CN111380121B - Air treatment system - Google Patents

Abstract

A fragrance component and an air treatment system comprising the same are flexible in use and convenient to maintain. The fragrance component comprises a shell, wherein an air inlet and an air outlet are formed in the shell, an air flow path from the air inlet to the air outlet is formed in the shell, an electric module and a fragrance module are arranged in the shell in a mode that a main body avoids the air flow path, the fragrance module has a fragrance distribution function, the electric module is used for controlling the fragrance module and is arranged above the fragrance module, and the shell is provided with side access openings corresponding to the electric module and the fragrance module.

Description

Air treatment system

Technical Field

The present invention relates to a fragrance module and an air treatment system comprising the fragrance module.

Background

Along with the improvement of living standard, the requirements of people on own office living environment are also higher.

For example, not only are the demands for cooling and heating air conditioners for adjusting the ambient temperature increasing, but also the demands for humidifiers and dryers for adjusting the ambient humidity are increasing, and in recent years, the following demands for adjusting the ambient atmosphere have arisen: releasing fragrance into the air-conditioned space as desired.

At present, a fragrance releasing device used in an air conditioner is inconvenient to maintain, replace and the like, has a single use mode, and cannot truly meet the adjustment requirement of the environment atmosphere.

Therefore, how to meet the above requirements for adjusting the environmental atmosphere is a urgent need.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a fragrance module and an air treatment system including the same, which are flexible in use and convenient in maintenance work.

In order to achieve the above object, the present invention provides a fragrance module, which includes a housing, an air inlet and an air outlet are provided on the housing, an air flow path from the air inlet to the air outlet is formed in the housing, an electrical module and a fragrance module are provided in the housing so that a main body avoids the air flow path, the fragrance module has a fragrance distribution function, and the electrical module controls the fragrance module.

Here, the phrase "the electric module and the fragrance module are provided so that the main body is away from the airflow path" is meant to include a case where a part of the electric module (for example, a frame edge of the electric module or the like) and/or a part of the fragrance module (for example, a part of a holder of the fragrance module or the like) is located on the airflow path for the purpose of downsizing.

The terms indicating directions such as "up", "down", "sideways", and the like used in the present application each indicate an orientation in a normal mounting state of the fragrance module, and the mounting state of the fragrance module may be appropriately changed as needed in actual use.

According to the fragrance component, the environment atmosphere can be independently regulated, and the fragrance component can be matched with air treatment devices such as a humidifier, a purifier, an air conditioner indoor unit and the like (for example, the air supply port of the air treatment device is communicated with the air inlet of the fragrance component) to regulate the environment atmosphere, so that the fragrance component is flexible to use.

In addition, according to the fragrance module of the present invention, since the fragrance module and the electric module are provided in the housing so that the main body thereof is away from the air flow path, that is, the main body of the fragrance module and the main body of the electric module are located outside the air flow path, when the air inlet is directly connected to the air outlet of the air treatment device such as the humidifier, the purifier, and the indoor unit of the air conditioner or connected to each other via the duct, resistance to the air flow blown out from the air outlet of the air treatment device can be reduced, thereby facilitating rapid diffusion of the fragrance into the predetermined space, reducing the influence of the air flow on the electric components, preventing the air flow from flowing for a long time to accelerate the aging of the electric components, or preventing the safety problem caused by dew condensation generated when the air flow flows through the electric components.

In the fragrance module of the present invention, it is preferable that the housing has a side access opening corresponding to the electrical module and/or the fragrance module.

According to the fragrance component, when the electric module is maintained, the fragrance module does not need to be detached first, and similarly, when the fragrance module is maintained, the electric module does not need to be detached first, so that the electric module and the fragrance module can be maintained from the side conveniently; in addition, according to the fragrance component provided by the invention, the electric module or the fragrance module can be overhauled, replaced and maintained without disassembling the shell, and the operation is convenient.

In the fragrance module of the present invention, it is preferable that the fragrance module includes a storage unit that stores fragrance and a fragrance distribution unit that is provided below the storage unit and receives fragrance supplied from the storage unit.

According to the fragrance module of the present invention, the fragrance stored in the storage unit can be supplied to the fragrance distribution unit by gravity, and therefore, the overall structure can be simplified as compared with the case where a driving member dedicated to conveying the fragrance stored in the storage unit toward the fragrance distribution unit is provided.

In the fragrance module of the present invention, it is preferable that the storage unit has a perfume bottle module, and the storage unit is slidably switched between a position where the perfume bottle module is housed in the housing and a position where the perfume bottle module protrudes outside the housing.

According to the fragrance component, the first bracket slides relative to the second bracket to protrude from the lateral access hole, so that the fragrance component has a simple structure and can be conveniently added, replaced and the like.

In the fragrance module according to the present invention, a handle is preferably provided at a portion of the first bracket adjacent to the side access opening.

According to the fragrance module of the present invention, the first bracket can be conveniently slid with respect to the second bracket to protrude from the side access opening by grasping the handle, so that the addition, replacement, etc. of the fragrance can be conveniently performed.

In the fragrance module according to the present invention, it is preferable that the fragrance module includes a base fixed to the housing, a holder portion provided with a fragrance emitting film for receiving a fragrance and slidably provided on the base, and a first driving portion for driving the holder portion to move between a first position in which the fragrance emitting film is located in an airflow path from the air inlet to the air outlet, and a second position in which the fragrance emitting film exits from the airflow path.

According to the fragrance module of the present invention, even if the storage unit is disposed outside the air flow path, the fragrance stored in the storage unit can be conveniently supplied to the fragrance emitting film, and by moving the fragrance emitting film to the first position, the fragrance can be efficiently released by the fragrance emitting film, on the other hand, by moving the fragrance emitting film to the second position, the fragrance emission of the fragrance emitting film can be suppressed, and when fragrance emission is required, only the fragrance emitting film portion is moved to the first position, the obstruction to the air flow can be reduced, and at the same time, when fragrance emission is not required, the fragrance on the fragrance emitting film can be prevented from flowing out with the air flow.

In the fragrance module according to the present invention, it is preferable that a fragrance film cover is provided on the holder portion, and the fragrance module has a second driving portion that drives the fragrance film cover so that the fragrance film cover is switched between a position where the fragrance film is shielded and a position where the fragrance film is exposed.

According to the fragrance component, the fragrance film cover is driven by the second driving part, so that the fragrance film can be conveniently controlled by switching the fragrance film in the case of a plurality of fragrance films.

Further, in the fragrance module of the present invention, preferably, the fragrance module includes a storage unit including a first housing chamber storing a first fragrance and a second housing chamber storing a second fragrance, the fragrance film includes a first fragrance film receiving the first fragrance and a second fragrance film receiving the second fragrance, the second driving section drives the fragrance film housing to switch the fragrance film housing between a first position where the fragrance film housing shields the first fragrance film and exposes the second fragrance film, and a second position where the fragrance film housing exposes the first fragrance film and shields the second fragrance film.

According to the fragrance component, different fragrances can be released by storing different fragrances in the first accommodating cavity and the second accommodating cavity, and the fragrance film cover is driven by the second driving part so as to be switched between the first position and the second position, so that the fragrance released by the first fragrance film and the fragrance released by the second fragrance film can be prevented from being tainted, the fragrance film switching structure is simple, and the fragrance film switching is convenient to switch.

In the fragrance module according to the present invention, it is preferable that the main body of the fragrance module is disposed laterally and/or downward of the air inlet and the air outlet, and the main body of the fragrance module at least partially overlaps the airflow path when viewed in the vertical direction, and/or the main body of the electric module is disposed directly above the air inlet and the air outlet, and the main body of the electric module at least partially overlaps the airflow path when viewed in the vertical direction.

According to the fragrance component, the space around the air inlet and the air outlet in the shell is fully utilized, so that the overall miniaturization is realized, and the fragrance module and the electric module can be effectively prevented from obstructing an airflow path.

In the fragrance module of the present invention, it is preferable that the electrical module is disposed above the fragrance module.

According to the fragrance component, mutual interference between the fragrance module and the electric module is reduced, reasonable distribution of the internal structure of the fragrance component is facilitated, and miniaturization of the fragrance component is facilitated.

In addition, in order to achieve the above object, the present invention provides an air treatment system comprising: an air treatment device having an air supply port; and the air inlet of the fragrance component is communicated with the air supply outlet.

In the air treatment system according to the present invention, it is preferable that the air treatment system further includes an air conditioning outdoor unit, and the air conditioning outdoor unit and the air treatment device are connected by a refrigerant pipe to form a refrigerant circuit.

In addition, in the air treatment system of the present invention, it is preferable that the air treatment system further includes an air supply terminal and/or an air conditioning indoor unit that communicate with an air outlet of the fragrance module.

According to the air treatment system disclosed by the invention, the fragrance component is matched with the air treatment device for use, so that the fragrance release effect of the fragrance component is improved, the functions of the air treatment system are expanded, and the requirement of a user on the adjustment of the environmental atmosphere can be met.

(effects of the invention)

According to the invention, the fragrance component can not only independently regulate the environmental atmosphere, but also be matched with air treatment devices such as a humidifier, a purifier, an air conditioner indoor unit and the like (for example, an air outlet of the air treatment device is communicated with an air inlet of the fragrance component) to regulate the environmental atmosphere, so that the fragrance component is flexible to use; in addition, the electric module and the fragrance module are arranged in the shell of the fragrance component in a mode that the main body avoids the air flow path, so that when the air inlet of the fragrance component is directly connected with the air outlet of the air treatment device such as the humidifier, the purifier and the indoor unit of the air conditioner or is connected with each other through the air pipe, the resistance caused by the air flow blown out from the air outlet of the air treatment device can be reduced, and the fragrance can be quickly diffused into the preset space; in addition, in the housing of the fragrance component, the electrical module is arranged above the fragrance module, and the side of the housing of the fragrance component is provided with the access opening corresponding to the electrical module and the fragrance module, so that the fragrance module does not need to be detached first when the electrical module is maintained, and the electrical module and the fragrance module can be maintained from the side conveniently when the fragrance module is maintained.

Drawings

Fig. 1 is a schematic view showing an air treatment system according to an embodiment of the present invention, in which an air conditioner outdoor unit is schematically drawn for convenience of explanation.

Fig. 2 is a perspective view schematically showing the overall structure of a fragrance module according to an embodiment of the present invention, and shows a state in which a maintenance cover is opened.

Fig. 3 is a perspective view schematically showing the overall structure of a fragrance module according to an embodiment of the present invention, and shows a state in which a part of an electrical module is extracted from a housing.

Fig. 4 is a perspective view schematically showing the overall structure of a fragrance module according to an embodiment of the present invention, and shows a state in which a part of the fragrance module is pulled out from the housing.

Fig. 5 is a perspective view schematically showing a part of the structure of a fragrance module according to an embodiment of the present invention, wherein a part of the housing is omitted.

Fig. 6 is a perspective view schematically showing a part of the structure of a fragrance module according to an embodiment of the present invention.

Fig. 7 is a perspective view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Fig. 8 is a perspective view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Fig. 9 is a partial perspective view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Fig. 10 is an exploded view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Fig. 11 is a plan view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Fig. 12 is a perspective view schematically showing a fragrance distribution unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Fig. 13 is a perspective view schematically showing a fragrance module included in a fragrance module according to an embodiment of the present invention.

(symbol description)

1. Air treatment system

100. Air treatment device

1111. New wind gap

1112. Air supply port

1113. Air return port

1114. Air outlet

200. Fragrance component

210. Shell body

210k side access opening

211. End plate

211a first end plate

211b second end plate

2111. Air inlet

2112. Air outlet

212. Connecting plate

212a first connection plate

212b second connecting plate

212b1 storage unit access port

212b2 cover plate

212c third connecting plate

212d fourth connecting plate

213a first cylindrical portion

213b second cylindrical portion

214a first mounting member

214b second mounting member

220. Electrical module

230. Fragrance module

231. Storage unit

2311. First support

23111. A first bracket main body

23112. First support hem

2312. Second support

23121. A second bracket main body

23122. Support part

2313. Perfume bottle assembly

23131. Spice bottle support seat

23132. Electromagnetic valve

23133. Electromagnetic valve bracket

23119. Handle grip

232. Fragrance distribution unit

2321. Base seat

2322. Bracket part

23221. Bracket body

23222. Support part flanging

2323. A first driving part

23231. First motor

23232. First gear

23233. First rack

2325. Fragrance film cover

2326. A second driving part

23261. Second motor

23262. Second gear

23263. Second rack

300. Air conditioner outdoor unit

AZ mounting portion

SS1 first storage cavity

SS2 second storage cavity

RS1 first accommodation chamber

RS2 second accommodation chamber

GG1 first screw fixing part

GG2 second screw fixing part

GX1 first wire passing port

GX2 second wire passing port

First part of TZ1 base

Second part of TZ2 base

FX fragrance emitting film

PP refrigerant piping

TH ceiling

SN indoor

ZL corridor

Detailed Description

In the following, an embodiment of the present invention will be described with reference to fig. 1, in which fig. 1 is a schematic view showing an air treatment system according to the embodiment of the present invention, in which an air conditioning outdoor unit is schematically drawn for convenience of description, fig. 2 is a perspective view showing an overall structure of a fragrance module according to the embodiment of the present invention schematically, and showing a state in which a maintenance cover is opened, fig. 3 is a perspective view showing an overall structure of a fragrance module according to the embodiment of the present invention schematically, and showing a state in which a part of an electric module is extracted from a housing, fig. 4 is a perspective view showing an overall structure of a fragrance module according to the embodiment of the present invention schematically, and showing a state in which a part of a housing is omitted, fig. 6 is a perspective view schematically showing a partial structure of a fragrance module according to an embodiment of the present invention, fig. 7 is a perspective view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention, fig. 8 is a perspective view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention, fig. 9 is a partial perspective view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention, fig. 10 is an exploded view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention, fig. 11 is a plan view schematically showing a partial structure of a storage unit of a fragrance module included in a fragrance module according to an embodiment of the present invention, fig. 12 is a perspective view schematically showing a fragrance distribution unit of a fragrance module included in a fragrance module according to an embodiment of the present invention.

Here, for convenience of explanation, three directions orthogonal to each other are defined as an X direction, a Y direction, and a Z direction, one side of the X direction is defined as X1, the other side of the X direction is defined as X2, one side of the Y direction is defined as Y1, the other side of the Y direction is defined as Y2, one side of the Z direction is defined as Z1, and the other side of the Z direction is defined as Z2.

(integral Structure of air treatment System)

As shown in fig. 1, the air treatment system 1 of the present embodiment is provided in a space above a ceiling TH, for example, to adjust the temperature, humidity, odor, and the like of air in a space such as an indoor SN, a corridor ZL, and the like below the ceiling TH.

Here, the air treatment system 1 includes: an air treatment device 100, wherein the air treatment device 100 has an air supply outlet 1112; and a fragrance module 200, wherein an air inlet 2111 of the fragrance module 200 communicates with an air outlet 1112 of the air treatment device 100. The air processing system 1 further includes an air conditioning outdoor unit 300 connected to the air processing apparatus 100 via a refrigerant pipe PP to form a refrigerant circuit.

(Structure of air treatment device)

As shown in fig. 1, the air treatment device 100 has a fresh air inlet 1111, an air supply outlet 1112, an air return inlet 1113, and an air outlet 1114, wherein the fresh air inlet 1111 communicates with the air supply outlet 1112, and the air return inlet 1113 communicates with the air outlet 1114. The fresh air inlet 1111 and the air outlet 1114 are respectively connected to the corridor ZL via air pipes, and the air supply outlet 1112 and the air return inlet 1113 are respectively connected to the indoor SN via air pipes; the fragrance module 200 has an air inlet 2111 and an air outlet 2112, the air inlet 2111 communicates with the air outlet 1112 of the air treatment device 100 via an air duct, and the air outlet 2112 communicates with the indoor SN via an air duct. The air treatment device 100 further includes a heat exchanger (not shown), and the air treatment device 100 exchanges heat between the refrigerant and the air flowing through the inside of the air treatment device 100 by the heat exchanger to send out the air having a desired temperature and humidity. The air treatment device 100 may further include a fan that sucks air from the fresh air inlet 1111 and sends the air out from the air supply outlet 1112, and a fan that sucks air from the return air inlet 1113 and discharges the air from the air outlet 1114.

(Structure of fragrance component)

As shown in fig. 2 and 3, the fragrance assembly 200 includes a housing 210, an air inlet 2111 and an air outlet 2112 are provided on the housing 210, and an air flow path from the air inlet 2111 to the air outlet 2112 is formed in the housing 210; in the case 210, an electric module 220 and a fragrance module 230 are provided so that the main body is outside the inlet 2111 and the outlet 2112, wherein the fragrance module 230 has a fragrance distribution function, and the electric module 220 controls the fragrance module 230.

Here, as shown in fig. 2, the case 210 has a substantially rectangular parallelepiped shape, and includes two end plates 211 and a connecting plate 212 connecting the two end plates 211, and the two end plates 211 are opposed to each other in the X direction perpendicular to the Z direction (up-down direction), and are provided with an air inlet 2111 and an air outlet 2112, respectively, so that a straight-through type air flow path from the air inlet 2111 to the air outlet 2112 is formed. Specifically, the housing 210 includes a first end plate 211a and a second end plate 211b as end plates 211, wherein the first end plate 211a is located on the X1 direction side and is perpendicular to the X direction, and the second end plate 211b is located on the X2 direction side and is opposed in parallel to the first end plate 211 a; a circular air inlet 2111 is provided in the center of the first end plate 211a, and a first cylindrical portion 213a protruding from the first end plate 211a toward the X1 direction side so as to surround the air inlet 2111 is provided; a circular air outlet 2112 is provided in the center of the second end plate 211b (in the illustrated example, the air outlet 2112 and the air inlet 2111 are formed to have the same diameter and the same center, but not limited thereto, and the air outlet 2112 and the air inlet 2111 may be formed to have different diameters or may be formed to have the different centers), and a second cylindrical portion 213b protruding from the second end plate 211b toward the X2 direction side so as to surround the air outlet 2112 is provided. The housing 210 includes a first connection plate 212a, a second connection plate 212b, a third connection plate 212c, and a fourth connection plate 212d as connection plates 212, wherein the first connection plate 212a is located on the Z2 direction side and is perpendicular to the Z direction, the third connection plate 212c is located on the Z1 direction side and is parallel-opposed to the first connection plate 212a, the second connection plate 212b is located on the Y1 direction side and is perpendicular to the Y direction and is detachable with respect to the first end 211a, the second end 211b, the first connection plate 212a, the third connection plate 212c, and the fourth connection plate 212d, and the second connection plate 212b is provided with a storage unit access hole 212b1 and a cover plate 212b2 capable of opening and closing the storage unit access hole 212b1 (in the illustrated example, the cover plate 212b2 is rotatably connected to an edge of the storage unit access hole 212b1 by a hinge, but is not limited thereto), and the fourth connection plate 212d is located on the Y2 direction side and is parallel-opposed to the second connection plate 212 b. Further, first and second mounting pieces 214a and 214b are provided on the first and second end plates 211a and 211b, respectively, so as to fix the fragrance module 200 to the ceiling TH or the like. As shown in fig. 3, the case 210 has a side access port 210k corresponding to the fragrance module 230 and the electric module 220.

The electric module 220 includes an electric module case (in the illustrated example, the electric module case has a substantially rectangular parallelepiped shape, but is not limited to this), a circuit board provided in the electric module case, and the like, and a handle is provided at a portion of the electric module 220 near the side access hole 210 k; the main body of the fragrance module 230 is disposed on the Y1 direction side (side) and the Z2 direction side (lower) of the air inlet 2111 and the air outlet 2112, and the main body of the fragrance module 230 at least partially overlaps the airflow path when viewed in the Z direction (i.e., up-down direction), and the main body of the electric module 220 is disposed on the Z1 direction side (directly above) of the air inlet 2111 and the air outlet 2112, and the main body of the electric module 220 at least partially overlaps the airflow path when viewed in the up-down direction, and the electric module 220 is disposed on the Z1 direction side (above) of the fragrance module 230.

Further, as shown in fig. 5 and 6, the fragrance module 230 includes a storage unit 231 and a fragrance distribution unit 232, wherein the storage unit 231 stores fragrance, and the fragrance distribution unit 232 is disposed at a Z2 direction side (lower side) of the storage unit 231 and receives fragrance supplied from the storage unit 231.

Here, as shown in fig. 6 to 8, the storage unit 231 includes a perfume bottle module 2313, a first bracket 2311 and a second bracket 2312 are provided in the housing 210, a mounting part AZ for mounting the perfume bottle module 2313 is provided on the first bracket 2311, and the second bracket 2312 is fixed to the housing 210; as shown in fig. 3 and 4, the first bracket 2311 is slidably supported by the second bracket 2312, and is switchable between a position (see fig. 3) where the perfume bottle module 2313 is housed in the housing 210 and a position (see fig. 4) where the perfume bottle module 2313 protrudes from the side access port 210k to the outside of the housing 210; as shown in fig. 5 and 6, a handle 23119 is provided at a position of the first bracket 2311 near the side access port 210k. Specifically, the first bracket 2311 includes a first bracket body 23111 and a first bracket folded edge 23112, the first bracket body 23111 has a substantially plate shape having a thickness in accordance with the Z direction, an opening constituting the mounting portion AZ is opened at one end side (Y1 direction side) of the first bracket body 23111, a handle 23119 is provided at a position closer to the Y1 direction side than the opening, and the first bracket folded edge 23112 is provided on both sides of the first bracket body 23111 in the X direction and extends in the Y direction; the second bracket 2312 has a second bracket main body 23121 and a support portion 23122, the second bracket main body 23121 is substantially plate-shaped having a thickness in accordance with the Z direction, and is provided with a hole portion, the support portion 23122 is provided on both sides of the second bracket main body 23121 in the X direction and extends in the Y direction, and the support portion 23122 supports and guides both side portions (first bracket folded edges 23112) of the first bracket 2311 in the X direction from the Z2 direction, thereby enabling the first bracket 2311 to slide with respect to the second bracket 2312 in the Y direction. As shown in fig. 9 and 10, the fragrance bottle module 2313 includes a fragrance bottle holder 23131, two solenoid valves 23132, and a solenoid valve holder 23133, wherein the fragrance bottle holder 23131 has integrally formed first and second storage chambers SS1 and SS2 for storing first and second fragrance bottles (see fig. 4, for example, first fragrance such as essential oil) and second fragrance bottles (see fig. 4, for example, second fragrance such as essential oil), respectively, the solenoid valve holder 23133 has integrally formed first and second storage chambers SS1 and SS2 on the Z2 direction side (lower side) thereof and communicates with the first and second storage chambers SS1 and SS2 to control the amount of fragrance or the like supplied from the first and second storage chambers SS1 and SS2, the solenoid valve holder 23133 is provided on the Z2 direction side of the fragrance bottle holder 23131 and connected to the fragrance bottle 23131, and the solenoid valve holder 23133 has integrally formed first and second storage chambers RS1 and RS2, respectively, and the first and second solenoid valves RS1 and 2312 are accommodated in the two solenoid valves RS 32. As shown in fig. 9 and 10, the perfume bottle holder 23131 is provided with a first screw fixing portion GG1, and the solenoid valve bracket 23133 is provided with a second screw fixing portion GG2, and the perfume bottle holder 23131 and the solenoid valve bracket 23133 can be fixed together by connecting the first screw fixing portion GG1 and the second screw fixing portion GG2 with screws. As shown in fig. 11, the solenoid valve holder 23133 has a first wire passing port GX1 and a second wire passing port GX2, and the first wire passing port GX1 and the second wire passing port GX2 are configured to pass a wire extending from a circuit board of the electric module 220, and the first wire passing port GX1 and the second wire passing port GX2 are symmetrical with respect to the center of the solenoid valve holder 23133 when viewed in the Z direction.

As shown in fig. 12 and 13, the fragrance module 230 (specifically, the fragrance dispensing unit 232) includes a base 2321, a holder 2322, and a first driving unit 2323, wherein the base 2321 is fixed to the housing 210, the holder 2322 is provided with a fragrance film FX (provided on the Z1 direction side of the holder 2322) for receiving fragrance, and is slidably provided on the base 2321, and the first driving unit 2323 drives the holder 2322 to move between a first position at which the fragrance film FX is located in an airflow path from the air inlet 2111 to the air outlet 2112, and a second position at which the fragrance film FX exits the airflow path (refer to a state shown in fig. 13).

Here, as shown in fig. 12, the chassis 2321 includes a first portion TZ1 and a second portion TZ2, the first portion TZ1 and the second portion TZ2 are respectively elongated extending in the Y direction, the chassis 2322 has a chassis main body 23221 and a chassis folded edge 23222, the chassis main body 23221 is substantially plate-shaped with a thickness in accordance with the Z direction, the chassis folded edge 23222 is provided on both sides of the first chassis main body 23111 in the X direction and extends in the Y direction, and two chassis folded edges 23222 of the chassis 2322 are respectively supported by the first portion TZ1 and the second portion TZ2, whereby the chassis 2322 can slide with respect to the chassis 2321 in the Y direction. As shown in fig. 12, the first driving unit 2323 includes a first motor 23231 fixed to the chassis 2321 (specifically, the second portion TZ 2), a first gear 23232 provided on an output shaft of the first motor 23231, and a first rack 23233 fixed to the bracket portion flange 23222 and engaged with the first gear 23232. And, the perfume film FX includes a first perfume film that receives a first perfume and a second perfume film that receives a second perfume.

As shown in fig. 6, 12, and 13, the holder 2322 is provided with a fragrance film cover 2325 (in the illustrated example, provided on the Z1 direction side of the holder 2322, but not limited thereto, and adjustable according to the position of the fragrance film), and the fragrance dispensing unit 232 has a second driving portion 2326, and the second driving portion 2326 drives the fragrance film cover 2325 so that the fragrance film cover 2325 is switched between a position for shielding the fragrance film and a position for exposing the fragrance film.

Here, as shown in fig. 12, the second driving part 2326 includes a second motor 23261 fixed to the bracket part 2322, a second gear 23262 provided to an output shaft of the second motor 23261, and a second rack 23263 fixed to the perfume film casing 2325 and engaged with the second gear 23262. And, the second driving part 2326 drives the perfume film casing 2325 so that the perfume film casing 2325 switches between a first position where the perfume film casing 2325 shields the first perfume film and exposes the second perfume film, and a second position where the perfume film casing 2325 exposes the first perfume film and shields the second perfume film.

Further, although not shown, the circuit board of the electric module 220 is electrically connected to the two solenoid valves 23132, the first motor 23231, and the second motor 23261 via wires.

(main technical effects of the present embodiment)

According to the present embodiment, the fragrance module 200 can be used flexibly by adjusting the ambient atmosphere alone or in combination with the air treatment device 100 (for example, by communicating the air inlet 1112 of the air treatment device 100 with the air inlet of the fragrance module 200).

Further, according to the present embodiment, since the electric module 220 and the fragrance module 230 are provided in the housing 210 of the fragrance module 200 so that the main body thereof avoids the air flow path, when the air inlet 2111 is directly connected to the air outlet 1112 of the air treatment device 100 or is connected to each other via the duct, resistance to the air flow blown out from the air outlet 1114 of the air treatment device 100 can be reduced, which contributes to rapid diffusion of fragrance into a predetermined space, and also reduces the influence of the air flow on the electric components, prevents the air flow from flowing for a long time to accelerate the aging of the electric components, and prevents the safety problem caused by dew condensation generated when the air flow flows through the electric components.

Further, according to the present embodiment, since the electrical module 220 is disposed above the fragrance module 230 in the case 210 of the fragrance module 200 and the access ports corresponding to the electrical module 220 and the fragrance module 230 are provided on the sides of the case 210, it is not necessary to detach the fragrance module 230 first when performing maintenance work on the electrical module 220, and similarly, it is not necessary to detach the electrical module 220 first when performing maintenance work on the fragrance module 230, and it is possible to easily perform the access to the electrical module 220 and the fragrance module 230 from the sides, respectively; the electrical module 220 or the fragrance module 230 can be overhauled, replaced and maintained without disassembling the housing 210, and the operation is convenient.

Further, according to the present embodiment, since the second connection plate 212b is provided with the storage unit access hole 212b1 and the cover plate 212b2 capable of opening and closing the storage unit access hole 212b1, when the replacement work of the perfume bottle having a frequency higher than the inspection frequency of the electric module 220 is performed, the entire second connection plate 212b is not required to be removed, and only the cover plate 212b2 having a smaller size is required to be opened, so that the replacement work of the perfume bottle having a high perfume is easier, and the efficiency of the replacement work of the perfume bottle is facilitated to be improved.

The invention has been described above by way of example with reference to the accompanying drawings, it being apparent that the invention is not limited to the embodiments described above.

For example, in the above embodiment, the air treatment system 1 is provided in the space above the ceiling TH, but the air treatment system 1 is not limited to this, and may be provided in a space without a ceiling, as long as there are two spaces partitioned such as the corridor ZL and the indoor SN.

In the above embodiment, the air-conditioning system 1 includes the air-conditioning outdoor unit 300 connected to the air-conditioning apparatus 100 via the refrigerant pipe, but the present invention is not limited thereto, and the air-conditioning system may not include the air-conditioning outdoor unit 300.

In addition, in the above embodiment, the air treatment system 1 may further include an air supply terminal and/or an air conditioning indoor unit that are in communication with the air outlet 2112 of the fragrance assembly 200.

In the above embodiment, the air treatment device 100 has the heat exchanger, but the present invention is not limited to this, and the air treatment device 100 may not have the heat exchanger.

In the above embodiment, the air treatment device 100 has the fresh air inlet 1111, the air supply outlet 1112, the return air inlet 1113, and the air outlet 1114, but the air treatment device is not limited to this, and may be an air conditioning indoor unit or the like.

In the above embodiment, the housing 210 of the fragrance module 200 has a substantially rectangular parallelepiped shape, the circular air inlet 2111 is provided at the center of the first end plate 211a, and the circular air outlet 2112 is provided at the center of the second end plate 211b, but the shape and the installation position of the housing 210, the air inlet 2111, and the air outlet 2112 may be changed as needed.

In the above embodiment, the perfume bottle holder 23131 has the first and second storage chambers SS1 and SS2, and the solenoid valve holder 23133 has the first and second storage chambers RS1 and RS2, and the perfume film includes the first perfume film for receiving the first perfume and the second perfume film for receiving the second perfume, but the number of storage chambers of the perfume bottle holder 23131, the number of storage chambers of the solenoid valve holder 23133, and the number of perfume films are not limited thereto, and may be appropriately changed as needed.

In the above embodiment, the air treatment system is provided with only one opening for supplying air into the room, but the present invention is not limited to this, and a plurality of openings for supplying air into the room may be provided in the duct, and as shown in fig. 1, a fragrance module may be connected to the air supply port 1112 of the air treatment apparatus, or a fragrance module may be provided in each opening.

The fresh air outlet 1111 and the air outlet 1114 of the air treatment apparatus may be connected to the corridor ZL, or may be connected to an outdoor space or other indoor space.

Further, in the above-described embodiment, the air inlet 2111 and the air outlet 2112 of the fragrance assembly 200 are provided on the opposite two end plates of the housing 210, thereby forming a straight-through type air flow path from the air inlet 2111 to the air outlet 2112, but not limited thereto; the air inlet and the air outlet of the fragrance module 200 may also be disposed on two adjacent connection plates of the housing 210, for example, the air inlet 2111 is still disposed on the first connection plate 212a, the air outlet is disposed on the fourth connection plate 212d, so as to form a deflected airflow path, and the fragrance module 230 and the electrical module 220 are located outside the airflow path formed from the air inlet 2111 to the air outlet 2112; further, the air inlet 2111 may be eccentrically disposed with respect to the air outlet 2112, thereby forming an eccentric air flow path.

In the above embodiment, the main body of the fragrance module 230 is disposed on the Y1 direction side of the air inlet 2111 and the air outlet 2112, the main body of the electric module 220 is disposed on the Z1 direction side of the air inlet 2111 and the air outlet 2112, and the electric module 220 is disposed on the Z1 direction side of the fragrance module 230, but the present invention is not limited thereto, and the specific disposition positions of the fragrance module 230 and the electric module 220 may be changed as appropriate according to the actual situation.

In addition, in the above embodiment, the fragrance module 230 and the electrical module 220 may also share one large access opening.

In the above embodiment, the fragrance film cover 2325 may be a partition plate provided between the airflow path and (for example, the fragrance film of) the fragrance module, and the partition plate may block the fragrance film and the airflow path, and may shield all of the fragrance films, so that there is no fear of fragrance sticking out even if fragrance remains on the fragrance film.

It should be understood that the present invention can freely combine the embodiments within the scope thereof, or can appropriately modify and omit the embodiments.

Claims (10)

1. An air treatment system (1), characterized by comprising:

an air treatment device (100); and

a fragrance component (200),

the fragrance assembly includes a housing (210),

an air inlet (2111) and an air outlet (2112) are arranged on the shell (210),

a straight-through airflow path is formed from the air inlet (2111) to the air outlet (2112) in the housing (210),

an electrical module (220) and a fragrance module (230) are provided in the housing (210) so that the main body avoids the airflow path,

the fragrance module (230) has a fragrance distribution function,

the electrical module (220) controls the fragrance module (230),

the fragrance module (230) comprises a storage unit (231),

the storage unit (231) stores perfume and has a perfume bottle module (2313),

a first bracket (2311) is provided in the housing (210),

a mounting part (AZ) for mounting the perfume bottle component is arranged on the first bracket (2311),

the first bracket (2311) is slidable with respect to the housing (210),

an access opening (210 k) corresponding to the electric module (220) and the fragrance module (230) is provided at the same side position with respect to the air inlet (2111) and the air outlet (2112) when the housing (210) is viewed along the airflow path,

the air treatment device is provided with an air supply outlet (1112),

the air inlet (2111) is communicated with the air outlet (1112),

the air outlet (2112) is communicated with the room through an air pipe.

2. The air treatment system of claim 1, wherein,

the fragrance module (230) comprises a fragrance distribution unit (232),

the fragrance distribution unit (232) is arranged below the storage unit (231) and receives the fragrance supplied by the storage unit (231).

3. The air treatment system of claim 2, wherein,

the storage unit (231) is slidably switched between a position where the perfume bottle module (2313) is housed in the housing (210) and a position where the perfume bottle module (2313) protrudes outside the housing (210).

4. The air treatment system of claim 1, wherein,

the fragrance module (230) has a base (2321), a holder portion (2322) and a first drive portion (2323),

the base (2321) is fixed to the housing (210),

the holder (2322) is provided with a perfume Film (FX) for receiving perfume and is arranged on the base (2321) in a sliding manner,

the first driving part (2323) drives the bracket part (2322) to move between a first position and a second position,

in the first position, the perfume film is located in an airflow path from the air inlet (2111) to the air outlet (2112),

at the second position, the fragrancing film exits the airflow path.

5. The air treatment system of claim 4, wherein,

a perfume film casing (2325) is arranged on the bracket part (2322),

the fragrance module (230) has a second drive (2326),

the second driving unit (2326) drives the fragrance film cover (2325) so that the fragrance film cover (2325) is switched between a position where the fragrance film is shielded and a position where the fragrance film is exposed.

6. The air treatment system of claim 5, wherein,

the storage unit (231) comprises a first storage cavity (SS 1) and a second storage cavity (SS 2), the first storage cavity (SS 1) is used for storing a first perfume bottle for storing first perfume, the second storage cavity (SS 2) is used for storing a second perfume bottle for storing second perfume,

the perfume film comprises a first perfume film for supporting a first perfume and a second perfume film for supporting a second perfume,

the second driving part (2326) drives the perfume film housing (2325) so as to enable the perfume film housing (2325) to be switched between a first position and a second position,

at the first position, the perfume film cover (2325) covers the first perfume film and exposes a second perfume film,

in the second position, the perfume film cover (2325) exposes the first perfume film and shields the second perfume film.

7. The air treatment system of any one of claims 1 to 6,

the main body of the fragrance module (230) is arranged at the side and/or the lower part of the air inlet (2111) and the air outlet (2112),

and/or the number of the groups of groups,

the main body of the electric module (220) is arranged right above the air inlet (2111) and the air outlet (2112).

8. The air treatment system of any one of claims 1 to 6,

the electrical module (220) is disposed above the fragrance module (230).

9. The air treatment system of claim 1, wherein,

the air treatment system (1) further comprises an air conditioning outdoor unit (300), and the air conditioning outdoor unit (300) and the air treatment device (100) are connected by a refrigerant pipe to form a refrigerant circuit.

10. The air treatment system of claim 1, wherein,

the air treatment system (1) further comprises an air supply tail end and/or an air conditioning indoor unit which are communicated with the air outlet (2112) of the fragrance component (200).

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