CN115076796A

CN115076796A - Smoke machine structure, air-conditioning smoke machine and control method

Info

Publication number: CN115076796A
Application number: CN202210878356.XA
Authority: CN
Inventors: 徐成; 许宁; 舒枝龙; 于建中; 王宏
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2022-09-20

Abstract

The invention discloses a range hood structure, an air-conditioning range hood and a control method, wherein the range hood structure comprises a shell, an air-conditioning assembly, a water consumption unit, a range hood assembly and a control assembly, wherein the shell is provided with an exhaust channel and a smoke exhaust channel communicated with the outside, an air outlet of the exhaust channel is communicated with the smoke exhaust channel, and the shell is provided with a smoke inlet communicated with the inside of the shell; the water consumption unit is used for receiving condensed water dropping along the air conditioning assembly, scattering the received condensed water into water vapor and conveying the water vapor to the exhaust channel along the discharge port; the air outlet of the smoke exhaust component is communicated with the air inlet of the smoke exhaust channel; the control assembly comprises a first switch, a second switch and a controller, wherein the controller is configured to control the first switch to open or close the discharge port, control the second switch to open or close the smoke inlet, control the water consumption unit to operate or stop operating and control the cigarette making assembly to operate or stop operating according to the operation mode of the cigarette making machine structure.

Description

Smoke machine structure, air-conditioning smoke machine and control method

Technical Field

The invention relates to the technical field of air-conditioning range hoods, in particular to a range hood structure, an air-conditioning range hood and a control method.

Background

The kitchen is the main place that people cook, and the culinary art of people is experienced directly to the good or bad of kitchen air environment. The cold summer heat in kitchen winter has heat supply and refrigerated demand, also need be at the in-process discharge oil smoke of culinary art simultaneously, consequently, can install the air conditioner cigarette machine in the kitchen, through the oil smoke of air conditioner cigarette machine discharge in the kitchen and the temperature in the regulation and control kitchen to promote the experience of user's culinary art and feel. When the air-conditioning range hood is used, condensate water can be generated on the surface of the evaporator, and along with the increase of the produced condensate water, if the condensate water is not discharged in time, potential safety hazards can be generated on other electric elements in the air-conditioning range hood.

The traditional air-conditioning range hood generally discharges the generated condensed water through a smoke discharging channel, however, when the air-conditioning range hood is in operation, the oil smoke is easy to flow backwards, and pollution is caused to an air-conditioning assembly.

Disclosure of Invention

Based on this, to the problem that the conventional air conditioner cigarette machine generally discharges the generated condensed water through the smoke discharge channel, however, the air conditioner cigarette machine is easy to flow backwards when in operation, and pollutes the air conditioning assembly, the cigarette machine structure, the air conditioner cigarette machine and the control method are provided, and when in use, the risk that the air conditioning assembly is polluted by the oil smoke flowing backwards can be reduced.

The specific technical scheme is as follows:

on one hand, the application relates to a cigarette machine structure, which comprises a shell, an air conditioning assembly, a water consumption unit, a cigarette machine assembly and a control assembly, wherein the shell is provided with an exhaust channel and a smoke exhaust channel communicated with the outside, an air outlet of the exhaust channel is communicated with the smoke exhaust channel, and the shell is provided with a smoke inlet communicated with the inside of the shell; the air conditioning assembly is arranged in the shell; the water consumption unit is arranged in the shell, a discharge port of the water consumption unit is communicated with the exhaust channel, and the water consumption unit is used for receiving condensed water dropping along the air conditioner assembly, scattering the received condensed water into water vapor and conveying the water vapor to the exhaust channel along the discharge port; the cigarette machine component is arranged in the shell, and an air outlet of the cigarette machine component is communicated with an air inlet of the smoke exhaust channel; the control assembly comprises a first switch, a second switch and a controller, the first switch is used for opening or closing the discharge port, the second switch is used for opening or closing the smoke inlet, the water consumption unit, the cigarette machine assembly, the first switch and the second switch are all in communication connection with the controller, and the controller is arranged to control the first switch to open or close the discharge port, control the second switch to open or close the smoke inlet, control the water consumption unit to operate or stop operating and control the cigarette machine assembly to operate or stop operating according to an operation mode of the cigarette machine structure.

When the cigarette machine structure and the air-conditioning cigarette machine are used, the air-conditioning assembly can generate condensed water, the water consumption unit receives the condensed water which drips along the air-conditioning assembly, breaks the received condensed water into water vapor and conveys the water vapor to the exhaust channel along the exhaust port, and the water vapor is discharged along the exhaust channel. In order to reduce the risk that the oil smoke flows backward along the exhaust passage to pollute the air conditioner assembly, when the smoke machine structure is in an independent operation suction and exhaust mode, the smoke machine assembly is controlled to operate, the water consumption unit is controlled to stop operating, the second switch is controlled to open the smoke inlet, and the first switch is controlled to close the exhaust port, so that the oil smoke can only be exhausted along the smoke exhaust passage and cannot enter the exhaust passage. When the cigarette machine structure operates in the air conditioning mode independently, the cigarette machine assembly is controlled to stop operating and the water consumption unit is controlled to operate, the first switch is controlled to open the discharge port, the second switch is controlled to close the smoke inlet, and at the moment, water vapor enters the smoke exhaust channel, so that the cigarette machine assembly is not polluted; when cigarette machine structure moves fume suction mode and air conditioner mode simultaneously, control cigarette machine subassembly operation and control consume the water unit operation, the discharge port is opened to control first switch, the cigarette hole is opened to control second switch, even discharge port and cigarette hole open simultaneously this moment, but owing to under the effect of consuming the water unit, exhaust passage possesses the driving pressure that orders about the air current and remove along exhaust passage's direction of delivery, under cigarette machine subassembly's effect, the oil smoke is ordered about and is carried along the exhaust passage, and then also can reduce the oil smoke and flow backward the risk of polluting the air conditioner subassembly.

The technical solution is further explained below:

in one embodiment, the water consumption unit comprises a water receiving part and a fan assembly, the water receiving part divides the inner part of the shell into a first space and a second space, the air conditioning assembly is arranged in the first space, the water receiving part is used for receiving condensed water dropping along the air conditioning assembly, and the water receiving part is provided with a drain hole;

the cigarette machine assembly and the fan assembly are both arranged in the second space, the fan assembly is in communication connection with the controller, an air outlet of the fan assembly is the exhaust port and is communicated with an air inlet of the exhaust channel, the air inlet of the fan assembly is communicated with the drain hole, and the fan assembly is used for scattering condensed water conveyed into the fan assembly into water vapor and conveying the water vapor to the exhaust channel through the air outlet of the fan assembly.

In one embodiment, the air conditioning assembly comprises a condenser and an evaporator which are arranged along the height direction of the shell, the condenser is arranged close to the water receiving piece relative to the evaporator so as to receive condensed water dropping along the evaporator;

the air conditioning assembly further comprises a condensing fan, and the condensing fan is used for driving airflow in the first space to pass through the condenser and then be conveyed to an air inlet of the fan assembly along the drain hole.

In one embodiment, the structure of the cigarette machine further comprises a partition board, the partition board is arranged in the second space and divides the second space into a cigarette cavity and a condensed water processing cavity, the fan assembly is arranged in the condensed water processing cavity, the drain hole is communicated with the condensed water processing cavity, and the cigarette machine assembly is arranged in the cigarette cavity.

In one embodiment, the cigarette machine structure further comprises a guide member, and the drain hole is communicated with the air inlet of the fan assembly through the guide member so as to convey condensed water drained along the drain hole to the air inlet of the fan assembly under the guidance of the guide member.

In one embodiment, the guide member is disposed in the condensed water processing cavity, one end of the guide member is connected to the water receiving member, the other end of the guide member is connected to the fan assembly, the guide member, the water receiving member and the fan assembly are enclosed to form a water guide space, and the drain hole is communicated with the air inlet of the fan assembly through the water guide space.

In one embodiment, the fan assembly includes a volute and a first fan blade disposed in the volute, the volute is provided with the discharge port, the drain hole is communicated with an air inlet of the volute through the guide member, the guide member enters the volute along the air inlet of the volute to guide condensed water to the first fan blade, and the volute, a portion of the guide member located outside the volute, and the water receiving member are surrounded to form the water guide space.

In one embodiment, the fan assembly further comprises a first driving motor, and the first driving motor is connected with the first fan blade and used for driving the first fan blade to rotate;

the cigarette machine assembly comprises a second fan blade and a second driving motor, the second driving motor is connected with the second fan blade and used for driving the second fan blade to rotate, and the first driving motor and the second driving motor are in communication connection with the controller.

In one embodiment, the angle between the conveying direction of the flue gas channel and the conveying direction of the exhaust gas channel is a, wherein a is an acute angle.

In one embodiment, 15 ≦ a ≦ 75.

In one embodiment, a converging port is formed in a portion, located between an air inlet of the smoke exhaust channel and an air outlet of the smoke exhaust channel, and the air outlet of the smoke exhaust channel is communicated with the converging port.

In another aspect, the application also relates to an air-conditioning cigarette machine, which comprises the cigarette machine structure in any one of the previous embodiments.

On the other hand, the application also relates to a control method applied to the structure of the cigarette machine in any one of the embodiments, which comprises the following steps:

detecting a current mode of operation of the cigarette machine arrangement;

when the smoking and exhausting mode of the structure of the cigarette machine is detected to be operated independently, the first switch is controlled to close the exhaust port, the second switch is controlled to open the cigarette inlet hole, the cigarette machine assembly is controlled to operate, and the water consumption unit is controlled to stop operating;

when the air conditioning mode of the cigarette machine structure for independent operation is detected, the first switch is controlled to open the discharge port, the second switch is controlled to close the smoke inlet, the cigarette machine assembly is controlled to stop operation, and the water consumption unit is controlled to operate;

when the fact that the cigarette machine structure operates in the smoking mode and the air conditioning mode simultaneously is detected, the first switch is controlled to open the discharge port, the second switch is controlled to open the cigarette inlet, the cigarette machine assembly is controlled to operate, and the water consumption unit is controlled to operate.

When the control method is used, when the range hood structure is detected to be in the independent operation smoking and exhausting mode, the range hood assembly is controlled to operate, the water consumption unit is controlled to stop operating, the second switch is controlled to open the smoke inlet, and the first switch is controlled to close the exhaust port, so that the oil smoke can only be exhausted along the smoke exhaust channel and cannot enter the exhaust channel. When the independent operation air-conditioning mode of the cigarette machine structure is detected, the cigarette machine assembly is controlled to stop operating and the water consumption unit is controlled to operate, the first switch is controlled to open the discharge port, the second switch is controlled to close the smoke inlet, and at the moment, water vapor enters the smoke exhaust channel, so that the cigarette machine assembly is not polluted; when detecting cigarette machine structure simultaneous operation smoking mode and air conditioner mode, control cigarette machine subassembly operation and control consume the water unit operation, the discharge port is opened to control first switch, the cigarette hole is opened to control second switch, even discharge port and cigarette hole open simultaneously this moment, but owing to under the effect of consuming the water unit, exhaust passage possesses the driving pressure that orders about the air current and remove along exhaust passage's direction of delivery, under cigarette machine subassembly's effect, the oil smoke is ordered about along the exhaust passage transport, and then also can reduce the oil smoke and flow backward and pollute the risk of air conditioner subassembly.

The technical solution is further explained below:

in one embodiment, the water consumption unit comprises a water receiving part and a fan assembly, the water receiving part divides the inner part of the shell into a first space and a second space, the air conditioning assembly is arranged in the first space, the water receiving part is used for receiving condensed water dropping along the air conditioning assembly, and the water receiving part is provided with a drain hole; the smoke machine assembly and the fan assembly are arranged in the second space, the fan assembly is in communication connection with the controller, an air outlet of the fan assembly is the exhaust port and is communicated with an air inlet of the exhaust channel, the air inlet of the fan assembly is communicated with the drain hole, and the fan assembly is used for scattering condensed water conveyed into the fan assembly into water vapor and conveying the water vapor to the exhaust channel through an air outlet of the fan assembly;

in the step of controlling the operation of the water-consuming unit comprises:

controlling the fan assembly to operate;

in the step of controlling the water-consuming unit to stop operating includes:

and controlling the fan assembly to stop running.

In one embodiment, the structure of the cigarette machine further comprises a partition board, the partition board is arranged in the second space and divides the second space into a cigarette cavity and a condensed water processing cavity, the fan assembly is arranged in the condensed water processing cavity, the drain hole is communicated with the condensed water processing cavity, and the cigarette machine assembly is arranged in the cigarette cavity;

upon detection of the smoking machine arrangement operating in a smoking mode alone, further comprising the steps of:

controlling the air conditioning assembly to stop running;

when detecting that the cigarette machine structure operates the air-conditioning mode independently, the method also comprises the following steps:

controlling the operation of the air conditioning assembly;

when the cigarette machine structure is detected to run in the suction mode and the air conditioning mode simultaneously, the method further comprises the following steps:

and controlling the operation of the air conditioning component.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention.

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive labor.

Furthermore, the drawings are not to scale of 1:1, and the relative dimensions of the various elements in the drawings are drawn only by way of example and not necessarily to true scale.

Figure 1 is an internal schematic view of a cigarette machine structure;

FIG. 2 is a schematic view taken along line A in FIG. 1;

FIG. 3 is a schematic view of the assembly between the fan assembly and the exhaust channel;

FIG. 4 is a view taken along line B in FIG. 3;

fig. 5 is a flowchart illustrating the control method.

Description of reference numerals:

10. a cigarette machine structure; 100. a housing; 110. a first space; 112. a condensation space; 114. an evaporation space; 120. a second space; 122. a smoke chamber; 124. a condensed water treatment cavity; 130. an exhaust passage; 140. a smoke evacuation channel; 142. an air inlet of the smoke exhaust channel; 144. an air outlet of the smoke evacuation channel; 146. a convergence port; 150. a smoke inlet hole; 200. an air conditioning assembly; 210. a condenser; 220. an evaporator; 230. a condensing fan; 240. an evaporation fan; 300. a water-consuming unit; 310. a water receiving member; 312. a water receiving tank; 3122. a drain hole; 320. a fan assembly; 322. a first drive motor; 324. a first fan blade; 326. a volute; 400. a range hood assembly; 410. a second drive motor; 420. a second fan blade; 510. a first switch; 520. a second switch; 600. a partition plate; 700. a guide member; 710. a water guiding space.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "central," "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 the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Figure 1 is a schematic internal view of a cigarette maker construction 10; fig. 2 is a schematic view of direction a in fig. 1. Referring to fig. 1 and 2, a cigarette maker construction 10 includes a housing 100, an air conditioning assembly 200, a water-consuming unit 300, a cigarette maker assembly 400, and a control assembly (not shown).

Referring to fig. 1 and 2, the air conditioning assembly 200 and the water consumption unit 300 are disposed in the casing 100, the air conditioning assembly 200 generates condensed water during operation, and the water consumption unit 300 is used for collecting the condensed water dropping along the air conditioning assembly 200 and scattering the collected condensed water into vapor. An exhaust channel 130 and a smoke exhaust channel 140 communicated with the outside are formed in the casing 100, an air outlet of the exhaust channel 130 is communicated with the smoke exhaust channel 140, a discharge port of the water consumption unit 300 is communicated with the exhaust channel 130, and the water consumption unit 300 conveys the scattered water vapor to the exhaust channel 130 along the discharge port and conveys the water vapor to the smoke exhaust channel 140 through the exhaust channel 130.

The cigarette machine assembly 400 is arranged in the shell 100, the shell 100 is provided with a smoke inlet 150 communicated with the interior of the shell 100, an air outlet of the cigarette machine assembly 400 is communicated with an air inlet 142 of the smoke exhaust channel, and external oil smoke enters the interior of the shell 100 along the smoke inlet 150 and is conveyed to the outside through the smoke exhaust channel 140 under the action of the cigarette machine assembly 400.

Both the exhaust passage 130 and the smoke evacuation passage 140 may be ducted passages formed inside the casing 100, and the exhaust port and the exhaust passage 130 may be in direct butt communication or in communication through a duct. The air outlet of the cigarette maker assembly 400 and the air inlet 142 of the smoke evacuation passageway may also be directly in butt communication or in communication via a conduit.

Referring to fig. 1 and 2, the control assembly includes a first switch 510, a second switch 520, and a controller (not shown), the first switch 510 is used to open or close the discharge outlet, the second switch 520 is used to open or close the smoke inlet 150, the water-consuming unit 300, the cigarette machine assembly 400, the first switch 510, and the second switch 520 are all in communication with the controller, and the controller is configured to control the first switch 510 to open or close the discharge outlet, control the second switch 520 to open or close the smoke inlet 150, control the water-consuming unit 300 to operate or stop operating, and control the cigarette machine assembly 400 to operate or stop operating, depending on the mode of operation of the cigarette machine structure 10.

The operating modes of the cigarette maker construction 10 may include an air conditioning mode for individual operation, a suction and discharge mode for individual operation, and a simultaneous operation of the air conditioning mode and the suction and discharge mode, and the suction and discharge mode is a mode for extracting oil smoke from the interior of a kitchen.

The first switch 510 and the second switch 520 may be of a valve type or a cover type. For example, the first switch 510 may be a solenoid valve, the second switch 520 may be a switch plate, and the second switch 520 may be rotatably or movably connected to the housing 100.

The controller can be a single chip microcomputer or a micro control unit, and the water consumption unit 300, the cigarette machine assembly 400, the first switch 510 and the second switch 520 can be electrically connected with the controller or in communication connection in a wireless transmission mode.

When the cigarette maker structure 10 is in use, the air conditioning assembly 200 generates condensate, and the water consuming unit 300 collects the condensate dripping along the air conditioning assembly 200 and breaks up the collected condensate into water vapor which is then conveyed along the exhaust port to the exhaust channel 130 for discharge along the smoke exhaust channel 140. In order to reduce the risk of the cooking fumes flowing backward along the exhaust channel 130 to pollute the air conditioning assembly 200, when the cigarette maker structure 10 is in the single-operation smoking and exhausting mode, the cigarette maker assembly 400 is controlled to operate and the water consumption unit 300 is controlled to stop operating, the second switch 520 is controlled to open the smoke inlet 150, and the first switch 510 is controlled to close the exhaust port, so that the cooking fumes can only be exhausted along the smoke exhaust channel 140 and can not enter the exhaust channel 130.

When the cigarette machine structure 10 operates in the air-conditioning mode alone, the cigarette machine assembly 400 is controlled to stop operating and the water consumption unit 300 is controlled to operate, the first switch 510 is controlled to open the exhaust port, the second switch 520 is controlled to close the smoke inlet 150, and at the moment, water vapor enters the smoke exhaust channel 140, so that the cigarette machine assembly 400 cannot be polluted.

When the cigarette machine structure 10 operates in the smoke exhaust mode and the air conditioning mode simultaneously, the cigarette machine assembly 400 is controlled to operate and the water consumption unit 300 is controlled to operate, the first switch 510 is controlled to open the exhaust port, the second switch 520 is controlled to open the smoke inlet 150, at this time, even if the exhaust port and the smoke inlet 150 are simultaneously opened, because the exhaust passage 130 has the driving pressure for driving the air flow to move along the conveying direction of the exhaust passage 130 under the action of the water consumption unit 300, under the action of the cigarette machine assembly 400, the oil smoke is driven to be conveyed along the smoke exhaust passage 140, and the risk that the oil smoke reversely flows to pollute the air conditioning assembly 200 is reduced.

Referring to fig. 1, the water consumption unit 300 includes a water receiving member 310 and a fan assembly 320, the water receiving member 310 divides the interior of the housing 100 into a first space 110 and a second space 120, the air conditioning assembly 200 is disposed in the first space 110, and the range hood assembly 400 and the fan assembly 320 are disposed in the second space 120. In this manner, the air conditioning assembly 200 and the range hood assembly 400 do not interfere with one another in operation.

The water receiving member 310 is used for receiving condensed water dropping along the air conditioning assembly 200, the water receiving member 310 is provided with a drain hole 3122, an air outlet of the fan assembly 320 is a discharge port and is communicated with an air inlet of the exhaust passage 130, the air inlet of the fan assembly 320 is communicated with the drain hole 3122, and the fan assembly 320 is used for scattering the condensed water conveyed into the fan assembly 320 into water vapor and conveying the water vapor to the exhaust passage 130 through the air outlet of the fan assembly 320.

Referring to fig. 1, in the view of the figure, in the height direction H of the housing 100, the first space 110 and the second space 120 are arranged along the height direction of the housing 100, and the first space 110 is located at the top of the second space 120. In this way, the condensed water on the water receiving member 310 may be drained to the air inlet of the fan assembly 320 along the water drainage hole 3122 under the action of gravity.

The fan assembly 320 is communicatively coupled to the controller so that the controller may control the operation or deactivation of the fan assembly 320 depending on the mode of operation of the cigarette machine structure 10.

Referring to fig. 1 and 2, the water receiving member 310 is provided with a water receiving groove 312, and the water receiving groove 312 is used for receiving condensed water dropping along the air conditioning assembly 200. The drain hole 3122 penetrates the side wall of the water receiving tank 312.

Referring to fig. 1, the air conditioning assembly 200 includes a condenser 210 and an evaporator 220 arranged along a height direction H of the housing 100, wherein the condenser 210 is disposed closer to the water receiving member 310 than the evaporator 220, so that condensed water along the evaporator 220 drops onto the condenser 210 and drops onto the water receiving member 310 through the condenser 210.

When the air conditioning assembly 200 is in the cooling condition, the surface of the evaporator 220 generates condensed water due to a low temperature, and the condensed water on the evaporator 220 drops onto the condenser 210 under the action of gravity to cool the condenser 210 and drop onto the water receiving member 310.

Referring to fig. 1, in the view of the figure, in the height direction H of the casing 100, the condenser 210 is located right below the evaporator 220, and the water receiving member 310 is located right below the condenser 210.

Referring to fig. 1, the air conditioning assembly 200 further includes a condensing fan 230, and the condensing fan 230 is used for driving the airflow in the first space 110 to pass through the condenser 210 and then to be conveyed to the air inlet of the fan assembly 320 along the water outlet 3122. When the air conditioning assembly 200 is in a cooling condition, the surface temperature of the condenser 210 is high, and the condensing fan 230 is operated, the airflow is blown to the condenser 210, the condenser 210 is cooled, the hot airflow after heat exchange with the condenser 210 is conveyed to the fan assembly 320 along the drain hole 3122, and is discharged along the exhaust passage 130 under the action of the fan assembly 320.

Further, since the temperature of the hot air flow after heat exchange with the condenser 210 is high, when the air flow is conveyed to the inside of the fan assembly 320, the condensate water can be accelerated to break into a gaseous state, and the efficiency of condensate water consumption is improved.

Alternatively, the condensing fan 230 may be a cross-flow fan.

Referring to fig. 1, in some embodiments, the cigarette maker structure 10 further includes a partition 600, the partition 600 is disposed in the second space 120 to divide the second space 120 into the cigarette compartment 122 and the condensation water treatment compartment 124, the blower assembly 320 is disposed in the condensation water treatment compartment 124, the drain hole 3122 is in communication with the condensation water treatment compartment 124, and the cigarette maker assembly 400 is disposed in the cigarette compartment 122.

The condensed water processing cavity 124 and the smoke cavity 122 are independent from each other, at this time, the fan assembly 320 arranged in the condensed water processing cavity 124 and the cigarette machine assembly 400 arranged in the smoke cavity 122 do not interfere with each other when in operation, and the cigarette machine assembly 400 discharges smoke in the smoke cavity 122 to the smoke exhaust channel 140 and then conveys the smoke to the outside through the smoke exhaust channel 140. The fan assembly 320 breaks up the condensed water into steam, and then delivers the steam to the exhaust channel 130 and converges in the smoke evacuation channel 140, and the steam is evacuated from the smoke evacuation channel 140.

The water receiving member 310 is provided with a smoke exhaust hole (not shown) and an air exhaust hole (not shown), the smoke exhaust channel 140 is communicated with the air outlet of the cigarette maker assembly 400 through the smoke exhaust hole, and the air exhaust channel 130 is communicated with the air outlet of the fan assembly 320 through the air exhaust hole.

Referring to fig. 1, a blocking plate (not shown) is disposed between the evaporation fan 240 and the condensation fan 230, the blocking plate, the condenser 210, the water receiving member 310 and the inner wall of the casing 100 located in the first space 110 are enclosed to form a condensation space 112, the condensation fan 230 is disposed in the condensation space 112, the blocking plate, the evaporator 220 and the inner wall of the casing 100 located in the first space 110 are enclosed to form an evaporation space 114, and the evaporation fan 240 is disposed in the evaporation space 114. Thus, the evaporation fan 240 and the condensation fan 230 do not interfere with each other during operation due to the separation of the blocking plate.

Alternatively, the evaporation fan 240 may be a crossflow fan.

Referring to fig. 1, the cigarette maker construction 10 further includes a guide 700, and the drain hole 3122 is communicated with the air inlet of the fan assembly 320 through the guide 700, so as to convey the condensed water drained along the drain hole 3122 to the air inlet of the fan assembly 320 under the guidance of the guide 700.

The guide member 700 may be a guide duct or a guide plate, and may serve to transfer the condensed water discharged along the drain hole 3122 to an air inlet of the fan assembly 320.

For example, referring to fig. 1, the guide 700 is disposed in the condensed water processing chamber 124, one end of the guide 700 is connected to the water receiving member 310, the other end of the guide 700 is connected to the fan assembly 320, the guide 700, the water receiving member 310 and the fan assembly 320 are enclosed to form a water guide space 710, and the water discharge hole 3122 is communicated with the air inlet of the fan assembly 320 through the water guide space 710.

Fig. 3 is a schematic view of the assembly between the fan assembly 320 and the exhaust passage 130. Referring to fig. 1 and 3, the guide member 700 is shaped like a plate, and the guide member 700 is bent to convey the condensed water to the air inlet of the fan assembly 320.

Referring to fig. 1, the fan assembly 320 includes a volute 326 and a first fan blade 324 disposed in the volute 326, the volute 326 has a discharge port, a drain hole 3122 is communicated with an air inlet of the volute 326 through a guide 700, the guide 700 enters the volute 326 along the air inlet of the volute 326 to guide condensed water onto the first fan blade 324, and the volute 326, a portion of the guide 700 located outside the volute 326, and the water receiving member 310 are surrounded to form a water guiding space 710. When in use, the condensed water is guided by the condensed water guide 700 and directly conveyed to the first fan 324, and the condensed water is scattered into water vapor by the first fan 324 and discharged through the discharge port.

Referring to fig. 1 and 3, the fan assembly 320 includes a first blade 324 and a first driving motor 322, and the first driving motor 322 is connected to the first blade 324 for driving the first blade 324 to rotate. The cigarette machine assembly 400 comprises a second fan blade 420 and a second drive motor 410, the second drive motor 410 is connected with the second fan blade 420 for driving the second fan blade 420 to rotate, and the first drive motor 322 and the second drive motor 410 are both in communication connection with the controller.

Thus, the first fan blades 324 are driven by the first driving motor 322, the second fan blades 420 are driven by the second driving motor 410, and the first driving motor 322 and the second driving motor 410 operate independently, so that the range hood structure 10 can have three functions of operating the suction and exhaust mode independently, operating the air conditioning mode independently, and operating the suction and exhaust mode and the air conditioning mode simultaneously.

Referring to fig. 1, the first driving motor 322 and the second driving motor 410 may be mounted on the partition 600.

Referring to fig. 1, an included angle between the conveying direction F1 of the smoke evacuation channel 140 and the conveying direction F2 of the exhaust channel 130 is a, where a is an acute angle.

Referring to fig. 1 and 4, the conveying direction F1 of the smoke evacuation channel 140 is the same as the extending direction of the smoke evacuation channel 140, and the conveying direction F2 of the exhaust channel 130 is the same as the extending direction of the exhaust channel 130. When the included angle a between F1 and F2 is an acute angle, it is difficult for the soot to flow backward from the smoke evacuation path 140 to the air conditioning module 200, especially to the condenser 210 and the evaporator 220.

In some embodiments, 15 ≦ a ≦ 75. When a is within this range, it is possible to reduce the backflow of soot along the exhaust passage 130. Specifically, a may be 15 °, 20 °, 30 °, 55 °, 60 °, 70 °, or 75 °.

Referring to fig. 1 and 2, the smoke evacuation channel 140 is a pipe, and the exhaust channel 130 is inclined with respect to the smoke evacuation channel 140.

Referring to fig. 1 and 2, a converging port 146 is formed in a portion of the smoke exhaust channel 140 between the air inlet 142 of the smoke exhaust channel and the air outlet 144 of the smoke exhaust channel, and the air outlet of the exhaust channel 130 is communicated with the converging port 146.

In addition, the present application is directed to an air-conditioned range hood including the range hood construction 10 of any of the preceding embodiments.

When the air conditioning smoke machine is used, the risk that the air conditioning assembly 200 is polluted by backward flowing of oil smoke can be reduced.

Referring to fig. 5, an embodiment further relates to a control method for a cigarette machine configuration 10 applied to any of the foregoing embodiments, comprising the steps of:

s100: the current mode of operation of the cigarette machine arrangement 10 is detected. Specifically, the current operation mode of the cigarette machine structure 10 can be obtained by setting a corresponding obtaining module, the current operation mode is controlled by the setting of a user, and the user can set the operation mode on the control platform of the air-conditioning cigarette machine or set the operation mode through remote control. The operating modes of the cigarette machine structure 10 may include an individual operation air conditioning mode, an individual operation smoking mode, and a simultaneous operation air conditioning mode and smoking mode, the smoking mode being a mode of extracting oil smoke from a kitchen.

S200: when the smoking mode of operation of the cigarette maker construction 10 alone is detected, the first switch 510 is controlled to close the discharge outlet, the second switch 520 is controlled to open the smoke inlet 150, the operation of the cigarette maker assembly 400 is controlled, and the water-consuming unit 300 is controlled to stop operating. At this time, under the action of the cigarette maker assembly 400, the soot can enter the housing 100 along the soot inlet 150 and be discharged along the soot discharge passage 140, and the soot cannot enter the soot discharge passage 130 because the first switch 510 closes the discharge port.

Based on the cigarette maker construction 10 of the previous embodiment, in some embodiments, the step of controlling the water-consuming unit 300 to cease operation comprises: the fan assembly 320 is controlled to stop operating, and at this time, the condensed water cannot be dispersed into water vapor and delivered into the exhaust channel 130.

Based on the foregoing embodiments of the cigarette maker construction 10, in some embodiments, upon detecting that the cigarette maker construction 10 is operating in the smoking mode alone, further comprising the steps of: the air conditioning assembly 200 is controlled to stop operating, so that the air conditioning assembly 200 does not continue to produce the condensed water, and the fan assembly 320 also stops operating at the same time, that is, the condensed water is not consumed at this time.

S300: when the air conditioning mode of the cigarette machine structure 10 alone is detected, the first switch 510 is controlled to open the exhaust port, the second switch 520 is controlled to close the smoke inlet 150, the cigarette machine assembly 400 is controlled to stop running, and the water consumption unit 300 is controlled to run. Since the second switch 520 closes the smoke inlet 150, the smoke and the soot cannot enter the smoke evacuation path 140 and be delivered to the smoke evacuation path 130 when the fan assembly 320 is operated. When cigarette machine structure 10 alone operation air conditioning mode, fan subassembly 320 operation breaks up the comdenstion water into steam and discharges into exhaust passage 130 and enter smoke evacuation passageway 140, and steam can not produce the pollution to cigarette machine subassembly 400 when entering smoke evacuation passageway 140.

Based on the cigarette machine structure 10, when the cigarette machine structure 10 is detected to operate in the air conditioning mode alone, under the action of the condensing fan 230, the hot air flow after exchanging heat with the condenser 210 enters the fan assembly 320 and is discharged into the smoke exhaust channel 140 along with the water vapor.

Based on the cigarette maker construction 10 of the previous embodiments, in some embodiments, the step of controlling the operation of the water-consuming unit 300 comprises: the fan assembly 320 is controlled to operate, and at this time, the condensed water is broken into water vapor and is conveyed into the exhaust passage 130.

Based on the cigarette maker construction 10 of the previous embodiments, in some embodiments, upon detecting that the cigarette maker construction 10 is operating in the air conditioning mode alone, the method further comprises the steps of: the operation of the air conditioning assembly 200 is controlled such that the air conditioning assembly 200 continuously generates the condensed water, and the fan assembly 320 continuously breaks up the condensed water into water vapor and discharges the water vapor into the exhaust passage 130 under the action of the fan assembly 320.

S400: when detecting that the cigarette maker construction 10 operates in both the smoking mode and the air conditioning mode, the first switch 510 is controlled to open the discharge outlet, the second switch 520 is controlled to open the smoke inlet 150, the operation of the cigarette maker assembly 400 is controlled, and the operation of the water consuming unit 300 is controlled. At this time, even if the exhaust port and the smoke inlet 150 are opened at the same time, since the exhaust passage 130 has a driving pressure for driving the air flow to move along the conveying direction of the exhaust passage 130 under the action of the water consumption unit 300, the soot is driven to be conveyed along the smoke exhaust passage 140 under the action of the smoke machine assembly 400, and the risk of the soot being back-flowed to contaminate the air conditioning assembly 200 is reduced.

Based on the cigarette machine structure 10, when the cigarette machine structure 10 operates in the air conditioning mode and the suction and exhaust mode simultaneously, under the action of the condensing fan 230, the hot airflow after heat exchange with the condenser 210 enters the fan assembly 320 and is discharged into the smoke exhaust channel 140 along with the water vapor.

Based on the cigarette maker construction 10 of the previous embodiments, in some embodiments, upon detecting that the cigarette maker construction 10 is operating in both the air conditioning mode and the smoking mode, the method further comprises the steps of: the operation of the air conditioning assembly 200 is controlled such that the air conditioning assembly 200 continuously generates the condensed water, and the fan assembly 320 continuously breaks up the condensed water into water vapor and discharges the water vapor into the exhaust passage 130 under the action of the fan assembly 320.

When the control method is used, when the range hood structure 10 is detected to be in the single operation smoking and exhausting mode, the range hood assembly 400 is controlled to operate, the fan assembly 320 is controlled to stop operating, the air conditioning assembly 200 is controlled to stop operating, the second switch 520 is controlled to open the smoke inlet 150, and the first switch 510 is controlled to close the exhaust port, so that oil smoke can only be exhausted along the smoke exhaust channel 140 and cannot enter the exhaust channel 130, the air conditioning assembly 200 cannot continuously generate condensed water, and the fan assembly 320 does not need to operate.

When detecting that cigarette machine structure 10 operates the air conditioning mode alone, control cigarette machine subassembly 400 stop operation, control water consumption unit 300 operation and control air conditioning subassembly 200 operation, control first switch 510 opens the discharge port, control second switch 520 closes smoke inlet 150, air conditioning subassembly 200 continuously produces the comdenstion water this moment, fan subassembly 320 continuously breaks up the comdenstion water into steam, steam gets into smoke exhaust passage 140, can not cause the pollution to cigarette machine subassembly 400, the oil smoke also can not get into inside smoke cavity 122, during operation air conditioning mode alone, under the effect of condensing fan 230, the steam after the heat transfer with condenser 210 can get into in fan subassembly 320, discharge into in smoke exhaust passage 140 along with steam together.

When detecting that the cigarette machine structure 10 operates in the smoking mode and the air conditioning mode simultaneously, the cigarette machine assembly 400 is controlled to operate, the water consumption unit 300 is controlled to operate, and the air conditioning assembly 200 is controlled to operate, the first switch 510 is controlled to open the discharge port, the second switch 520 is controlled to open the smoke inlet 150, at this time, the air conditioning assembly 200 continuously generates condensed water, the fan assembly 320 continuously breaks up the condensed water into water vapor, the water vapor enters the smoke exhaust channel 140, the oil smoke enters the smoke cavity 122 along the smoke inlet 150 under the action of the cigarette machine assembly 400, and the oil smoke is conveyed to the smoke exhaust channel 140 and is discharged outside together with the water vapor. When the suction and exhaust mode and the air conditioning mode are operated simultaneously, the hot airflow after heat exchange with the condenser 210 enters the fan assembly 320 under the action of the condensing fan 230, and is discharged into the smoke exhaust channel 140 along with the water vapor. At this time, even if the exhaust port and the smoke inlet 150 are opened at the same time, since the exhaust passage 130 has a driving pressure for driving the air flow to move along the conveying direction of the exhaust passage 130 under the action of the water consumption unit 300, the soot is driven to be conveyed along the smoke exhaust passage 140 under the action of the smoke machine assembly 400, and the risk of the soot being back-flowed to contaminate the air conditioning assembly 200 is reduced.

It should be understood that, although the steps in the flowcharts related to the embodiments as described above are sequentially displayed as indicated by arrows, the steps are not necessarily performed sequentially as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the flowcharts related to the embodiments described above may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the execution order of the steps or stages is not necessarily sequential, but may be rotated or alternated with other steps or at least a part of the steps or stages in other steps.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the second feature or the first and second features may be indirectly contacting each other through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are for purposes of illustration only and do not denote a single embodiment.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only show several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A cigarette maker construction, comprising:

the smoke exhaust device comprises a shell, a smoke exhaust channel and a smoke exhaust channel, wherein the shell is provided with an exhaust channel and the smoke exhaust channel communicated with the outside;

an air conditioning assembly disposed within the housing;

the water consumption unit is arranged in the shell, a discharge port of the water consumption unit is communicated with the exhaust channel, and the water consumption unit is used for receiving condensed water dropping along the air conditioner component, scattering the received condensed water into water vapor and conveying the water vapor to the exhaust channel along the discharge port;

the smoke machine component is arranged in the shell, and an air outlet of the smoke machine component is communicated with an air inlet of the smoke exhaust channel; and

the control assembly comprises a first switch, a second switch and a controller, the first switch is used for opening or closing the discharge port, the second switch is used for opening or closing the smoke inlet, the water consumption unit, the cigarette machine assembly, the first switch and the second switch are all in communication connection with the controller, and the controller is arranged to control the first switch to open or close the discharge port, control the second switch to open or close the smoke inlet, control the water consumption unit to operate or stop operating and control the cigarette machine assembly to operate or stop operating according to an operation mode of the cigarette machine structure.

2. A cigarette machine structure as claimed in claim 1, wherein the water consuming unit comprises a water receiving member and a fan assembly, the water receiving member divides the inner part of the housing into a first space and a second space, the air conditioning assembly is disposed in the first space, the water receiving member is used for receiving condensed water dropping along the air conditioning assembly, and the water receiving member is provided with a drain hole;

3. A cigarette machine structure as claimed in claim 2 wherein the air conditioning pack includes a condenser and an evaporator arranged along the height of the housing, the condenser being disposed closer to the water receiving member than the evaporator so that condensed water along the evaporator drips onto the condenser and through the condenser onto the water receiving member;

4. The cigarette machine structure as claimed in claim 2, further comprising a partition plate disposed in the second space to divide the second space into a smoke chamber and a condensed water treatment chamber, wherein the fan assembly is disposed in the condensed water treatment chamber, the drain hole is communicated with the condensed water treatment chamber, and the cigarette machine assembly is disposed in the smoke chamber.

5. The cigarette maker construction of claim 4 further comprising a guide through which the drain hole communicates with the air inlet of the fan assembly to convey condensate draining along the drain hole to the air inlet of the fan assembly under the guidance of the guide.

6. The cigarette machine structure as claimed in claim 5, wherein the guiding member is disposed in the condensed water processing cavity, one end of the guiding member is connected to the water receiving member, the other end of the guiding member is connected to the fan assembly, the guiding member, the water receiving member and the fan assembly are enclosed to form a water guide space, and the drain hole is communicated with the air inlet of the fan assembly through the water guide space.

7. The structure of claim 6, wherein the fan assembly comprises a volute and a first fan blade disposed in the volute, the volute is provided with the outlet, the drain hole is communicated with an air inlet of the volute through the guide member, the guide member enters the volute along the air inlet of the volute to guide condensed water to the first fan blade, and the volute, a portion of the guide member located outside the volute and the water receiving member are surrounded to form the water guiding space.

8. The cigarette machine structure of claim 7 wherein the fan assembly further comprises a first drive motor connected to the first fan blade for driving the first fan blade to rotate;

9. A machine structure as claimed in any one of claims 1 to 8, wherein the angle between the direction of transport of the smoke evacuation channel and the direction of transport of the smoke evacuation channel is a, where a is an acute angle.

10. A machine structure as claimed in claim 9, characterised in that a is 15 ° ≦ 75 °.

11. A structure as claimed in any one of claims 1 to 8, wherein a convergent opening is provided in the smoke evacuation channel between the air inlet of the smoke evacuation channel and the air outlet of the smoke evacuation channel, the air outlet of the smoke evacuation channel communicating with the convergent opening.

12. An air-conditioned cigarette machine comprising the cigarette machine structure of any one of claims 1 to 11.

13. A control method applied to the structure of a cigarette machine as claimed in any one of claims 1 to 11, characterized by comprising the steps of:

detecting a current mode of operation of the cigarette machine arrangement;

14. The control method according to claim 13, wherein the water consumption unit includes a water receiving member and a fan assembly, the water receiving member divides the inside of the housing into a first space and a second space, the air conditioning assembly is disposed in the first space, the water receiving member is configured to receive condensed water dropping along the air conditioning assembly, and the water receiving member is provided with a drain hole; the smoke machine assembly and the fan assembly are arranged in the second space, the fan assembly is in communication connection with the controller, an air outlet of the fan assembly is the exhaust port and is communicated with an air inlet of the exhaust channel, the air inlet of the fan assembly is communicated with the drain hole, and the fan assembly is used for scattering condensed water conveyed into the fan assembly into water vapor and conveying the water vapor to the exhaust channel through an air outlet of the fan assembly;

in the step of controlling the operation of the water-consuming unit, comprising:

controlling the fan assembly to operate;

in the step of controlling the water-consuming unit to stop operating includes:

and controlling the fan assembly to stop running.

15. The control method according to claim 14, wherein the range hood structure further comprises a partition plate disposed in the second space to divide the second space into a smoke chamber and a condensed water treatment chamber, the fan assembly is disposed in the condensed water treatment chamber, the drain hole is communicated with the condensed water treatment chamber, and the range hood assembly is disposed in the smoke chamber;

controlling the air conditioning assembly to stop running;

when the cigarette machine structure is detected to be in the air-conditioning mode independently, the method further comprises the following steps:

controlling the air conditioning assembly to operate;

when detecting that the cigarette machine structure simultaneously operates in a smoking mode and an air-conditioning mode, the method also comprises the following steps:

and controlling the air conditioning assembly to operate.