CN112344478A

CN112344478A - Purify new trend all-in-one

Info

Publication number: CN112344478A
Application number: CN202011351076.0A
Authority: CN
Inventors: 李健
Original assignee: Zhejiang Anji Purification Technology Co ltd
Current assignee: Zhejiang Anji Purification Technology Co ltd
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2021-02-09

Abstract

The invention discloses a fresh air purifying integrated machine, wherein the upstream end of a first ventilation pipeline is arranged opposite to a ventilation grid net, the downstream end of the first ventilation pipeline is communicated to an air inlet of an air suction pump, an air monitor and an air filtering device are arranged on the first ventilation pipeline, the upstream end of a second ventilation pipeline is communicated to an air outlet of the air suction pump, the downstream end of the second ventilation pipeline is communicated to the external environment of a building, the upstream end of a third ventilation pipeline is communicated to the air outlet of the air suction pump or the second ventilation pipeline, the downstream end of the third ventilation pipeline is arranged opposite to a ventilation grid net, the upstream end of the fourth ventilation pipeline is communicated with the external environment of the building, the downstream end of the fourth ventilation pipeline is communicated to the first ventilation pipeline, and an air heater is arranged on the third ventilation pipeline in a matched mode. The invention has the advantages of realizing various fresh air supply modes and conveniently controlling the air flow.

Description

Purify new trend all-in-one

Technical Field

The invention relates to the technical field of air purification equipment, in particular to a fresh air purification all-in-one machine.

Background

With the development of industrialization and the increase of excited vehicles, the urban air quality is relatively poor, and the air purifier is applied to improve the air quality of the living environment and purify a fresh air machine. The traditional fresh air purifier is simple in mode when used for supplying fresh air, only can realize the purification circulation of indoor air, and the realization process is complex when outdoor air is purified and then supplied to the indoor space.

SUMMARY OF THE PATENT FOR INVENTION

Aiming at the defects in the prior art, the invention aims to provide the fresh air purifying all-in-one machine which can realize various fresh air supply modes and conveniently control the air flow.

The technical scheme adopted by the invention to achieve the purpose is as follows: a fresh air purifying integrated machine comprises a mounting base and a mounting shell, wherein the mounting base is fixedly mounted in an internal space of a building, the mounting shell is fixedly mounted on the mounting base, a ventilation grid net is mounted on the mounting shell in a matched manner, and the ventilation grid net is used for communicating the internal space of the building with an internal space formed by the mounting shell and the mounting base;

an air suction pump, an air filtering device, a first ventilation pipeline, a second ventilation pipeline, a third ventilation pipeline, a fourth ventilation pipeline, an air heater and an air detector are arranged on the inner side of the mounting shell, the upstream end of the first ventilation pipeline is arranged opposite to the ventilation grid net, the downstream end of the first ventilation pipeline is communicated with an air inlet of the air suction pump through the air detector, the air filtering device and the air inlet of the air suction pump which are sequentially communicated, the upstream end of the second ventilation pipeline is communicated to an exhaust port of the air suction pump, the downstream end of the second ventilation pipeline is communicated to the external environment of the building, the upstream end of the third ventilation pipeline is communicated to the exhaust port of the air suction pump or the second ventilation pipeline, the downstream end of the third ventilation pipeline is arranged opposite to the ventilation grid net, the upstream end of the fourth ventilation pipeline is communicated to the external environment of the building, and the downstream end of the fourth ventilation pipeline is communicated to the first ventilation pipeline and arranged on the air filtering device, And the third ventilation pipeline is provided with the air heater in a matched manner.

The mounting base is provided with a threaded hole and is fixedly mounted in the internal space of the building through a fixing bolt inserted in the threaded hole.

The air extracting pump, the air filtering device, the air heater and the air detector are all fixedly installed on the installation base.

The downstream end pipe orifice of the second ventilation pipeline and the upstream end pipe orifice of the fourth ventilation pipeline face opposite directions, and the linear distance is larger than 1.5 m.

First solenoid switch valve is installed to the supporting on first ventilation pipeline, just fourth ventilation pipeline low reaches end sets up the downstream direction at first solenoid switch valve, the supporting second solenoid switch valve of installing on the second ventilation pipeline, just third ventilation pipeline low reaches end sets up the upstream direction at second solenoid switch valve, the supporting third solenoid switch valve of installing on the third ventilation pipeline, the supporting fourth solenoid switch valve of installing on the fourth ventilation pipeline.

The air extractor is characterized by further comprising a single chip microcomputer, and the first electromagnetic switch valve, the second electromagnetic switch valve, the third electromagnetic switch valve, the fourth electromagnetic switch valve, the air extracting pump, the air filtering device, the air heater and the air detector are all in signal data connection with the single chip microcomputer.

The single chip microcomputer is further connected with an infrared signal receiver in a signal mode, and the infrared signal receiver is connected with an infrared remote controller in a signal mode.

The invention has the beneficial effects that: the control signal is sent to the single chip microcomputer by the infrared signal receiver through the remote controller, and the single chip microcomputer controls the working states of the first electromagnetic switch valve, the second electromagnetic switch valve, the third electromagnetic switch valve, the fourth electromagnetic switch valve, the air suction pump, the air filtering device, the air heater and the air detector according to the working mode to be realized by the control signal, so that various fresh air supply modes can be effectively realized; the single chip microcomputer can adjust the air flow by controlling the opening and closing degrees of the electromagnetic switch valve, the second electromagnetic switch valve, the third electromagnetic switch valve and the fourth electromagnetic switch valve, the output power of the air extracting pump, the working states of the air heater and the air filtering device and the air quality data detected by the space detector.

Drawings

FIG. 1 is a schematic view of the mounting structure of the mounting base, the mounting housing and the ventilation grid net in the patent of the invention;

fig. 2 is a schematic view of a connection relationship among the first ventilation pipeline, the second ventilation pipeline, the third ventilation pipeline, and the fourth ventilation pipeline.

In the figure: the air purifier comprises a mounting base 1, a mounting shell 2, a ventilation grid net 3, an air pump 4, an air filtering device 5, a first ventilation pipeline 6, a second ventilation pipeline 7, a third ventilation pipeline 8, a fourth ventilation pipeline 9, an air inlet 10, an air outlet 11, a fixing bolt 12, a first electromagnetic switch valve 13, a second electromagnetic switch valve 14, a third electromagnetic switch valve 15, a fourth electromagnetic switch valve 16, an air heater 17 and an air detector 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments in the patent of the invention without any inventive work belong to the protection scope of the patent of the invention.

Referring to fig. 1-2, a fresh air purifying integrated machine comprises an installation base 1 and an installation shell 2, wherein the installation base 1 is fixedly installed in the internal space of a building, the installation shell 2 is fixedly installed on the installation base 1, a ventilation grid net 3 is installed on the installation shell 2 in a matched manner, and the ventilation grid net 3 is used for communicating the internal space of the building with the internal space formed by the installation shell 2 and the installation base 1;

an air suction pump 4, an air filtering device 5, a first ventilation pipeline 6, a second ventilation pipeline 7, a third ventilation pipeline 8, a fourth ventilation pipeline 9, an air heater 17 and an air detector 18 are arranged on the inner side of the mounting shell 2, the upstream end of the first ventilation pipeline 6 is arranged opposite to the ventilation grid net 3, the downstream end of the first ventilation pipeline 6 is communicated with an air inlet 10 of the air suction pump 4 through the air detector 18 and the air filtering device 5 which are sequentially communicated, the upstream end of the second ventilation pipeline 7 is communicated with an air outlet 11 of the air suction pump 4, the downstream end of the second ventilation pipeline 7 is communicated with the external environment of the building, the upstream end of the third ventilation pipeline 8 is communicated with the air outlet 11 of the air suction pump 4 or the second ventilation pipeline 7, the downstream end of the third ventilation pipeline 8 is arranged opposite to the ventilation grid net 3, and the upstream end of the fourth ventilation pipeline 9 is communicated with the external environment of the building, and the downstream end of the fourth ventilation pipeline 9 is communicated to the first ventilation pipeline 6 and is arranged at the upstream ends of the air filtering device 5 and the air detector 18, and the third ventilation pipeline 8 is provided with an air heater 17 in a matching way.

In the patent of the invention, a threaded hole is formed on a mounting base 1, the mounting base 1 is fixedly mounted in the internal space of a building through a fixing bolt 12 inserted in the threaded hole, and the mounting stability of the mounting base 1 is ensured;

the air pump 4, the air filtering device 5, the air heater 17 and the air detector 18 are all fixedly arranged on the mounting base 1, so that the stable installation of the air pump 4, the air filtering device 5, the air heater 17 and the air detector 18 is ensured;

the direction of the downstream end pipe orifice of the second ventilation pipeline 7 is opposite to that of the upstream end pipe orifice of the fourth ventilation pipeline 9, and the linear distance is greater than 1.5m, so that air exhausted from the second ventilation pipeline 7 is prevented from flowing back to the inner space of the building along the fourth ventilation pipeline;

a first electromagnetic switch valve 13 is arranged on the first ventilation pipeline 6 in a matched manner, the downstream end of a fourth ventilation pipeline 9 is arranged at the downstream direction of the first electromagnetic switch valve 13, a second electromagnetic switch valve 14 is arranged on the second ventilation pipeline 7 in a matched manner, the downstream end of a third ventilation pipeline 8 is arranged at the upstream direction of the second electromagnetic switch valve 14, a third electromagnetic switch valve 15 is arranged on the third ventilation pipeline 8 in a matched manner, and a fourth electromagnetic switch valve 16 is arranged on the fourth ventilation pipeline 9 in a matched manner;

the air extractor is characterized by also comprising a single chip microcomputer, wherein a first electromagnetic switch valve 13, a second electromagnetic switch valve 14, a third electromagnetic switch valve 15, a fourth electromagnetic switch valve 16, an air extracting pump 4, an air filtering device 5, an air heater 17 and an air detector 18 are connected with the single chip microcomputer in a signal data mode; the single chip microcomputer is also in signal connection with an infrared signal receiver, and the infrared signal receiver is in signal connection with an infrared remote controller; the working states of the first electromagnetic switch valve 13, the second electromagnetic switch valve 14, the third electromagnetic switch valve 15, the fourth electromagnetic switch valve 16, the air suction pump 4, the air filtering device 5, the air heater 17 and the air detector 18 are controlled through an infrared remote controller so as to adjust the working mode of the air suction device.

The working principle of the invention patent is as follows: when the air suction device is used, a control signal is sent to the single chip microcomputer from the infrared signal receiver through the infrared remote controller, and the single chip microcomputer controls the working states of the first electromagnetic switch valve 13, the second electromagnetic switch valve 14, the third electromagnetic switch valve 15, the fourth electromagnetic switch valve 16, the air suction pump 4, the air filtering device 5, the air heater 17 and the air detector 18 according to the working mode to be realized by the control signal;

when air in the internal space of the building needs to be discharged outside, the single chip microcomputer controls the first electromagnetic switch valve 13 and the second electromagnetic switch valve 14 to be in an open state, controls the third electromagnetic switch valve 15 and the fourth electromagnetic switch valve 16 to be in a closed state, controls the air suction pump 4 to work to enable the internal air to be directly discharged outside along the first ventilation pipeline 6 and the second ventilation pipeline 7, and controls the air filtering device 5 to filter and purify the discharged air when the discharged air is detected by the air monitor 18 and the quality of the discharged air is determined to be not up to the standard so as to ensure that the discharged air reaches the standard;

when the air in the internal space of the building needs to be filtered and circulated, the single chip microcomputer controls the first electromagnetic switch valve 13 and the fourth electromagnetic switch valve 16 to be in an open state, controls the second electromagnetic switch valve 14 and the third electromagnetic switch valve 15 to be in a closed state, controls the air suction pump 4 to work to enable the internal air to flow along the first ventilation pipeline 6 and the third ventilation pipeline 8, and controls the air filtering device 5 to filter and purify the circulating air to ensure that the circulating air reaches the standard when the circulating air is detected by the air detector 18 and the quality of the circulating air is determined to be not up to the standard; when the temperature of the circulating air led out by the third ventilation pipe 8 needs to be increased, an instruction is sent to the single chip microcomputer through the infrared remote controller, and the air heater 17 is controlled to heat the circulating air;

when air in the external environment of the building needs to be filtered and flows into the indoor environment, the single chip microcomputer controls the first electromagnetic switch valve 13 and the second electromagnetic switch valve 14 to be in a closed state, controls the third electromagnetic switch valve 15 and the fourth electromagnetic switch valve 16 to be in an open state, controls the air extracting pump 4 to work to enable external air to flow along the fourth air pipeline 9 and the third air pipeline 8 and enter the indoor environment, controls the air filtering device 5 to filter and purify the internal air when the quality of the internal air is detected and determined to be not up to standard by the air detector 18 so as to ensure that the internal air reaches the standard, and sends an instruction to the single chip microcomputer through the infrared remote controller and controls the air heater 17 to heat the internal air when the temperature of the internal air flowing through the third air pipeline 8 needs to be increased;

it should be noted that the single chip microcomputer can adjust the air flow rate by controlling the opening and closing degrees of the electromagnetic switch valve, the second electromagnetic switch valve 14, the third electromagnetic switch valve 15, and the fourth electromagnetic switch valve 16, and the output power of the air pump 4.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a purify new trend all-in-one which characterized in that: the building ventilation grid net structure comprises a mounting base (1) and a mounting shell (2), wherein the mounting base (1) is fixedly mounted in the internal space of a building, the mounting shell (2) is fixedly mounted on the mounting base (1), a ventilation grid net (3) is mounted on the mounting shell (2) in a matched manner, and the ventilation grid net (3) is used for communicating the internal space of the building with the internal space formed by the mounting shell (2) and the mounting base (1);

an air suction pump (4), an air filtering device (5), a first ventilation pipeline (6), a second ventilation pipeline (7), a third ventilation pipeline (8), a fourth ventilation pipeline (9), an air heater (17) and an air detector (18) are arranged on the inner side of the mounting shell (2), the upstream end of the first ventilation pipeline (6) is arranged opposite to the ventilation grid network (3), the downstream end of the first ventilation pipeline (6) is communicated with an air inlet (10) of the air suction pump (4) through the air detector (18) and the air filtering device (5) which are sequentially communicated, the upstream end of the second ventilation pipeline (7) is communicated with an exhaust port (11) of the air suction pump (4), the downstream end of the second ventilation pipeline (7) is communicated with the external environment of the building, the upstream end of the third ventilation pipeline (8) is communicated with the exhaust port (11) of the air suction pump (4) or the second ventilation pipeline (7), and the downstream end of the third ventilation pipeline (8) is arranged opposite to the ventilation grid net (3), the upstream end of the fourth ventilation pipeline (9) is communicated with the external environment of the building, the downstream end of the fourth ventilation pipeline (9) is communicated to the first ventilation pipeline (6) and is arranged at the upstream ends of the air filtering device (5) and the air detector (18), and the third ventilation pipeline (8) is provided with the air heater (17) in a matching way.

2. The fresh air purifying all-in-one machine as claimed in claim 1, wherein: the mounting base (1) is provided with a threaded hole, and the mounting base (1) is fixedly mounted in the internal space of the building through a fixing bolt (12) inserted in the threaded hole.

3. The fresh air purifying all-in-one machine as claimed in claim 2, wherein: the air pump (4), the air filtering device (5), the air heater (17) and the air detector (18) are all fixedly mounted on the mounting base (1).

4. The fresh air purifying all-in-one machine as claimed in claim 1, wherein: the downstream end pipe orifice of the second ventilation pipeline (7) and the upstream end pipe orifice of the fourth ventilation pipeline (9) face opposite directions, and the linear distance is larger than 1.5 m.

5. The fresh air purifying all-in-one machine as claimed in claim 1, wherein: first electromagnetic switch valve (13) is installed to supporting on first ventilation pipeline (6), just fourth ventilation pipeline (9) low reaches end sets up the downstream direction at first electromagnetic switch valve (13), second electromagnetic switch valve (14) is installed to supporting on second ventilation pipeline (7), just third ventilation pipeline (8) low reaches end sets up the upstream direction at second electromagnetic switch valve (14), third electromagnetic switch valve (15) are installed to supporting on third ventilation pipeline (8), fourth electromagnetic switch valve (16) are installed to supporting on fourth ventilation pipeline (9).

6. A fresh air purification all-in-one machine according to claim 5, characterized in that: the air extractor is characterized by further comprising a single chip microcomputer, and the first electromagnetic switch valve (13), the second electromagnetic switch valve (14), the third electromagnetic switch valve (15), the fourth electromagnetic switch valve (16), the air extracting pump (4), the air filtering device (5), the air heater (17) and the air detector (18) are all in signal data connection with the single chip microcomputer.

7. A fresh air purification all-in-one machine according to claim 6, characterized in that: the single chip microcomputer is further connected with an infrared signal receiver in a signal mode, and the infrared signal receiver is connected with an infrared remote controller in a signal mode.