CN214891689U - Indoor all-air treatment system of building - Google Patents

Abstract

The utility model relates to the technical field of indoor environment regulation and improvement equipment, in particular to a building indoor total air treatment system, which comprises a cooling and heating air conditioner host, an indoor unit, an air supply pipeline and an air return pipeline, wherein the indoor unit comprises a total heat exchanger, an air return machine, an air feeder and an evaporator which are arranged in a shell, the air return machine draws indoor air back from the air return pipeline, the return air is distributed by an electric air valve, the fresh air with a proper proportion is subjected to dust removal treatment through a high-voltage electrostatic dust removal grid, the temperature of the fresh air is adjusted or dehumidified through an evaporator after dust removal, an air feeder sends the air treated by the evaporator into an air supply pipeline, therefore, the indoor environment is adjusted, the air flowing back indoors and the air to be sent into the room pass through the total heat exchanger, the total heat exchanger is used for recycling the heat of the flowing back air to realize preheating recycling, and a humidifying atomizer and a humidifying curtain used for humidifying the air are further installed in the shell.

Description

Indoor all-air treatment system of building

Technical Field

The utility model relates to an indoor environmental conditioning improves equipment technical field, concretely relates to building indoor air treatment system entirely.

Background

The state of indoor environment has direct influence to the human body, and the air is dry or wet, the high temperature or cross low enough comfort level that all can influence living, and most buildings all can install the air conditioner at present and adjust indoor environment, but the air conditioner uses for a long time can, because indoor air does not change with the external world, can make the indoor air quality reduce, consequently needs an indoor air treatment device who has adjustable indoor humiture and air quality.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides an indoor all-air processing system for buildings, which comprises a cooling and heating air conditioner host, an indoor unit, an air supply pipeline and an air return pipeline, wherein the indoor unit comprises a full heat exchanger, a return fan, an air feeder and an evaporator which are arranged in a shell, the return fan draws the indoor air back from the air return pipeline, the return air is distributed by an electric air valve, the fresh air with a proper proportion is subjected to dust removal treatment through a high-voltage electrostatic dust removal grid, the temperature of the fresh air is adjusted or dehumidified through an evaporator after dust removal, an air feeder sends the air treated by the evaporator into an air supply pipeline, therefore, the indoor environment is adjusted, the air flowing back indoors and the air to be sent into the room pass through the total heat exchanger, the total heat exchanger is used for recycling the heat of the flowing back air to realize preheating recycling, and a humidifying atomizer and a humidifying curtain used for humidifying the air are further installed in the shell.

The utility model provides an indoor all-air processing system for buildings, which comprises a cooling and heating air conditioner host, an indoor unit, an air supply pipeline and an air return pipeline, wherein the indoor unit comprises a full heat exchanger, an air return fan, an air supply fan and an evaporator which are arranged in a shell, and the evaporator is communicated with the cooling and heating air conditioner host; one end of the return air pipeline is positioned in a building room, the other end of the return air pipeline is communicated with a return air inlet of the total heat exchanger, a second primary filter is arranged on the return air pipeline, an air inlet of the return air fan is communicated with a return air outlet of the total heat exchanger, an air outlet of the return air fan is communicated with one end of a connecting pipeline, the other end of the connecting pipeline penetrates through the evaporator and is communicated with an air inlet of the air feeder, an exhaust pipe and a fresh air pipe are connected onto the connecting pipeline, an electric air valve is arranged on the connecting pipeline between the air inlet pipe and the fresh air pipe, and a high-voltage electrostatic dust removal grid is arranged on the connecting pipeline between the fresh air pipe and the evaporator; the air outlet of the air feeder is communicated with the air supply inlet of the total heat exchanger, the air supply outlet of the total heat exchanger is communicated with a static pressure sound-muffling box arranged outside the shell through a middle pipe, one end of an air supply pipeline is communicated with the static pressure sound-muffling box, the other end of the air supply pipeline is positioned in a building room, a water adding pipe, a pure water filter and a humidifying atomizer are further arranged in the shell, the water adding pipe is communicated with the humidifying atomizer through the pure water filter, the humidifying atomizer is communicated with the inside of the middle pipe, and a humidifying curtain is detachably arranged inside the middle pipe.

Further, a UV germicidal lamp is further installed on the middle pipe.

Further, install temperature sensor, humidity transducer and air detection probe in the return air pipeline, temperature sensor, humidity transducer and air detection probe all are connected with control center electricity, and control center still is connected with total heat exchanger, return air fan, electronic blast gate, exchange assembly, forced draught blower and the equal electricity of humidification atomizer.

Further, the total heat exchanger is an aluminum total heat air exchanger.

Compared with the prior art, the utility model discloses the beneficial effect who has: the device can adjust the temperature and the humidity of the indoor air to enable the indoor environment to be in a proper state, and can discharge the air with poor quality according to the detection result, adjust the quantity of the circulating air and the newly introduced air, thereby improving and adjusting the indoor air and enabling the indoor air to be in a good state.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

the labels in the figure are: 1. the air conditioner comprises a cooling and heating air conditioner main machine, 2, a shell, 3, an air supply pipeline, 4, an air return pipeline, 5, a total heat exchanger, 6, an air return fan, 7, a blower, 8, an evaporator, 9, a connecting pipeline, 10, an exhaust pipe, 11, a fresh air pipe, 12, an electric air valve, 13, a water adding pipe, 14, a pure water filter, 15, a humidifying atomizer, 16, a humidifying curtain, 17, a static pressure sound-eliminating box, 18, a UV sterilizing lamp, 19, a high-voltage electrostatic dust-removing grid, 20, a first primary filter, 21, a second primary filter, 22 and an intermediate pipe.

Detailed Description

As shown in the figure: an indoor all-air processing system for a building comprises a cooling and heating air conditioner host, an indoor unit, an air supply pipeline and an air return pipeline, wherein the indoor unit comprises an all-heat exchanger, an air return fan, an air feeder and an evaporator which are arranged in a shell, and the evaporator is communicated with the cooling and heating air conditioner host through a heat insulation pipe; one end of the return air pipeline is positioned in a building room, the other end of the return air pipeline is communicated with a return air inlet of the total heat exchanger, a second primary filter is arranged on the return air pipeline, an air inlet of the return air fan is communicated with a return air outlet of the total heat exchanger, an air outlet of the return air fan is communicated with one end of a connecting pipeline, the other end of the connecting pipeline penetrates through the evaporator and is communicated with an air inlet of the air feeder, an exhaust pipe and a fresh air pipe are connected onto the connecting pipeline, an electric air valve is arranged on the connecting pipeline between the air inlet pipe and the fresh air pipe, and a high-voltage electrostatic dust removal grid is arranged on the connecting pipeline between the fresh air pipe and the evaporator; the air outlet of the air feeder is communicated with the air supply inlet of the total heat exchanger, the total heat heater is an aluminum total heat air exchanger, the air supply outlet of the total heat exchanger is communicated with a static pressure sound-muffling box arranged outside the shell through a middle pipe, one end of an air supply pipeline is communicated with the static pressure sound-muffling box, the other end of the air supply pipeline is positioned in a building room, a water adding pipe, a pure water filter and a humidifying atomizer are further arranged in the shell, the water adding pipe is communicated with the humidifying atomizer through the pure water filter, the humidifying atomizer is communicated with the inside of the middle pipe, a humidifying curtain is detachably arranged inside the middle pipe, and a UV sterilizing lamp is further arranged between the humidifying curtain and the static pressure sound-muffling box on the middle pipe.

The air return pipeline is internally provided with a temperature sensor, a humidity sensor and an air detection probe which are all electrically connected with the control center, and the control center is also electrically connected with the total heat exchanger, the air return fan, the electric air valve, the exchange assembly, the air feeder and the humidifying atomizer. The control center is used for comprehensively adjusting the working mode of the equipment, the control center can be a control main board integrated with a single chip microcomputer chip, the detection results of the temperature sensor, the humidity sensor and the air detection probe in the air return pipeline can be sent to the control center, and the working states of the total heat exchanger, the air return fan, the electric air valve, the cooling and heating air conditioner host machine, the air feeder and the humidifying atomizer are adjusted through the control center.

This device has five kinds of mode of indoor temperature regulation mode, indoor new trend mode of taking a breath, indoor new trend purification mode, indoor new trend dehumidification mode and indoor new trend humidification mode, can switch in above-mentioned mode through the regulation of control center to corresponding component:

in an indoor temperature adjustment mode: when the return air temperature in the return air pipeline is higher, the temperature of the air in the connecting pipeline is reduced by adjusting the cooling and heating air conditioner host and the evaporator through the control center, so that the indoor temperature is reduced by reducing the temperature of the air in the supply air pipeline; when the return air temperature in the return air pipeline is lower, the temperature of the air in the connecting pipeline is raised by adjusting the cooling and heating air conditioner host and the evaporator through the control center, so that the indoor temperature is raised by raising the temperature of the air in the air supply pipeline, and the indoor temperature is always in a proper range;

indoor new trend mode of taking a breath: in the operation process of the equipment, an air detection probe detects the quality of return air in an air return pipeline, when the quality of the return air is poor, a control center adjusts the state of an electric air valve to block a connecting pipeline, the return air pumped back by a return fan is directly exhausted from an exhaust pipe, a blower works to draw fresh air from the outside through a fresh air pipe to enter a system, the fresh air entering the system from the fresh air pipe passes through a first primary filter and a high-voltage electrostatic dust removal grid for dust removal and filtration, the fresh air is sent into a room at proper temperature and humidity under the action of a cooling and heating air conditioner host, an evaporator and a total heat exchanger, and when the quality of the air in the air return pipeline is detected to be improved, the control center adjusts the state of the electric air valve to enable part of the return air to enter the system for recycling;

indoor new trend purifies under the mode: in the operation process of the equipment, a second primary filter of the return air pipeline filters return air, large-particle dust impurities in the air are screened out, an air detection probe in the return air pipeline detects the quality of the return air in the return air pipeline, a control center adjusts an electric air valve according to data detected by the air detection probe, a fresh air distribution proportion is set according to the air pollution degree, so that mixed air sent to a blower is air with good quality, the air entering a connecting pipe from a fresh air pipe is filtered by a first primary filter, the mixed air sent to a fan is subjected to temperature and humidity adjustment in an evaporator after passing through a high-voltage electrostatic dust removal grid, and indoor air is purified by continuously introducing clean air into a room;

indoor new trend dehumidification mode is down: when the humidity of the return air is higher than a set value, the cooling and heating air conditioner host drives the evaporator to be switched to a dehumidification mode, and the air blower sends the air subjected to dehumidification treatment into a room, so that the indoor environment is dehumidified;

under the indoor new trend humidification mode: in the equipment operation process, humidity transducer in the return air pipeline carries out humidity to the return air and detects, when the humidity of return air is less than the setting, the running water at filler extraction water source, the running water is sent into the humidification atomizer after pure water filter filters, the humidification atomizer sprays water into the humidification curtain that is located the intermediate conduit, the air fog is taken away when the humidification curtain to the air that the forced draught blower sent into supply air pipeline, thereby make and carry moisture in the indoor air of entering, the realization is to indoor humidification.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and although the present invention has been disclosed with the preferred embodiments, it is not limited to the present invention, and any skilled person in the art can make some modifications or equivalent changes without departing from the technical scope of the present invention.

Claims (4)

1. The utility model provides an indoor full air treatment system of building which characterized in that: the air conditioner comprises a cooling and heating air conditioner host, an indoor unit, an air supply pipeline and an air return pipeline, wherein the indoor unit comprises a total heat exchanger, an air return fan, an air feeder and an evaporator which are arranged in a shell, and the evaporator is communicated with the cooling and heating air conditioner host; one end of the return air pipeline is positioned in a building room, the other end of the return air pipeline is communicated with a return air inlet of the total heat exchanger, a second primary filter is arranged on the return air pipeline, an air inlet of the return air fan is communicated with a return air outlet of the total heat exchanger, an air outlet of the return air fan is communicated with one end of a connecting pipeline, the other end of the connecting pipeline penetrates through the evaporator and is communicated with an air inlet of the air feeder, an exhaust pipe and a fresh air pipe are connected onto the connecting pipeline, an electric air valve is arranged on the connecting pipeline between the air inlet pipe and the fresh air pipe, and a high-voltage electrostatic dust removal grid is arranged on the connecting pipeline between the fresh air pipe and the evaporator; the air outlet of the air feeder is communicated with the air supply inlet of the total heat exchanger, the air supply outlet of the total heat exchanger is communicated with a static pressure sound-muffling box arranged outside the shell through a middle pipe, one end of an air supply pipeline is communicated with the static pressure sound-muffling box, the other end of the air supply pipeline is positioned in a building room, a water adding pipe, a pure water filter and a humidifying atomizer are further arranged in the shell, the water adding pipe is communicated with the humidifying atomizer through the pure water filter, the humidifying atomizer is communicated with the inside of the middle pipe, and a humidifying curtain is detachably arranged inside the middle pipe.

2. The system for treating the whole air in the building room as claimed in claim 1, wherein: and the middle tube is also provided with a UV germicidal lamp.

3. The system for treating the whole air in the building room as claimed in claim 1, wherein: install temperature sensor, humidity transducer and air detection probe in the return air pipeline, temperature sensor, humidity transducer and air detection probe all are connected with control center electricity, and control center still is connected with the equal electricity of full heat exchanger, return air fan, electronic blast gate, exchange assembly, forced draught blower and humidification atomizer.

4. The system for treating the whole air in the building room as claimed in claim 1, wherein: the total heat exchanger is an aluminum total heat air exchanger.

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