front end portion provided with an elongate air blow part; The elongate blower includes an elongated blower slot corresponding to the elongated exhaust slot; An air jet is blown upwardly at an angle through the elongated blower slot so as to form an inclined air curtain between the elongated blower slot and the elongated exhaust slot. Flowing into the long exhaust slot,
Range hood that can be protected from drafts. delete A range hood capable of protecting against drafts provided on a counter, wherein the upper end of the counter is provided with an air generating device.
An exhaust hood having an elongated exhaust slot having an opening facing the bottom thereof, the elongated exhaust slot being in circulation with an exhaust device to suck air upward, and the elongated exhaust slot The exhaust hood located at an intermediate point between the front end surface and the rear end surface of the exhaust hood and parallel to the front end surface and the rear end surface;
An elongated left vertical plate fixedly provided below a middle portion of the left surface of the exhaust hood, wherein the horizontal width of the elongated left vertical plate is such that the horizontal width of the left surface of the exhaust hood can cover the left surface of the air generating device; The elongated left vertical plate, which is greater than or equal to one-quarter of the vertical length of the elongated left vertical plate, which is greater than or equal to the height from the top of the counter to the bottom of the elongated left vertical plate;
An elongated right vertical plate fixedly provided below a middle portion of the right surface of the exhaust hood, wherein the horizontal width of the elongated right vertical plate is such that the horizontal width of the right surface of the exhaust hood can cover the right surface of the air generating device; The elongated right vertical plate, which is greater than or equal to one quarter of the, and the vertical length of the elongated right vertical plate is greater than or equal to the height from the top of the counter to the bottom of the elongated right vertical plate; and
An elongated blower groove each having an opening facing downward is provided at the front end and the rear end of the elongate exhaust slot; The elongated blower groove is in circulation with the blower to blow air downward; The elongate blower grooves respectively extend the elongate blower grooves parallel to the elongate exhaust slots.
Range hood which can be protected by draft. 8. The apparatus of claim 7, wherein the upper end of the counter has a front end and a rear end each provided with an elongate blower; Each elongate blower section has an elongate blower slot corresponding to said elongate exhaust slot to blow air jet upwardly at an angle to a predetermined angle; The blown air jet is then sucked into the elongate exhaust slot to form two corresponding inclined air curtains between the elongate exhaust slot and the two elongated blower slots,
Range hood that can be protected from drafts. delete

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