CN201755331U

CN201755331U - Air purifier

Info

Publication number: CN201755331U
Application number: CN2010202798390U
Authority: CN
Inventors: 宋笑雨
Original assignee: SHANGHAI YONDA CLEANSING TECHNOLOGY Co Ltd
Current assignee: SHANGHAI YONDA CLEANSING TECHNOLOGY Co Ltd
Priority date: 2010-08-03
Filing date: 2010-08-03
Publication date: 2011-03-09
Anticipated expiration: 2020-08-03

Abstract

The utility model provides an air purifier. The air purifier comprises a reaction tank, a purifying agent jar, a feed port and a gas outlet, wherein the reaction tank is positioned at the bottom of the purifier; the purifying agent jar is mounted on the side wall of the purifier and connected with the reaction tank through a connecting pipe; the feed port is formed at the top of the purifier, positioned above the reaction tank and used for feeding an activating agent into the reaction tank; and the gas outlet is formed at the top of the purifier. By adopting the technical scheme, the reaction tank is arranged at the bottom of the purifier and serves as a reaction jar; the purifying agent jar is mounted on the side wall of the purifier; after the purifier is started, a purifying agent flows from the purifying agent jar to the reaction tank and reacts with the activating agent fed into the reaction tank through the feed port, so as to generate a purifying gas; and the purifying gas is exhausted from the purifier through the gas outlet at the top of the purifier, so as to purify air. Through the feed port, the activating agent can be directly fed into the reaction tank, so as to dispense with an activating agent jar, reduce the volume of the purifier and further save the cost.

Description

A kind of air purifier

Technical field

This utility model relates to purification technology field, relates in particular to a kind of air purifier.

Background technology

Air cleaning facility generally is to react by the cleanser of fixed proportion and activator, produces Purge gas and harmful substances in air and reacts, and purifying air, and then effectively improves air cleanliness.

Existing air purifier comprises: cleanser jar, activator jar, retort and blowdown drum.The top of air purifier is provided with first liquid filling pore and second liquid filling pore, and first liquid filling pore links to each other with the activator jar with the cleanser jar by pipeline respectively with second liquid filling pore, and cleanser and activator are irritated into cleanser jar and activator jar respectively.Cleanser jar and activator jar all communicate with retort, and cleanser and activator flow in the retort, and cleanser and activator react, and produce Purge gas.The venthole that Purge gas is provided with from the retort top is discharged in the depurator, and the steam vent that is provided with by the depurator top is discharged again, purifies the air of environment for use.Reacted reactant is discharged by the blow-off line and the mudhole on the depurator sidewall of blowdown drum.

Existing air purifier will realize that the air that purifies environment for use need use 4 jars, and therefore, the volume of depurator is bigger.

The utility model content

In view of this, the purpose of this utility model is to provide a kind of air purifier, to solve in the prior art owing to need to use 4 jars to finish the bigger problem of volume of the depurator that air cleaning was caused of environment for use.Technical scheme is as follows:

This utility model provides a kind of air purifier, comprising:

Be positioned at the reactive tank of depurator bottom;

Be installed in the depurator sidewall, and the cleanser jar that links to each other with described reactive tank by connection tube;

Be arranged on the depurator top, and be positioned at the charge door of described reactive tank top, described charge door is used for adding activator to described reactive tank;

Be arranged on the air vent at depurator top.

Preferably, also comprise: be installed in the depurator sidewall, be positioned at cleanser jar top, and the force (forcing) pump that links to each other with described cleanser jar by conduit.

Preferably, also comprise: be installed in the scavenger fan on the depurator sidewall.

Preferably, also comprise: be installed in the depurator sidewall, and control described cleanser jar, described force (forcing) pump and the open/close gauge tap of described scavenger fan.

Preferably, also comprise: be positioned at described reaction tank bottom, and by the blow-off pipe of described gauge tap control.

Preferably, also comprise: the gas sensor that is installed in the depurator top;

Link to each other with described gas sensor, and be installed in the processing module on the depurator sidewall, the gas that described processing module is gathered according to described gas sensor, the purified gas scale of construction of calculate to need using, and control described cleanser jar according to the described purified gas scale of construction and be transported to purification dosage in the described reactive tank.

Preferably, described processing module is a Programmable Logic Controller.

Preferably, the specification of the cross section of described reactive tank is identical with the specification of the cross section of described depurator.

Preferably, also comprise: the handgrip that is arranged on both sides, described depurator top.

Use technique scheme, the depurator bottom is provided with the reactive tank as retort, and the cleanser jar is installed on the sidewall, after depurator is opened, cleanser in the cleanser jar flows into reactive tank, and the activator reaction with adding to from charge door in the reactive tank produces Purge gas.This Purge gas is provided with air vent and discharges depurator from the depurator top, to purify air.Charge door can directly add activator in the reactive tank to, has therefore saved the activator jar, has reduced the volume of depurator, and then has provided cost savings.

Description of drawings

In order to be illustrated more clearly in this utility model embodiment, to do simple introduction to the accompanying drawing of required use among the embodiment below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the air purifier that Fig. 1 provides for this utility model embodiment;

The another kind of structural representation of the air purifier that Fig. 2 provides for this utility model embodiment.

The specific embodiment

Below in conjunction with the accompanying drawing among this utility model embodiment, the technical scheme among this utility model embodiment is clearly and completely described, obviously, described embodiment only is this utility model part embodiment, rather than whole embodiment.Based on the embodiment in this utility model, those of ordinary skills are not making under the creative work prerequisite, and the every other embodiment that is obtained belongs to this utility model protection domain.

This utility model embodiment discloses a kind of air purifier, and the charge door that is arranged in the reactive tank top that the depurator top is provided with can directly add cleanser to reactive tank, has saved the cleanser jar, has reduced the volume of depurator.The structural representation of this air purifier comprises as shown in Figure 1: reactive tank 1, cleanser jar 2, connection tube 3, charge door 4 and air vent 5.Wherein:

Reactive tank 1 is positioned at the bottom of depurator, uses as retort.Cleanser jar 2 is installed on the depurator sidewall, links to each other with reactive tank 1 by connection tube 3.Charge door 4 is arranged on the top of depurator, and is positioned at the top of reactive tank 1, and charge door 4 can directly add activator in the reactive tank 1 to, so does not need in the depurator to add the activator jar, has saved the volume of depurator, reduces cost.In order to guarantee that activator can add in the reactive tank 1 accurately, charge door 4 and cleanser jar 2 are positioned at the both sides of depurator, and promptly charge door 4 and cleanser jar 2 be not in the same side of depurator.After depurator was opened, the cleanser in the cleanser jar 2 flowed in the reactive tank 1 from cleanser jar 2 by connection tube 3 under the effect of self gravitation, produced Purge gas with the activator reaction of adding from charge door 4.Purge gas is discharged from the air vent 5 that is arranged on the depurator top, to purify air.

Speed when flowing into reactive tank 1 in order to accelerate cleanser is saved time, and force (forcing) pump 6 is installed, as shown in Figure 2 on the depurator sidewall.This force (forcing) pump 6 is positioned at the top of cleanser jar 2, links to each other with cleanser jar 2 by conduit.Force (forcing) pump 6 flows to cleanser jar 2 with its applied pressure by conduit, the speed when accelerating cleanser inflow reactive tank 1.Among this utility model embodiment the quantity of force (forcing) pump 6 can be for one or more, determine according to the environment for use of using air purifier.

In order to accelerate the discharge of Purge gas, scavenger fan 7 is installed, as shown in Figure 2 on the depurator sidewall.The quantity of scavenger fan 7 can be one or more, and the eliminating speed of the many more Purge gas of the quantity of scavenger fan 7 is fast more, and then can purify air faster.In addition, the gauge tap 8 of control cleanser jar 2, force (forcing) pump 6 and air ejector fan 7 is installed, as shown in Figure 2 on the depurator sidewall.After charge door had added activator, gauge tap 8 was opened cleanser jar 2, force (forcing) pump 6 and air ejector fan 7 simultaneously.After reactive tank 1 internal reaction was finished, gauge tap 8 cut out cleanser jar 2, force (forcing) pump 6 and air ejector fan 7 simultaneously.

Reactive tank 1 bottom is provided with blow-off pipe 9, to discharge reactant, as shown in Figure 2.The ON/OFF of blow-off pipe 9 is by gauge tap 8 controls, and after charge door had added cleanser, gauge tap 8 was opened blow-off pipe 9.After reactive tank 1 internal reaction was finished, gauge tap 8 cut out blow-off pipe 9.

Because the quality of air is not constantly identical under the environment for use, air quality is poor in the section sometime, then needs a large amount of Purge gas, and sometime in the section air quality good, then need a spot of Purge gas.Therefore, for quality according to air under the environment for use, the purified gas scale of construction that the control depurator produces, the air purifier that this utility model embodiment provides also comprises: gas sensor 10 and processing module 11, as shown in Figure 2.Gas sensor 10 is installed in the top of depurator.Processing module 11 links to each other with gas sensor 10, and is installed on the depurator sidewall.Establish program in the processing module 11, the gas that program is gathered according to gas sensor 10, calculating needs the purified gas scale of construction used, and is transported to purification dosage in the reactive tank 1 according to required purified gas scale of construction control cleanser jar 2 by connection tube 3.The purification dosage that processing module 11 control is carried makes depurator produce required Purge gas in the environment for use time period, can the reasonable use resource, avoid the waste of resource.Processing module 11 can be a Programmable Logic Controller, also can be single-chip microcomputer.

The specification of the cross section of the reactive tank 1 among this utility model embodiment is identical with the specification of depurator cross section, to guarantee that activator can add in the reactive tank 1 fully.The user carries or moves depurator for convenience, as shown in Figure 2, also is provided with handgrip 12 in both sides, depurator top.

Use technique scheme, the depurator bottom is provided with the reactive tank 1 as retort, and cleanser jar 2 is installed on the sidewall, after depurator is opened, cleanser in the cleanser jar 2 flows into reactive tank 1, and the activator reaction with adding to from charge door 4 in the reactive tank 1 produces Purge gas.This Purge gas is provided with air vent and discharges depurator 5 from the depurator top, to purify air.Charge door 4 can directly add activator in the reactive tank 1, has therefore saved the activator jar, has reduced the volume of depurator, and then has provided cost savings.In addition, the depurator that this utility model provides can also produce an amount of Purge gas according to the quality of air under the environment for use, with the reasonable use energy, avoids the waste of resource.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use this utility model.Multiple modification to these embodiment will be conspicuous concerning those skilled in the art, and defined herein General Principle can realize under the situation that does not break away from spirit or scope of the present utility model in other embodiments.Therefore, this utility model will can not be restricted to these embodiment shown in this article, but will meet and principle disclosed herein and features of novelty the wideest corresponding to scope.

Claims

1. an air purifier is characterized in that, comprising:

Be positioned at the reactive tank of depurator bottom;

Be arranged on the air vent at depurator top.

2. depurator according to claim 1 is characterized in that, also comprises:

Be installed in the depurator sidewall, be positioned at cleanser jar top, and the force (forcing) pump that links to each other with described cleanser jar by conduit.

3. depurator according to claim 2 is characterized in that, also comprises:

Be installed in the scavenger fan on the depurator sidewall.

4. depurator according to claim 3 is characterized in that, also comprises:

Be installed in the depurator sidewall, and control described cleanser jar, described force (forcing) pump and the open/close gauge tap of described scavenger fan.

5. depurator according to claim 4 is characterized in that, also comprises:

Be positioned at described reaction tank bottom, and by the blow-off pipe of described gauge tap control.

6. depurator according to claim 5 is characterized in that, also comprises:

Be installed in the gas sensor at depurator top;

7. depurator according to claim 6 is characterized in that, described processing module is a Programmable Logic Controller.

8. according to any described depurator of claim 1-7, it is characterized in that the specification of the cross section of described reactive tank is identical with the specification of the cross section of described depurator.

9. according to any described depurator of claim 1-7, it is characterized in that, also comprise:

Be arranged on the handgrip of both sides, described depurator top.