CN215113065U - Modular freely-combined ventilation machine core and integrated window - Google Patents

Abstract

The utility model discloses a modular freely combined ventilation movement and an integrated window, belonging to the technical field of fresh air, comprising a control module and at least two indoor air inlet modules which are mutually independent; the control module comprises a first box body, an outdoor air inlet chamber and a control chamber are arranged in the first box body, an outdoor air inlet communicated with the outdoor air inlet chamber is arranged on the outdoor air inlet chamber, the indoor air inlet module comprises a second box body, a first ventilation chamber and an indoor air inlet chamber are arranged from the back to the front in the second box body, the indoor air inlet chamber sequentially comprises an air passing chamber, a filter chamber and a first fan chamber which are communicated along the wind direction of the first ventilation chamber, the air passing chamber is communicated with the first ventilation chamber, a first fan is arranged in the first fan chamber, and an air outlet is formed in the first fan chamber; the first ventilation chambers of the adjacent indoor air inlet modules are communicated to form a ventilation channel, the ventilation channel is communicated with the air passing hole, the first fan is started, and outdoor air passes through the control module, the ventilation channel, the air passing chamber, the filter chamber and the first fan chamber in sequence and is conveyed to the indoor space.

Description

Modular freely-combined ventilation machine core and integrated window

Technical Field

The utility model relates to a new trend technical field especially relates to a but ventilation core and integrative window of modularization independent assortment.

Background

At present, the products of the fresh air purification integrated window in various forms can filter outdoor air into clean natural air to be supplied to the room under the condition that the door and the window are closed, and simultaneously discharge the polluted air in the room to the outside, thereby completing organized air inlet and exhaust and replacing window opening ventilation.

At present, the ventilation core that is located integrative window all is integral, but every customer's house type is different, regional climate is different, the space size is different, the required function of customer is different etc. leads to the functional requirement of every fan also can be different, and the functional requirement includes: the functions of air quantity, air exhaust, auxiliary heating, heat recovery, disinfection and the like are all included and produced in batches, the price is higher, and the function which is not needed by a customer also exists, namely, the function which is not needed by the customer is forcibly sold, so that the customer is dissatisfied. And come the ventilation core of different functions of selection according to customer's demand, make all needs like this at every turn, it is slower to produce like this, and the commonality is relatively poor, and when this ventilation core damaged, need take off whole ventilation core and send the maintenance, lead to can not use this integrative window in the short time.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists in the above-mentioned problem, the utility model provides a but ventilation core and integrative window of modularization independent assortment.

In order to achieve the above object, the present invention provides a modular ventilation mechanism capable of being freely combined, including:

the control module and the at least two indoor air inlet modules are independent from each other;

the control module comprises a first box body, an outdoor air inlet chamber and a control chamber are arranged in the first box body, an outdoor air inlet communicated with the outdoor and an air passing hole communicated with the air inlet module are formed in the outdoor air inlet chamber, and a control device is arranged in the control chamber;

the indoor air inlet module comprises a second box body, a first ventilation chamber and an indoor air inlet chamber are arranged in the second box body from back to front, the indoor air inlet chamber sequentially comprises an air passing chamber, a filter chamber and a first fan chamber which are communicated along the wind direction of the first ventilation chamber, the air passing chamber is communicated with the first ventilation chamber, a first fan is arranged in the first fan chamber, and an indoor air outlet communicated with the indoor space is formed in the first fan chamber;

the first ventilation chamber of the adjacent indoor air inlet module is communicated to form a ventilation channel, the ventilation channel is communicated with the air passing hole, the control device controls the first fan to start the first fan, and outdoor air sequentially passes through the control module, the ventilation channel, the air passing chamber, the filtering chamber and the first fan chamber and is conveyed indoors.

Preferably, a filtering device is arranged in the filtering chamber, and the filtering device is arranged in the filtering chamber in a pulling and inserting mode.

Preferably, the indoor circulating system further comprises an indoor circulating module, wherein the indoor circulating module comprises a third box body, the third box body is provided with a second ventilation chamber and an indoor circulating chamber from back to front, and the indoor circulating chamber sequentially comprises a recovery chamber, a purification chamber and a second fan chamber which are communicated along the wind direction of the second ventilation chamber; the recovery chamber is not communicated with the second air ventilation chamber, a recovery port communicated with the interior of the room is formed in the recovery chamber, a second fan is arranged in the second fan chamber, and a circulating air outlet communicated with the interior of the room is formed in the second fan chamber;

the second ventilation chamber is communicated with the first ventilation chamber to form the ventilation channel, and the control device controls the second fan.

Preferably, a purification device is arranged in the purification chamber, and the purification device is arranged in the purification chamber in a drawing and inserting mode.

Preferably, still include with the indoor module of airing exhaust of control module intercommunication, control module still be equipped with the room of airing exhaust in the first box, be equipped with outdoor air outlet on the room of airing exhaust, the indoor module of airing exhaust includes fourth box, exhaust duct and exhaust fan, be equipped with the air outlet with indoor intercommunication on the fourth box, exhaust duct one end with fourth box intercommunication, the other end with accuse exhaust duct intercommunication, just the exhaust fan is located it is indoor to air exhaust, controlling means controls the exhaust fan.

Preferably, the exhaust duct is an aluminum alloy duct.

Preferably, the outdoor air inlet is arranged at the bottom of the first box body, an air inlet device is arranged in the outdoor air inlet chamber, and the air inlet device comprises a shell with an opening, a wind shield arranged on the shell in a sliding manner and a driver for driving the wind shield to move;

the air conditioner comprises a shell, a wind shield, a driver and a fan, wherein the shell is provided with an opening, one end of the shell is buckled above an outdoor air inlet, a first air inlet groove is formed in the side face of the shell, the wind shield is provided with a second air inlet groove corresponding to the first air inlet groove, and the driver drives the wind shield to move so that the wind shield shields the first air inlet groove or opens the first air inlet groove.

Preferably, the outdoor air inlet chamber is provided with the auxiliary heating device for heating cold air entering the outdoor air inlet chamber.

Preferably, the utility model also provides an integrative window, including the aforesaid but the modularization independent assortment's ventilation core.

Compared with the prior art, the beneficial effects of the utility model are that:

the ventilation machine core is formed by combining a plurality of mutually independent modules, and comprises a control module, an indoor air inlet module, an indoor circulating module and an indoor air exhaust module, the production can be carried out in batch, the processing time is shortened, different modules can be combined according to the requirements of customers to realize the functions of different ventilation machine cores, the requirements of different customers can be met, and when the ventilation machine core is damaged, the damaged module is directly replaced, so that the maintenance is more convenient;

indoor circulation module and indoor air inlet module have realized indoor circulation function and outdoor circulation function, and indoor circulation can greatly reduced ventilates the energy consumption of core, and installs different purifier in indoor circulation function clean room and can be used to get rid of indoor formaldehyde, stink etc..

Drawings

Fig. 1 is a schematic structural view of the modular freely combinable ventilation movement of the present invention;

fig. 2 is a schematic structural diagram of the control module of the present invention;

fig. 3 is a schematic structural diagram of another angle of the control module of the present invention;

fig. 4 is a schematic structural diagram of the indoor air intake module of the present invention;

fig. 5 is a schematic structural view of another angle of the indoor air intake module of the present invention;

fig. 6 is a schematic structural diagram of the indoor circulation module of the present invention;

fig. 7 is a schematic structural view of another angle of the indoor circulating module of the present invention;

fig. 8 is a schematic structural view of the modular freely combinable ventilator core at another angle according to the present invention.

Reference numerals:

1. a control module; 2. an indoor circulation module; 3. an indoor air inlet module; 4. an indoor air exhaust module; 11. an outdoor air inlet chamber; 12. a control room; 13. an exhaust chamber; 111. an air intake device; 112. air passing holes; 113. an outdoor air inlet; 114. an outdoor air outlet; 1111. a housing; 1112. a wind deflector; 1113. a driver; 121. a control device; 131. an exhaust fan; 31. a first ventilation chamber; 32. an indoor air inlet chamber; 321. an air passing chamber; 322. a filtering chamber; 323. a first fan chamber; 324. a first fan; 325. a filtration device; 21. a second ventilation chamber; 22. an indoor circulation chamber; 221. a recovery chamber; 222. a clean room; 223. a second fan chamber; 224. a second fan; 225. a purification device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention is described in further detail below with reference to figures 1-8:

as shown in fig. 1, the utility model provides a but ventilation core of modularization independent assortment includes:

the indoor air inlet system comprises a control module 1 and at least two indoor air inlet modules 3 which are mutually independent;

specifically, control module 1 equals with indoor air inlet module 3's width and height, and control module 1 and indoor air inlet module 3 are connected and are connected through fixture block and draw-in groove cooperation, and indoor air inlet module 3 also are connected through fixture block and draw-in groove cooperation, connect convenient high-speed joint equipment like this.

Further, still include indoor circulation module 2 or indoor module 4 of airing exhaust, this ventilation core can come the function of free combination lid ventilation core according to customer's demand promptly, when the ventilation core damages, can directly replace a module of damage in addition, need not take off all ventilation cores when having increased the life-span of ventilation core and maintaining for the customer can use this ventilation core at any time, the trouble of bringing when having reduced the maintenance, increased the popularity, more suitable popularization.

Referring to fig. 2 and 3, the control module 1 includes a first box, an outdoor air inlet chamber 11 and a control chamber 12 are disposed in the first box, the outdoor air inlet chamber 11 is provided with an outdoor air inlet 113 communicated with the outdoor and an air passing hole 112 communicated with the air inlet module, and a control device 121 is disposed in the control chamber 12;

furthermore, the outdoor air inlet 113 is arranged at the bottom of the first box, an air inlet device 111 is arranged in the outdoor air inlet chamber 11, and the air inlet device 111 comprises a housing 1111 with an opening, a wind shield 1112 arranged on the housing 1111 in a sliding manner, and a driver 113 for driving the wind shield 1112 to move;

the height of the casing 1111 is lower than that of the first box, one end of the casing 1111, which is provided with an opening, is buckled above the outdoor air inlet 113, a first air inlet groove is formed in the side surface of the casing 1111, the wind shield 1112 is provided with a second air inlet groove corresponding to the first air inlet groove, and the driver 113 drives the wind shield 1112 to move so that the wind shield 1112 shields the first air inlet groove or opens the first air inlet groove.

The method specifically comprises the following steps: the driver 113 is a motor and is arranged above the shell 1111, and the baffle wind is arranged on one side of the shell 1111 in a sliding manner and can move up and down along the shell 1111; a rotating rod is sleeved on an output shaft of the motor, one end of the rotating rod is connected with the output shaft of the motor, and the other end of the rotating rod is connected with a wind shield 1112; that is, the motor rotates and drives the rotating rod to move, and then the wind screen 1112 is driven to move, when the bottom end of the wind screen 1112 contacts the bottom of the first box body, the second air inlet groove corresponds to the first air inlet groove on the housing 1111, that is, outdoor air flows into the outdoor air inlet chamber 11; when the wind blocking plate 1112 moves upward under the driving of the motor, the first air inlet groove and the second air inlet groove can be completely blocked, and outdoor air cannot enter the room. By the air intake device 111, it is possible to select when and when the weather is to be used to realize the flow of indoor and outdoor air. Through the structure, the air inlet device 111 is positioned in the first box body and cannot be influenced by bad weather such as rain or ice and snow, and the existing air inlet device 111 is generally positioned outdoors and is easy to damage.

Still further, an auxiliary heating device for heating cold air entering the outdoor air inlet chamber 11 is arranged in the outdoor air inlet chamber 11. The auxiliary heating device is preferably arranged at a place contacting with the ventilation duct, namely when the indoor temperature is low, the auxiliary heating device is started, the temperature of the air flowing into the room is high, and the room is more comfortable. The control device 121 controls the auxiliary heating devices individually.

Referring to fig. 4 and 5, the indoor air intake module 3 includes a second box body, a first ventilation chamber 31 and an indoor air intake chamber 32 are arranged in the second box body from back to front, the indoor air intake chamber 32 sequentially includes an air passing chamber 321, a filter chamber 322 and a first fan chamber 323 which are communicated along the air direction of the first ventilation chamber 31, the air passing chamber 321 is communicated with the first ventilation chamber 31, a first fan 324 is arranged in the first fan chamber 323, and an indoor air outlet communicated with the indoor is arranged on the first fan chamber 323; according to the structure, the first ventilation chamber 31 is far away from the indoor end, the ventilation channel is far away from the indoor, the indoor and outdoor sound insulation effect is better, the air flow length is increased through the structure, and noise is not generated. In addition, the cross-sectional area of the first ventilation chamber 31 is much larger than that of the air passing chamber 321, so that it is ensured that the air flow in the ventilation duct is slow, no noise is generated, and the uniform intake of each indoor intake module 3 is satisfied.

Specifically, a filtering device 325 is arranged in the filtering chamber 322, and the filtering device 325 is inserted into the filtering chamber 322, and the filtering device 325 sequentially comprises activated carbon, HEPA and coarse filter cotton. In addition, other devices, such as a haze removal device, a dust removal and removal device and the like can be added according to the environmental requirements.

The first ventilation chambers 31 of the adjacent indoor air inlet modules 3 are communicated to form a ventilation channel, the ventilation channel is communicated with the air passing hole 112, the control device 121 controls the first fan 324, the first fan 324 is started, and outdoor air passes through the control module 1, the air channel, the air passing chamber 321, the filter chamber 322 and the first fan chamber 323 in sequence and is delivered to the indoor space.

Referring to fig. 6 and 7, the indoor circulating module 2 is further included, the indoor circulating module 2 includes a third box body, the third box body is provided with a second ventilation chamber 21 and an indoor circulating chamber 22 from back to front, and the indoor circulating chamber 22 sequentially includes a recovery chamber 221, a purification chamber 222 and a second fan chamber 223 which are communicated with each other along the wind direction of the second ventilation chamber 21; the recovery chamber 221 is not communicated with the second air ventilation chamber 21, a recovery port communicated with the interior of the room is formed in the recovery chamber 221, a second fan 224 is arranged in the second fan chamber 223, and a circulating air outlet communicated with the interior of the room is formed in the second fan chamber 223;

specifically, the recycling port is formed by a plurality of small vent holes on the third box body.

Wherein, the second ventilation chamber 21 is communicated with the first ventilation chamber 31 to form a ventilation channel, and the control device 121 controls the second fan 224. In the above structure, the second ventilation chamber 21 is not communicated with the indoor circulation chamber 22, that is, the indoor air passes through the recovery chamber 221, passes through the purification chamber 222 and the second fan chamber 223 in sequence, and is blown into the indoor through the circulation outlet. That is, the ventilation movement of the present application increases the function of indoor circulation, and a purification device 225 is disposed in the purification chamber 222, the purification device 225 is inserted into the purification chamber 222, and the purification device 225 may be herbal medicine for removing formaldehyde (for example, the purification medium of patent zl.2012.1.0254351.6), or herbal medicine for increasing fragrance, or herbal medicine for repelling mosquitoes, and the like. The control device 121 controls the second fan 224 individually, i.e. the user can select the function to be used according to the requirement. The indoor circulation module 2 adds the function of the ventilator core, and a purification device 225 is added in the purification chamber 222 according to the requirement, so as to meet the requirement of the customer. In addition, when winter or summer days, the indoor circulation module 2 may be used to reduce power consumption by having air in the room.

Referring to fig. 8, still include the indoor module 4 of airing exhaust with control module 1 intercommunication, still be equipped with the room 13 of airing exhaust in control module 1's the first box, be equipped with outdoor air outlet 114 on the room 13 of airing exhaust, indoor module 4 of airing exhaust includes the fourth box, exhaust duct and exhaust fan 131, be equipped with the air outlet with indoor intercommunication on the fourth box, exhaust duct one end and fourth box intercommunication, the other end and accuse room 13 intercommunication of airing exhaust, and exhaust fan 131 locates in the room 13 of airing exhaust, controlling means 121 controls exhaust fan 131.

Specifically, the exhaust duct is located the top of air duct, and the exhaust duct is the aluminum alloy pipeline, can realize the heat exchange like this. The air outlet is provided with a plurality of small vent holes on the fourth box body.

The invention also provides an integrated window which comprises the built-in hidden ventilation movement with the modularized freely-combined function.

According to the above content, the ventilation machine core is formed by combining a plurality of mutually independent modules, and comprises the control module 1, the indoor air inlet module 3, the indoor circulating module 2 and the indoor air exhaust module 4, the production can be carried out in batch, the processing time is shortened, different modules can be combined according to the requirements of customers, the functions of different ventilation machine cores can be realized, and the requirements of different customers can be met.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A modular freely combined ventilator core is characterized by comprising a control module and at least two indoor air inlet modules which are mutually independent;

the control module comprises a first box body, an outdoor air inlet chamber and a control chamber are arranged in the first box body, an outdoor air inlet communicated with the outdoor and an air passing hole communicated with the air inlet module are formed in the outdoor air inlet chamber, and a control device is arranged in the control chamber;

the indoor air inlet module comprises a second box body, a first ventilation chamber and an indoor air inlet chamber are arranged in the second box body from back to front, the indoor air inlet chamber sequentially comprises an air passing chamber, a filter chamber and a first fan chamber which are communicated along the wind direction of the first ventilation chamber, the air passing chamber is communicated with the first ventilation chamber, a first fan is arranged in the first fan chamber, and an indoor air outlet communicated with the indoor space is formed in the first fan chamber;

the first ventilation chamber of the adjacent indoor air inlet module is communicated to form a ventilation channel, the ventilation channel is communicated with the air passing hole, the control device controls the first fan to start the first fan, and outdoor air sequentially passes through the control module, the ventilation channel, the air passing chamber, the filtering chamber and the first fan chamber and is conveyed indoors.

2. The modular freely combinable ventilator core according to claim 1, wherein a filter device is provided in said filter chamber, and said filter device is removably inserted into said filter chamber.

3. The modular freely combinable ventilator core according to claim 1, further comprising an indoor circulation module, wherein the indoor circulation module comprises a third box body, the third box body is provided with a second ventilation chamber and an indoor circulation chamber from back to front, and the indoor circulation chamber sequentially comprises a recovery chamber, a purification chamber and a second fan chamber which are communicated along the wind direction of the second ventilation chamber; the recovery chamber is not communicated with the second air ventilation chamber, a recovery port communicated with the interior of the room is formed in the recovery chamber, a second fan is arranged in the second fan chamber, and a circulating air outlet communicated with the interior of the room is formed in the second fan chamber;

the second ventilation chamber is communicated with the first ventilation chamber to form the ventilation channel, and the control device controls the second fan.

4. The modular freely combinable ventilator core according to claim 3, wherein a purification device is provided in the purification chamber, and the purification device is inserted into the purification chamber.

5. The modular freely combinable ventilator core according to claim 1 or 3, further comprising an indoor exhaust module communicated with the control module, wherein an exhaust chamber is further arranged in the first box of the control module, an outdoor air outlet is arranged on the exhaust chamber, the indoor exhaust module comprises a fourth box, an exhaust duct and an exhaust fan, an air outlet communicated with the indoor is arranged on the fourth box, one end of the exhaust duct is communicated with the fourth box, the other end of the exhaust duct is communicated with the exhaust chamber, the exhaust fan is arranged in the exhaust chamber, and the control device controls the exhaust fan.

6. The modular freely combinable ventilator core of claim 5 wherein said exhaust duct is an aluminum alloy duct.

7. The modular freely combinable ventilator core according to claim 1, wherein the outdoor air inlet is disposed at the bottom of the first box, and an air inlet device is disposed in the outdoor air inlet chamber, and the air inlet device includes a housing having an opening, a wind shield slidably disposed on the housing, and a driver for driving the wind shield to move;

the air conditioner comprises a shell, a wind shield, a driver and a fan, wherein the shell is provided with an opening, one end of the shell is buckled above an outdoor air inlet, a first air inlet groove is formed in the side face of the shell, the wind shield is provided with a second air inlet groove corresponding to the first air inlet groove, and the driver drives the wind shield to move so that the wind shield shields the first air inlet groove or opens the first air inlet groove.

8. The modular freely combinable ventilation cartridge of claim 1 wherein an auxiliary heating means is provided in said outdoor air intake chamber for heating cool air entering said outdoor air intake chamber.

9. An integrated window, comprising a modular, freely combinable, ventilator cartridge according to any one of claims 1-8.

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