CN221279593U - Indoor ecological environment system - Google Patents

Abstract

The utility model discloses an indoor ecological environment system, which belongs to the technical field of household environment air conditioning and can be applied to indoor space; the ecological enclosure component is provided with a fresh air inlet, a turbid air outlet and a first connecting surface which can be arranged on the opening of the side wall of the indoor space, the air supply end is provided with a second connecting surface which can be arranged on the lower portion of the indoor space, the air return end is provided with a third connecting surface which can be arranged on the upper portion of the indoor space, the air return end and the air supply end are respectively positioned on two opposite sides of the ecological enclosure component in the first direction, the air conditioner is provided with a first mounting part which can be arranged on the upper portion of the indoor space, and the ecological regulator is provided with a second mounting part which can be arranged on the upper portion of the indoor space, a fresh air port which is communicated with the fresh air inlet, a turbid air port which is communicated with the turbid air outlet, an air return port which is communicated with the air return end and an air supply port which is communicated with the air supply end. The utility model can solve the problems of poor air convection and poor ventilation effect in the existing indoor space and improve the air quality.

Description

Indoor ecological environment system

Technical Field

The utility model belongs to the technical field of home environment air conditioning, and particularly relates to an indoor ecological environment system.

Background

In the prior art, the improvement of indoor air quality mainly comprises the following three modes: 1. natural ventilation mode, but many rooms do not have convection condition, and ventilation effect is not ideal; 2. however, the air-conditioning ventilation mode has large energy consumption and unsatisfactory improvement effect; 3. the air cleaner system can clean air, but only indoor exchange of air can be performed.

Disclosure of utility model

In order to solve the technical problems, the utility model aims to provide an indoor ecological environment system which can improve the air purification and circulation efficiency in an indoor space, greatly improve the air quality in the indoor space and effectively solve the problems of poor air convection and poor ventilation effect in the existing indoor space.

The technical scheme adopted for solving the technical problems is as follows:

The utility model provides an indoor ecological environment system, which is applied to an indoor space and comprises:

The ecological enclosure component is provided with a first connecting surface, a fresh air inlet and a turbid air outlet, wherein the first connecting surface is used for being installed on the side wall opening of the indoor space;

An air supply terminal having a second connection surface for being installed at a lower portion of the indoor space;

The air return end is provided with a third connecting surface used for being installed at the upper part of the indoor space, and the air return end and the air supply end are respectively positioned at two opposite sides of the ecological enclosure component in a first direction, and the first direction is perpendicular to the up-down direction;

an air conditioner having a first installation part for installation at an upper part of an indoor space;

The ecological regulator is provided with a second installation part, a fresh air port, a turbid air port, an air return port and an air supply port, wherein the second installation part, the fresh air port, the turbid air port, the air return port, the air supply port and the air supply port are arranged on the upper part of an indoor space, the fresh air port is communicated with the fresh air inlet, the turbid air port is communicated with the turbid air outlet, the air return port is communicated with the tail end of the air return port, and the air supply port is communicated with the tail end of the air supply port.

The indoor ecological environment system provided by the utility model has at least the following beneficial effects: when the air conditioner and the ecological regulator work, the air in the indoor space can be subjected to temperature control, humidity control, sterilization, purification and other treatments, a fresh air port of the ecological regulator is communicated with a fresh air inlet of the ecological enclosure component, a turbid air port of the ecological regulator is communicated with a turbid air outlet of the ecological enclosure component, outdoor fresh air can be introduced into the indoor space, and dirty air in the indoor space is discharged outdoors to form good air convection, so that an air external circulation mode of an indoor ecological environment system is realized, a ventilation effect is improved, and the air quality of the indoor space is improved; the air return port and the return air end intercommunication of ecological regulator, the supply-air port and the supply-air end intercommunication of ecological regulator, moreover, the return air end is located indoor space's opposite both sides with the supply-air end, the return air end is located indoor space's upper portion, the supply-air end is located indoor space's lower part, consequently, can form one in indoor space and send back the air major cycle that goes up down, ensure that indoor ecological environment system's air inner loop mode goes on more high-efficiently, the coverage area is wide, thereby improve air purification and circulation efficiency, provide high-quality air for indoor space.

As a further improvement of the technical scheme, the ecological enclosure component is an ecological window, the ecological window is provided with an air supply cavity, the air supply tail end is arranged at the lower end of the ecological window, and the air supply cavity is respectively communicated with the air supply port and the air supply tail end. So set up, need not to destroy the wall body and install the air supply end, avoid appearing traditional new trend system and need install the terminal problem of air supply at the extra hole of wall body, guarantee that indoor space has good aesthetic property after installing indoor ecological environment system additional.

As a further improvement of the technical scheme, the fresh air inlet and the turbid air outlet are respectively positioned on two opposite sides of the ecological window, and the air supply cavity is positioned between the fresh air inlet and the turbid air outlet. So set up, can increase the distance between fresh air inlet and the turbid wind export, avoid appearing more exhaust air and flow back to indoor space in through the fresh air inlet again, lead to the problem that indoor ecological environment system's energy consumption increased.

As a further improvement of the technical scheme, the ecological window is provided with a micro ventilation inlet and a micro ventilation outlet, the micro ventilation inlet is positioned below the fresh air inlet, and the micro ventilation outlet is positioned below the turbid air outlet. The arrangement realizes the direct exchange of the indoor air and the outdoor air through the cooperation of the micro ventilation inlet and the micro ventilation outlet, shortens the flow path of the indoor air and the outdoor air, and saves energy consumption; at the same time, the discharged air can be prevented from being re-sucked into the indoor space.

As a further improvement of the technical scheme, the ecological enclosure member is an ecological window, the two opposite sides of the ecological window are respectively provided with the turbid wind outlet and the fresh wind inlet, and the fresh wind inlet is positioned below the turbid wind outlet. By the arrangement, the structural space of the ecological window can be effectively utilized, and fresh air inlet amount and turbid air outlet amount are increased.

As a further improvement of the technical scheme, the two opposite sides of the ecological window are respectively provided with a micro ventilation inlet and a micro ventilation outlet, the micro ventilation outlet is positioned below the turbid wind outlet, and the micro ventilation inlet is positioned between the micro ventilation outlet and the fresh air inlet. By the arrangement, the indoor space can be directly exchanged with the indoor space, and the discharged air can be prevented from flowing back to the indoor space again.

As a further improvement of the technical scheme, the ecological enclosure member is an ecological door, the fresh air inlet and the turbid air outlet are both arranged at the upper end of the ecological door, and the fresh air inlet and the turbid air outlet are respectively arranged at two opposite sides of the ecological door. An ecological door is arranged in an indoor space with a balcony, a fresh air inlet and a turbid air outlet are arranged on the upper portion of the ecological door, holes are not required to be formed in a wall body, and the attractiveness of the indoor space is improved.

As a further improvement of the above technical solution, the ecological door is provided with a micro ventilation inlet and a micro ventilation outlet, and the micro ventilation inlet and the micro ventilation outlet are located between the turbid wind outlet and the fresh wind inlet. So set up, can supply the user to select ventilation mode, can need not to start air conditioner and ecological regulator, carry out the exchange of indoor space inside and outside air, simultaneously, be difficult for being inhaled to the new trend import through turbid wind export exhaust air to can introduce indoor space with more fresh air, improve air quality.

As a further improvement of the technical scheme, the ecological enclosure member is an ecological door, the fresh air inlet and the turbid air outlet are respectively positioned on two opposite sides of the ecological door, the two opposite sides of the ecological door are respectively provided with an air supply tail end, and the air supply tail end is positioned below the fresh air inlet. By the arrangement, the space on two opposite sides of the ecological door can be effectively utilized to set the fresh air inlet, the turbid air outlet and the air supply tail end, the distance between the fresh air inlet and the turbid air outlet can be effectively increased, and more outdoor fresh air is promoted to be sucked into the indoor space.

As a further improvement of the technical scheme, a micro ventilation inlet and a micro ventilation outlet are respectively arranged on two opposite sides of the ecological door, the micro ventilation inlet is positioned between the fresh air inlet and the air supply tail end, and the micro ventilation outlet is positioned between the turbid air outlet and the air supply tail end. The arrangement can directly exchange the air inside and outside the indoor space, and can avoid the condition of poor ventilation effect caused by inflow of the fresh air outside through the upper part of the ecological door.

Drawings

The utility model is further described below with reference to the drawings and examples;

FIG. 1 is a schematic diagram of an indoor ecological environment system according to an embodiment of the present utility model after omitting an air conditioner;

FIG. 2 is a schematic view of an indoor ecological environment system according to an embodiment of the present utility model when installed in a house;

FIG. 3 is a schematic view of an indoor ecological environment system according to another embodiment of the present utility model installed in a residential building with a balcony;

FIG. 4 is a schematic view of the connection structure between an ecological window and an ecological regulator in the indoor ecological environment system provided by the embodiment of the utility model;

FIG. 5 is a schematic view of the connection between an ecological window and an ecological regulator in an indoor ecological environment system according to another embodiment of the present utility model;

FIG. 6 is a schematic view of the connection between an ecological door and an ecological regulator in the indoor ecological environment system provided by the embodiment of the utility model;

FIG. 7 is a schematic view of an ecological door connected to an ecological regulator in an indoor ecological environment system according to another embodiment of the present utility model;

fig. 8 is a schematic view illustrating installation of an air supply end and an air return end in an indoor ecological environment system according to an embodiment of the present utility model.

The figures are marked as follows: 100. a connecting pipe; 101. a fresh air pipeline; 102. a turbid wind pipeline; 103. an air supply pipeline; 110. a return air tail end; 120. an air supply tail end; 210. a coat and hat room; 220. an indoor space; 230. a balcony; 310. an ecological regulator; 320. air-conditioning; 330. an ecological window; 331. a first new wind chamber; 332. a first turbid wind chamber; 333. a first air supply chamber; 334. a first micro-ventilation inlet; 335. a first micro-vent outlet; 336. a mounting port; 340. an ecological door; 341. the second fresh air cavity; 342. a second turbid wind chamber; 343. a second air supply chamber; 344. a second micro-ventilation outlet; 345. a second micro-ventilation inlet; 400. and the wind scooper.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, if there is a word description such as "a plurality" or the like, the meaning of the plurality is one or more, the meaning of the plurality is two or more, and greater than, less than, exceeding, etc. are understood to exclude the present number, and above, below, within, etc. are understood to include the present number. The description of first, second, and third is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 8, several embodiments of the indoor ecosystem of the present utility model are described below.

As shown in fig. 1 to 8, an embodiment of the present utility model provides an indoor ecological environment system, which can be applied to an indoor space 220, and is particularly suitable for an indoor space 220 of a high-end residence. By using the indoor ecological environment system, the air purification and circulation efficiency in the indoor space 220 can be improved, the air quality in the indoor space 220 is greatly improved, the problems of poor convection and poor ventilation effect of the existing indoor air are effectively solved, and a healthy and comfortable living environment is provided for users.

Indoor spaces include, but are not limited to, bedrooms, living rooms, restaurants, study rooms, and the like.

The indoor ecological environment system comprises an ecological enclosure component, an air conditioner 320, an ecological regulator 310, an air supply terminal 120 and an air return terminal 110.

The ecological enclosure member may be a ecological window 330 or an ecological door 340. The eco-enclosure has a first connection surface that functions to enable the eco-enclosure to be installed at the sidewall opening of the indoor space 220. It will be appreciated that the indoor space 220 will typically be provided with side wall openings such as windows or doorways, so that after the indoor space 220 is fitted with the ecological enclosure, a user may communicate the indoor and outdoor by opening and closing the ecological enclosure.

The ecological enclosure member is provided with a turbid wind outlet and a fresh air inlet, wherein the turbid wind outlet and the fresh air inlet are communicated with an outdoor environment, the turbid wind outlet is used for discharging indoor polluted air outdoors, and the fresh air inlet is used for introducing outdoor fresh air indoors. It can be understood that the fresh air inlet and the turbid air outlet are positioned at the edge of the ecological enclosure member, and the opening and closing of the ecological enclosure member by a user can not be influenced.

The blowing terminal 120 has a second connection surface, which functions to enable the blowing terminal 120 to be installed at a lower portion of the indoor space 220.

The return air terminal 110 has a third connection surface that functions to enable the return air terminal 110 to be installed in an upper portion of the indoor space 220. It will be appreciated that the structures of the air supply terminal 120 and the air return terminal 110 may be identical, and include a housing having an air inlet and an air outlet and a blower disposed in the housing, where under the action of the blower, air can flow into the housing or out of the housing, thereby implementing the air supply or air return function.

The air supply end 120 is located at one side of the ecological enclosure in a first direction, and the air return end 110 is located at the opposite side of the ecological enclosure in the first direction, wherein the first direction is perpendicular to the up-down direction. It is understood that the first direction may be a front-rear direction or a left-right direction.

The air conditioner 320 has a first mounting portion, which functions to enable the air conditioner 320 to be mounted at an upper portion of the indoor space 220. The eco-conditioner 310 has a second mounting portion, which functions to enable the eco-conditioner 310 to be mounted at an upper portion of the indoor space 220.

It can be appreciated that the air conditioner 320 and the ecological regulator 310 are installed on the ceiling of the indoor space 220 in a hanging manner, thus avoiding unnecessary wall holes and having good aesthetic property. When the air conditioner 320 is operated, the cooling process can be performed on the air in the indoor space 220. Of course, the air conditioner 320 may be a dual-purpose air conditioner 320 for cooling and heating.

The ecological regulator 310 has the functions of fresh air filtration, anion sterilization and purification, aromatherapy and flavoring, heating and warm air heating, dehumidification and the like, and the structure of the ecological regulator 310 comprises a box body, a dehumidifier, an anion generator, a heater, an aromatherapy generator, a filter piece and the like, wherein the dehumidifier, the anion generator, the heater, the aromatherapy generator and the filter piece are arranged in the box body. Since the ecological regulator 310 belongs to the prior art, a specific structure and operation principle thereof will be understood by those skilled in the art, and a specific description thereof will not be provided herein. When the ecological regulator 310 works, air in the indoor space 220 can be subjected to air filtration, sterilization, disinfection, aroma enhancement, heating, dehumidification and the like, and different air conditioning requirements of users can be met.

The ecological regulator 310 is provided with a return air port, an air supply port, a fresh air port and a turbid air port. Wherein, ecological regulator 310's fresh air port is provided with new trend pipeline 101, and new trend pipeline 101 communicates in ecological enclosure's fresh air inlet, and ecological regulator 310's turbid wind gap is provided with turbid wind pipeline 102, and turbid wind pipeline 102 communicates in ecological enclosure's turbid wind export, and ecological regulator 310's return air port is provided with the return air pipeline, and the return air pipeline communicates in return air terminal 110, and ecological regulator 310's supply-air inlet is provided with air supply pipeline 103, and air supply pipeline 103 communicates in supply air terminal 120.

It will be appreciated that a control air valve is provided between the fresh air duct 101 and the fresh air inlet, and a control air valve is also provided between the dirty air duct 102 and the dirty air outlet. Then, after the control air valves are opened, outdoor fresh air flows into the ecological regulator 310 through the fresh air inlet and the fresh air pipeline 101 in sequence, after the air is processed by the ecological regulator 310, the air flows into the indoor space 220 through the air supply pipeline 103 and the air supply tail end 120 in sequence, meanwhile, dirty air in the indoor space 220 flows into the ecological regulator 310 through the air return tail end 110 and the air return pipeline in sequence, and then flows out of the room through the turbid air pipeline 102 and the turbid air outlet in sequence, so that a fresh air exhausting function of an indoor ecological environment system is started, and air external circulation is realized.

When the control air valves are closed, indoor polluted air flows to the ecological regulator 310 through the air return tail end 110 and the air return pipeline in sequence, the ecological regulator 310 selectively treats the air according to the requirements of users, and the treated air flows into the indoor space 220 through the air supply pipeline 103 and the air supply tail end 120 in sequence, so that the air internal circulation function of the indoor ecological environment system is started.

The number of the air supply terminal 120 and the air return terminal 110 may be selected according to practical situations, and is not particularly limited herein. The return air terminal 110 may be disposed at a ceiling of the indoor space 220. The blowing tip 120 may be disposed at a height position of 100mm to 150mm from the ground.

In addition, the bedroom of the high-end house further comprises a coat-hat room 210, and the coat-hat room 210 is communicated with the indoor space 220 of the bedroom, and then a return air terminal 110 and an air supply terminal 120 can be arranged in the region of the coat-hat room 210.

It can be appreciated that in the structure of the indoor ecological environment system provided in this embodiment, since the fresh air port of the ecological regulator 310 is connected to the fresh air inlet of the ecological enclosure member, and the dirty air port of the ecological regulator 310 is connected to the dirty air outlet of the ecological enclosure member, when the indoor ecological environment system is running, outdoor fresh air can be introduced into the indoor space 220, and meanwhile, dirty air in the indoor space 220 is discharged to the outside, so that good air convection is formed, which is beneficial to improving ventilation effect, and by enabling the air external circulation mode of the indoor ecological environment system, the air quality of the indoor space 220 is improved.

Moreover, as shown in fig. 8, since the return air inlet of the ecological regulator 310 is communicated with the return air terminal 110, the air supply inlet of the ecological regulator 310 is communicated with the air supply terminal 120, and the return air terminal 110 and the air supply terminal 120 are positioned at two opposite sides of the indoor space 220, the return air terminal 110 is positioned at the upper part of the indoor space 220, the air supply terminal 120 is positioned at the lower part of the indoor space 220, and the return air terminal 110 and the air supply terminal 120 are connected with the ecological regulator 310 through the connecting pipe 100, a large circulation of air which is sent downwards and upwards is formed in the indoor space 220, so that the air internal circulation mode of the indoor ecological environment system can be ensured to be performed more quickly and efficiently, the coverage area is wide, the acceleration circulation of the air in the indoor space 220 can be promoted, the air purification and circulation efficiency can be improved, the air quality of each area in the indoor space 220 can be ensured to be in an optimal state, and the high-quality air can be finally provided for the indoor space 220 where a user is located.

In some embodiments, as shown in fig. 1, 2 and 4, the ecological enclosure member is configured as an ecological window 330, an air supply cavity is hollow in the ecological window 330, the air supply terminal 120 is disposed at the lower end of the ecological window 330, and the air supply cavity is respectively communicated with the air supply terminal 120 and the air supply port of the ecological regulator 310.

Specifically, the upper portion of the ecological window 330 is provided with a connection port, the connection port is communicated with the air supply cavity, the connection port is connected with the air supply pipeline 103, the air supply cavity is shaped like a mouth, the lower portion of the ecological window 330 is provided with a mounting port 336, the mounting port 336 is communicated with the air supply cavity, and the air supply terminal 120 is arranged at the mounting port 336 of the ecological window 330. Since the air supply terminal 120 is provided with an axial flow fan, after the axial flow fan is turned on, air in the air supply duct 103 continuously flows from the air supply terminal 120 to the indoor space 220 under the driving action of the axial flow fan.

The turbid wind outlet and the fresh wind inlet are respectively positioned on two opposite sides of the ecological window 330, and are arranged on the surface of the ecological window 330 close to the outside. It is understood that the turbid wind outlet and the fresh wind inlet may be disposed at intervals along the up-down direction of the ecological window 330, or may be disposed at intervals along the left-right direction of the ecological window 330.

In this embodiment, a first turbid air chamber 332 is disposed on the left side frame of the ecological window 330, a turbid air outlet is disposed on the left side frame of the ecological window 330 and is communicated with the first turbid air chamber 332, and a connection port communicated with the first turbid air chamber 332 is disposed on the upper portion of the ecological window 330 and is connected with the turbid air duct 102. The right side frame of ecological window 330 is provided with first new trend chamber 331, and the new trend import sets up the right side frame at ecological window 330 to communicate with each other with first new wind chamber 331, the upper portion of ecological window 330 is provided with the connector with first new trend chamber 331 intercommunication, and this connector is connected with fresh air duct 101. The ecological window 330 is provided with a first air supply cavity 333, and the first air supply cavity 333 is located between the turbid air outlet and the fresh air inlet.

The indoor ecological environment system of this embodiment adopts foretell structure setting, need not to destroy the wall body and installs the terminal 120 of air supply, avoids appearing traditional new trend system and need the problem of installing the terminal 120 of air supply at the extra hole of wall body, guarantees that indoor space 220 has good aesthetic property after installing indoor ecological environment system additional.

Further, the ecological window 330 is provided with a first micro ventilation outlet 335 and a first micro ventilation inlet 334. Wherein, ecological window 330 inside cavity forms first wind chamber and second wind chamber, first wind chamber be provided with the first little ventilation outlet 335 of outdoor intercommunication and with the first export of indoor intercommunication, the second wind chamber be provided with the first little ventilation inlet 334 of outdoor intercommunication and with the second export of indoor intercommunication, moreover, first wind intracavity and second wind intracavity all are provided with axial fan, still are provided with the blast gate in first wind chamber and the second wind chamber for control first little ventilation outlet 335 and first little ventilation inlet 334 can communicate in indoor space 220.

In this embodiment, the first micro ventilation inlet 334 and the first micro ventilation outlet 335 are respectively located at the borders of the left and right sides of the ecological window 330, and the first micro ventilation inlet 334 is disposed below the fresh air inlet, and the first micro ventilation outlet 335 is disposed below the turbid air outlet.

It can be appreciated that the above-mentioned configuration of the ecological window 330 can increase the distance between the fresh air inlet and the turbid air outlet, so as to avoid the problem that more discharged air flows back into the indoor space 220 again through the fresh air inlet, resulting in increased energy consumption of the indoor ecological environment system.

In addition, the ecological window 330 may be provided with a wind scooper 400 for the first micro ventilation inlet 334, the first micro ventilation outlet 335, the fresh air inlet, and the turbid air outlet.

In some embodiments, as shown in fig. 5, the ecological enclosure is provided as an ecological window 330, and the indoor space 220 is provided with a cabinet, which is disposed close to the ecological window 330. The opposite sides of the ecological window 330 are provided with fresh air inlets, and the opposite sides of the ecological window 330 are provided with turbid air outlets, and the fresh air inlets are arranged below the turbid air outlets. The supply air terminal 120 is disposed on the cabinet and the return air terminal 110 is disposed in the indoor space 220 at a location remote from the cabinet. So set up, effectively utilize the structure space of ecological window 330 to set up turbid wind export and new trend import, effectively increase new trend intake and turbid wind discharge amount to utilize the built-in cupboard to provide installation space for air supply terminal 120.

Further, the first micro ventilation inlet 334 is provided on both opposite sides of the ecological window 330, and the first micro ventilation outlet 335 is provided on both opposite sides of the ecological window 330. Wherein, the first micro ventilation outlet 335 is arranged below the turbid wind outlet, and the first micro ventilation inlet 334 is arranged between the first micro ventilation outlet 335 and the fresh air inlet. By such arrangement, the air exchange between the inside and the outside of the indoor space 220 can be directly performed by using the first micro ventilation outlet 335 and the first micro ventilation inlet 334 on the ecological window 330, and the discharged air can be prevented from flowing back to the indoor space 220 again.

In some embodiments, as shown in fig. 3 and 6, the ecological enclosure member is provided as an ecological door 340. It will be appreciated that the high-end residence further includes a balcony 230, an ecological door 340 is provided between the indoor space 220 and the solar light table, and a user can reach the balcony 230 after opening the ecological door 340.

The turbid air outlet and the fresh air inlet are all arranged at the upper end of the ecological door 340, specifically, a second fresh air cavity 341, a second turbid air cavity 342 and a second air supply cavity 343 are formed in the upper end of the ecological door 340 in a hollow mode, the second fresh air cavity 341, the second turbid air cavity 342 and the second air supply cavity 343 are mutually separated, the air supply tail end 120 is communicated with the second air supply cavity 343, the fresh air inlet is communicated with the second fresh air cavity 341, and the turbid air outlet is communicated with the second turbid air cavity 342.

The fresh air inlet is arranged on one side of the ecological door 340, and the turbid air outlet is arranged on the opposite side of the ecological door 340. The second air supply chamber 343 extends in the up-down direction, and the air supply terminal 120 may be provided at a wall cabinet at one side of the eco door 340 or at a lower portion of the eco door 340.

In this embodiment, two second air supply chambers 343 are provided, and the second fresh air chamber 341 and the second turbid air chamber 342 are located between the two second air supply chambers 343.

It can be appreciated that the ecological door 340 is provided in the indoor space 220 with the balcony 230, and the fresh air inlet and the turbid air outlet are provided at the upper portion of the ecological door 340, so that no additional openings on the wall are required, and the aesthetic property of the indoor space 220 is improved.

Further, the eco door 340 is provided with a second micro ventilation outlet 344 and a second micro ventilation inlet 345. Wherein the second micro ventilation outlet 344 and the second micro ventilation inlet 345 are both located at the upper end of the ecological door 340, and the second micro ventilation outlet 344 and the second micro ventilation inlet 345 are located between the turbid wind outlet and the fresh air inlet.

So set up, can supply the user to select ventilation mode, can need not to start air conditioner 320 and ecological regulator 310, carry out the exchange of indoor space 220 inside and outside air, simultaneously, be difficult for being inhaled to the new trend import through turbid wind export exhaust air to can introduce indoor space 220 with more fresh air, improve air quality.

In some embodiments, as shown in fig. 7, the ecological enclosure is configured as an ecological door 340, with the fresh air inlet located on one side of the ecological door 340 and the dirty air outlet located on the opposite side of the ecological door 340. The opposite sides of the ecological door 340 are provided with air supply terminals 120, one of which air supply terminals 120 is disposed below the fresh air inlet, and the other air supply terminal 120 is disposed below the turbid air outlet.

Further, a second micro ventilation inlet 345 is provided on one side frame of the ecological door 340, and a second micro ventilation outlet 344 is provided on the opposite side frame of the ecological door 340. Wherein, the second micro ventilation inlet 345 is arranged between the fresh air inlet and the air supply terminal 120, and the second micro ventilation outlet 344 is arranged between the turbid air outlet and the air supply terminal 120.

While the preferred embodiment of the present utility model has been described in detail, the utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. An indoor ecological environment system applied to an indoor space, comprising:

The ecological enclosure component is provided with a first connecting surface, a fresh air inlet and a turbid air outlet, wherein the first connecting surface is used for being installed on the side wall opening of the indoor space;

An air supply terminal having a second connection surface for being installed at a lower portion of the indoor space;

The air return end is provided with a third connecting surface used for being installed at the upper part of the indoor space, and the air return end and the air supply end are respectively positioned at two opposite sides of the ecological enclosure component in a first direction, and the first direction is perpendicular to the up-down direction;

an air conditioner having a first installation part for installation at an upper part of an indoor space;

The ecological regulator is provided with a second installation part, a fresh air port, a turbid air port, an air return port and an air supply port, wherein the second installation part, the fresh air port, the turbid air port, the air return port, the air supply port and the air supply port are arranged on the upper part of an indoor space, the fresh air port is communicated with the fresh air inlet, the turbid air port is communicated with the turbid air outlet, the air return port is communicated with the tail end of the air return port, and the air supply port is communicated with the tail end of the air supply port.

2. The indoor ecological environment system of claim 1, wherein the ecological enclosure member is an ecological window, the ecological window is provided with an air supply cavity, the air supply terminal is arranged at the lower end of the ecological window, and the air supply cavity is respectively communicated with the air supply port and the air supply terminal.

3. The indoor ecological environment system of claim 2, wherein the fresh air inlet and the turbid air outlet are located on opposite sides of the ecological window, respectively, and the air supply cavity is located between the fresh air inlet and the turbid air outlet.

4. An indoor ecological environment system according to claim 3, wherein the ecological window is provided with a micro ventilation inlet and a micro ventilation outlet, the micro ventilation inlet being located below the fresh air inlet, the micro ventilation outlet being located below the turbid air outlet.

5. The indoor ecological environment system of claim 1, wherein the ecological enclosure member is an ecological window, the two opposite sides of the ecological window are provided with the turbid wind outlet and the fresh wind inlet, and the fresh wind inlet is positioned below the turbid wind outlet.

6. The indoor ecological environment system of claim 5, wherein the two opposite sides of the ecological window are provided with a micro ventilation inlet and a micro ventilation outlet, the micro ventilation outlet is located below the turbid wind outlet, and the micro ventilation inlet is located between the micro ventilation outlet and the fresh air inlet.

7. The indoor ecological environment system of claim 1, wherein the ecological enclosure member is an ecological door, the fresh air inlet and the turbid air outlet are both arranged at the upper end of the ecological door, and the fresh air inlet and the turbid air outlet are respectively arranged at two opposite sides of the ecological door.

8. The indoor ecological environment system of claim 7, wherein the ecological door is provided with a micro-ventilation inlet and a micro-ventilation outlet, the micro-ventilation inlet and the micro-ventilation outlet being located between the turbid wind outlet and the fresh wind inlet.

9. The indoor ecological environment system of claim 1, wherein the ecological enclosure member is an ecological door, the fresh air inlet and the turbid air outlet are respectively positioned on two opposite sides of the ecological door, the two opposite sides of the ecological door are provided with the air supply tail ends, and the air supply tail ends are positioned below the fresh air inlet.

10. The indoor ecological environment system of claim 9, wherein the two opposite sides of the ecological door are respectively provided with a micro-ventilation inlet and a micro-ventilation outlet, wherein the micro-ventilation inlet is positioned between the fresh air inlet and the air supply terminal, and the micro-ventilation outlet is positioned between the turbid air outlet and the air supply terminal.