CN109876611B

CN109876611B - Automatic air treatment device

Info

Publication number: CN109876611B
Application number: CN201910157177.5A
Authority: CN
Inventors: 张剑明; 林永暖
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-03-01
Filing date: 2019-03-01
Publication date: 2024-02-13
Anticipated expiration: 2039-03-01
Also published as: CN109876611A

Abstract

The automatic air treatment device comprises an air pipe and a shell, wherein the shell comprises a shell body with an opening at one end, an end cover, a first treatment cavity and a second treatment cavity which are arranged in the shell body, an air inlet one-way valve is arranged on an end plate of the first treatment cavity, and an air guide interface is arranged on an end plate of the second treatment cavity; the cover plate of the end cover is provided with an air duct; the drying machine comprises a shell, a first treatment cavity, a second treatment cavity, a drying agent A, a drying agent B and a filter screen, wherein the drying agent A is arranged in the first treatment cavity, the drying agent B is arranged in the second treatment cavity, one end of the filter screen is inserted into the shell, and the end part of a partition plate between the first treatment cavity and the second treatment cavity is attached to the filter screen; one end of the air pipe is inserted into the air pipe, the end cover is fixedly connected with the opening end of the shell, the air pipe passes through the through hole on the filter screen, and the other end of the air pipe is in butt joint with the air guide interface; the air outlet end of the air guide interface is sealed. When the ozone generator works, the air inlet one-way valve is communicated; stopping working, and stopping the air inlet one-way valve to prevent external air from entering; the state conversion is convenient, and the service life is prolonged; the replacement is convenient.

Description

Automatic air treatment device

Technical Field

The invention relates to an air treatment device, in particular to an air treatment device for an ozone generator.

Background

Currently, an air treatment device comprises an air pipe and a shell. The problems are: only filtering and purifying, but not drying air; air is affected by environment and climate, and contains dust, oil smoke and moisture, which seriously affect the ozone concentration and ozone yield of the ozone generator. Finally, the concentration and stability of the ozone water are affected. The existing air treatment device adopts compressed air for freeze drying treatment or adopts an oxygenerator, so that the device has large result volume and high cost and cannot be applied to the small-sized ozone generator project.

Disclosure of Invention

The purpose of the invention is that: the automatic air treatment device has the functions of filtering, purifying and drying air, is suitable for an ozone generator, and has the advantages of small volume and low cost.

The invention is realized in the following way: an automatic air treatment device comprises an air pipe and a shell, and is characterized in that: the shell comprises a shell body with an opening at one end, an end cover, a first processing cavity and a second processing cavity which are arranged in the shell body, wherein an air inlet one-way valve is arranged on an end plate of the first processing cavity, and an air guide interface is arranged on an end plate of the second processing cavity;

the cover plate of the end cover is provided with an air duct;

also comprises a drying agent A, a drying agent B and a filter screen,

the drying agent A is arranged in the first processing cavity, the drying agent B is arranged in the second processing cavity, one end of the filter screen is inserted into the shell, and the end part of the partition plate between the first processing cavity and the second processing cavity is attached to the filter screen; one end of the air pipe is inserted into the air pipe, the end cover is fixedly connected with the opening end of the shell, the air pipe passes through the through hole on the filter screen, and the other end of the air pipe is in butt joint with the air guide interface; the air outlet end of the air guide interface is sealed.

The automatic air treatment device is characterized in that: the air guide port is provided with an air outlet end, and the air guide port is provided with an air outlet end.

The automatic air treatment device is characterized in that: the electromagnetic valve core assembly is arranged at the lower part of the valve body, and the electromagnetic valve core assembly is connected with the air outlet cavity; the air inlet connector is communicated with the valve core cavity, and the air outlet connector is fixedly connected with the circumferential wall plate of the air outlet cavity; the electromagnetic valve core assembly is fixed on the upper opening of the valve core cavity, and a sealing gasket of the electromagnetic valve core assembly is matched with a circular valve port on the bottom plate of the valve core cavity to ensure air tightness; the second one-way valve core component is arranged in the lower end of the air outlet cavity; the air outlet end of the air duct is connected with the air inlet interface, and the air outlet end of the air duct is detachably connected with the air inlet interface.

The automatic air treatment device is characterized in that: the air inlet one-way valve comprises a first one-way valve cavity, a first pressure spring, a first valve sealing gasket and a first valve cover, wherein the first one-way valve cavity is arranged in the first processing cavity, an opening of the first one-way valve cavity is positioned on the end plate, and an air inlet hole and a cylindrical spring seat are arranged on the end plate of the first one-way valve cavity;

the circumferential wall of the first valve cover is provided with an axial bulge, the end plate is provided with a first annular valve port and an air inlet hole communicated with the first annular valve port;

the cylindrical spring seat is inserted into the first pressure spring, and the cylindrical spring seat on the first valve sealing gasket is inserted into the other end of the first pressure spring; the first pressure spring and the first valve sealing gasket extend into the first valve cover, the first valve sealing gasket is matched with the first annular valve port, and the first valve cover is inserted into the first valve core cavity.

The automatic air treatment device is characterized in that: the second unidirectional valve core component comprises a second pressure spring, a second valve core and a second valve cover,

a cylindrical spring seat and the annular valve port are arranged on the top plate of the air outlet cavity;

the circumferential wall of the second valve cover is provided with an axial bulge, and the end plate is provided with a second annular valve port and an air inlet hole communicated with the second annular valve port;

the cylindrical spring seat is inserted into the second pressure spring, and the cylindrical spring seat on the second valve sealing gasket is inserted into the other end of the second pressure spring; the second pressure spring and the second valve sealing gasket extend into the second valve cover, the second valve sealing gasket is matched with the second annular valve port, and the second valve cover is inserted into the air outlet cavity to be matched in a sealing way.

The invention relates to an automatic air treatment device, when an ozone generator works, an air inlet one-way valve is communicated; stopping working, and stopping the air inlet one-way valve to prevent external air from entering; the state conversion is convenient, and the service life is prolonged; the replacement is convenient.

Drawings

Fig. 1 is a cross-sectional view of an air treatment cartridge of the present invention.

Fig. 2 is a left side view of the housing of the present invention.

Fig. 3 is a cross-sectional view of the electrically controlled valve of the present invention.

Fig. 4 is one of the exploded perspective views of the present invention.

Fig. 5 is a second perspective exploded view of the present invention.

Fig. 6 is one of the perspective views of the present invention.

Fig. 7 is a second perspective view of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, an automatic air treatment device comprises an air pipe 1 and a shell, wherein the shell comprises a shell 2 with an opening at one end, an end cover 3, a first treatment cavity 21 and a second treatment cavity 22 which are arranged in the shell 2, an air inlet one-way valve 4 is arranged on an end plate of the first treatment cavity 21, and an air guide interface 5 is arranged on an end plate of the second treatment cavity 22;

the cover plate of the end cover 3 is provided with an air duct 31,

the novel drying agent also comprises a drying agent A, a drying agent B and a filter screen 6, wherein the drying agent A is calcium chloride, and the drying agent B is silica gel;

the drying agent A is arranged in the first processing cavity 21, the drying agent B is arranged in the second processing cavity 22, one end of the filter screen 6 is inserted into the shell 2, and the end part of the partition plate between the first processing cavity 21 and the second processing cavity 22 is attached to the filter screen 6; one end of the air pipe 1 is inserted into the air duct 31, the end cover 3 and the open end of the shell 2 are welded into a whole or in interference fit, the air duct 31 passes through a through hole on the filter screen 2, the other end of the air pipe 1 is in butt joint with the air duct interface 5, the air duct is provided with a sealing cover, and the sealing cover is detachably matched with the air duct 31; the safety and the reliability of the accessory in storage and transportation are ensured. When in use, the sealing cover is removed, and the air outlet end of the air duct is communicated with the ozone water device.

When in use, the sealing cover is disassembled, and the air duct is detachably connected with the ozone water device; when the ozone water device works, the air inlet one-way valve 4 is automatically conducted; the ozone water device stops working, and the air inlet one-way valve is automatically closed.

Example 2

As shown in fig. 4 and 5, the electric control valve 7 is further included, as shown in fig. 3, the electric control valve 7 comprises a valve body 73, a solenoid valve core assembly 74 and a second one-way valve core assembly 75, the valve body 73 comprises a valve core cavity 731 positioned at the upper part, an air outlet cavity 732 positioned at the lower part, an air inlet interface 71 and an air outlet joint 72, and the valve core cavity 731 is communicated with the air outlet cavity 732; the air inlet interface 71 is communicated with the valve core cavity 731, and the air outlet joint 72 is fixedly connected with the circumferential wall plate of the air outlet cavity 732; the electromagnetic valve core assembly 74 is fixed on the upper opening of the valve core cavity 731, and a sealing gasket 741 of the electromagnetic valve core assembly 74 is matched with an annular valve port 733 on the bottom plate of the valve core cavity 731; a second one-way valve cartridge assembly 75 is disposed within the lower end of outlet chamber 732. The air outlet end of the air duct 31 is connected with the air inlet interface 71, and the air outlet end of the air duct 31 is detachably connected with the air inlet interface 71.

As shown in fig. 1, 4 and 5, the air inlet check valve 4 includes a first check valve cavity 41, a first pressure spring 42, a first valve sealing pad 43 and a first valve cover 44, which are disposed in the first processing chamber 21 and have openings located in the end plate, and an air inlet hole 411 and a cylindrical spring seat 412 are disposed on the end plate of the first check valve cavity 41;

the circumferential wall of the first valve cover 44 is provided with an axial bulge 441, and the end plate is provided with a first annular valve port 442 and an air inlet hole 443 communicated with the first annular valve port 442;

the cylindrical spring seat 412 is inserted into the first pressure spring 42, the cylindrical spring seat 431 on the first valve sealing gasket 43 is inserted into the other end of the first pressure spring 42, and both ends of the first pressure spring 42 are respectively matched with the end plate of the first unidirectional valve cavity 41 and the first valve sealing gasket 43; the first pressure spring 42 and the first valve packing 43 extend into the first valve cap 44, the first valve packing 43 cooperates with the first annular valve port 442, and the first valve cap 44 is inserted into the first spool chamber 41.

The second unidirectional valve cartridge assembly 75 includes a second pressure spring 751, a second valve packing 752 and a second valve cap 753,

a cylindrical spring seat 734 and the annular valve port 733 are arranged on the top plate of the air outlet cavity 732;

the circumferential wall of the second valve cover 753 is provided with an axial bulge 7531, the end plate is provided with a second annular valve port 7532 and an air inlet 7533 communicated with the second annular valve port;

the cylindrical spring seat 734 is inserted into the second pressure spring 751, and the cylindrical spring seat 7521 on the second valve packing 752 is inserted into the other end of the second pressure spring 751; the second pressure spring 751 and the second valve packing 752 extend into the second valve cap 753, the second valve packing 752 mates with the second annular valve port 7532, and the second valve cap 753 is inserted into the outlet chamber 732.

When the ozone water generating device is used, when high-concentration ozone water is needed, the ozone water generating device works, the electric control valve 7 is conducted, the first valve sealing gasket 43 compresses the first pressure spring 42, external air enters the first valve cover 44 through the air inlet 443 on the first valve cover 44, gaps between two adjacent axial bulges 441 are reserved, the air inlet 411 on the first unidirectional valve cavity 41 enters the first treatment cavity 21, and the ozone water generating device enters the first treatment cavity 21 to be dried by the drying agent A, filtered and purified by the filter screen 6, enters the second treatment cavity 22 to be dried by the drying agent B again, enters the valve core cavity 731, the annular valve port 733 and the air outlet cavity 732 through the air pipe 1 and finally enters the ozone water generating device through the air outlet connector 72. When the ozone water generating device works, negative pressure is generated, the first valve sealing gasket 43 automatically leaves the first annular valve port 442, and the air inlet one-way valve is conducted; when the ozone water generating device stops working, the first valve sealing pad 43 automatically resets, and the air inlet one-way valve is closed; the air inlet one-way valve and the electric control valve 7 can ensure the effective use and long-term storage of the filter element.

When the household ozone water machine is in water purification or low-concentration ozone water is needed, the electric control valve 7 is in a closed state, and the one-way valve on the electric control valve 7 can be automatically opened to suck untreated air;

when the electric control valve 7 is conducted, the first one-way valve 4 is conducted; when the electric control valve 7 is closed, the second valve sealing gasket 752 of the second unidirectional valve core assembly 75 leaves the second annular valve port 7532 and is conducted; the switching of the two working modes is realized by switching on and off the electric control valve 7.

What has been described above is merely a preferred embodiment of the present invention. It should be noted that modifications and variations can be made by those skilled in the art without departing from the principles of the present invention, which is also considered as being within the scope of the present invention.

Claims

1. An automatic air treatment device, includes trachea and shell, its characterized in that: the shell comprises a shell body with an opening at one end, an end cover, a first processing cavity and a second processing cavity which are arranged in the shell body, wherein an air inlet one-way valve is arranged on an end plate of the first processing cavity, and an air guide interface is arranged on an end plate of the second processing cavity;

the cover plate of the end cover is provided with an air duct;

also comprises a drying agent A, a drying agent B and a filter screen,

the drying agent A is arranged in the first processing cavity, the drying agent B is arranged in the second processing cavity, one end of the filter screen is inserted into the shell, and the end part of the partition plate between the first processing cavity and the second processing cavity is attached to the filter screen; one end of the air pipe is inserted into the air pipe, the end cover is fixedly connected with the opening end of the shell, the air pipe passes through the through hole on the filter screen, and the other end of the air pipe is in butt joint with the air guide interface; the air outlet end of the air duct is sealed;

the electromagnetic valve core assembly is arranged at the lower part of the valve body, and the electromagnetic valve core assembly is connected with the air outlet cavity; the air inlet connector is communicated with the valve core cavity, and the air outlet connector is fixedly connected with the circumferential wall plate of the air outlet cavity; the electromagnetic valve core assembly is fixed on the upper opening of the valve core cavity, and a sealing gasket of the electromagnetic valve core assembly is matched with a circular valve port on the bottom plate of the valve core cavity to ensure air tightness; the second one-way valve core component is arranged in the lower end of the air outlet cavity; the air outlet end of the air duct is connected with the air inlet interface and is detachably connected with the air inlet interface;

the second unidirectional valve core component comprises a second pressure spring, a second valve core and a second valve cover,

the cylindrical spring seat is inserted into the second pressure spring, and the cylindrical spring seat on the second valve sealing gasket is inserted into the other end of the second pressure spring; the second pressure spring and the second valve sealing gasket extend into the second valve cover, the second valve sealing gasket is matched with the second annular valve port, and the second valve cover is inserted into the air outlet cavity to be matched in a sealing way;

the air inlet one-way valve comprises a first one-way valve cavity, a first pressure spring, a first valve sealing gasket and a first valve cover, wherein the first one-way valve cavity is arranged in the first processing cavity, an opening of the first one-way valve cavity is positioned on the end plate, and an air inlet hole and a cylindrical spring seat are arranged on the end plate of the first one-way valve cavity;

the cylindrical spring seat is inserted into the first pressure spring, and the cylindrical spring seat on the first valve sealing gasket is inserted into the other end of the first pressure spring; the first pressure spring and the first valve sealing gasket extend into the first valve cover, the first valve sealing gasket is matched with the first annular valve port, and the first valve cover is inserted into the first valve core cavity;

when the ozone water generating device needs high-concentration ozone water in operation, the ozone water generating device works, the electric control valve is conducted, the first valve sealing gasket compresses the first pressure spring, external air enters the first valve cover through the air inlet hole on the first valve cover, gaps between two adjacent axial bulges are reserved, the air inlet hole on the first unidirectional valve cavity enters the first treatment cavity, the first unidirectional valve cavity is dried through the drying agent A, filtered and purified by the filter screen, the second ozone water generating device enters the second treatment cavity and is dried through the drying agent B, the ozone water enters the valve core cavity, the annular valve port and the air outlet cavity through the air pipe, and finally the ozone water generating device enters the ozone water generating device through the air outlet connector; when the ozone water generating device works, negative pressure is generated, the first valve sealing gasket automatically leaves the first annular valve port, and the air inlet one-way valve is communicated; when the ozone water generating device stops working, the first valve sealing gasket automatically resets, and the air inlet one-way valve is closed; the air inlet one-way valve and the electric control valve can ensure the effective use and long-term storage of the filter element;

when the household ozone water machine is in water purification or low-concentration ozone water is needed, the electric control valve is in a closed state, and the one-way valve on the electric control valve can be automatically opened to suck untreated air;

when the electric control valve is conducted, the first one-way valve is conducted; when the electric control valve is closed, a second valve sealing gasket of the second unidirectional valve core assembly leaves the second annular valve port and is communicated; the switching of the two working modes is realized by switching on and off of the electric control valve.

2. An automatic air treatment device according to claim 1, wherein: the air guide pipe also comprises a sealing cover which is in airtight sealing and detachable matching with the air outlet end of the air guide pipe.