DE102012018278B4 - From a gaseous fluid switchable ozone supplier - Google Patents

Abstract

A gaseous fluid switchable ozone supplier (05), comprising a housing (10) which is hollow and has a receiving space (11); an air inlet (20) disposed at a location of the outside or inside of the housing (10) to introduce the outside air; an ozone exit port (30) disposed at another location of the housing (10) and having a check valve (31) therein to prevent backflow; a dispensing tube (40) having a connecting end (41) and a dispensing end (42), the connecting end (41) being connected to the ozone exit port (30), the dispensing end (42) extending to a target object (06), having a suction effect, whereby in the discharge pipe (40), a negative pressure can be generated; an ozone generator (50) disposed in the receiving space (11) of the housing (10) and having an air inlet pipe (51), an ozone exit pipe (52) and an ozone generating body (53) between the air inlet pipe (51) and the ozone exit pipe (52) wherein the ozone exit tube (52) is connected to the ozone exit port (30); a fluid sensor (60) disposed between the air inlet (20) and the ozone generator (50), the fluid sensor (60) comprising: a tubular body (61) disposed vertically having a lower inlet opening (611); upper exit opening (612) and a guide zone (613) between the upper exit opening (612) and the lower entry opening (611), the upper exit opening (612) communicating with the air inlet tube (51) of the ozone generator (50) through a connection pipe (614) ), wherein the lower inlet opening (611) is connected to the air inlet (20); an induction circuit board (65) having a Hall element (64) disposed on the side of the induction circuit board (65) facing the pipe body (61); a movable magnetic induction member (62) whose cross section matches the cross section of the guide zone (613) of the tubular body (61), thereby preventing rotation of the movable magnetic induction member (62), the induction member (62) being movable up and down the guide zone (613) of the tubular body (61) is arranged, wherein at the ...

Description

Technical area

The invention relates to a switchable from a gaseous fluid ozone supplier, which can control the ozone supply by the negative air pressure.

State of the art

Ozone O ₃ is the allotropic modification of oxygen and can kill bacteria in the air in a short time, neutralize toxic gas and eliminate odor. Therefore, ozone is widely used for air purification, drinking water and bactericidal purpose.

The ozone supplier has different types and shapes. The ozone provider, which is combined with a faucet to kill the bacteria in the water, is known.

However, the conventional ozone supplier of this type has the following drawbacks: the control unit for controlling the ozone supply is formed by a magnetic switch in the water path of the faucet having a fixed magnet and a movable magnet. Outside the waterway, an induction switch is provided. By the water pressure at the water discharge of the movable magnet is moved to the fixed magnet, whereby the induction switch is closed by the magnetic field, so that the ozone generator is turned on. When the water discharge ceases, the movable magnet returns to the original position by the magnetic repulsive force of the stationary magnet, thereby opening the induction switch, so that the ozone generator is turned off. Since the control unit of the ozone generator is located in the waterway, the movable magnet can be blocked by foreign matter or dirt in the water, so that the ozone supply is interrupted.

From the US 6,030,586 A an ozone supplier is known in which a pressure sensor is connected via a connecting line with an air inlet. This ozone supplier has a vacuum sensor, which, as the name implies, responds exclusively to negative pressure. Control difficulties may arise when the pressure loss of the flowing air in the part of the pipeline which extends downwards from a branch to the connecting line is less than the pressure loss in the relatively long connecting line to the vacuum sensor.

Further, by way of example, the DE 10 2005 041 166 A1 which shows an ozone generator having an inductive flow switch mounted in the water pipe. Such a flow switch is further in the JP 08-203400 A disclosed. This known flow switch has a cross section which is significantly smaller than the cross section of the relevant line. Such a switch probably works only in an air line at considerable suppression. This known switch is designed for installation in lines with flowing liquids.

The invention has for its object to provide an ozone supplier whose control is improved.

This object is achieved by an ozone supplier with the features of claim 1. Advantageous developments are the subject of the dependent claims.

Brief description of the drawings

1 a perspective view of the invention,

2 a perspective view of the internal structure of the invention,

3 an enlarged view of the ozone generator and the fluid sensor of the invention,

4 a perspective view of an embodiment of the invention,

5 an exploded view of the movable magnetic induction element of the invention,

6 a perspective view of another embodiment of the movable magnetic induction element of the invention,

7 a perspective view of yet another embodiment of the movable magnetic induction element of the invention,

8th a representation of the operation of the invention,

9 a block diagram of the invention.

Ways to carry out the invention

The 1 to 5 show a preferred embodiment of the invention, which serves only to illustrate the invention. The invention is not limited thereto. As shown, the inventive gaseous fluid switchable ozone supplier comprises 05
a housing 10 which is hollow and a receiving space 11 having,
an air inlet 20 which is at one point of the outside or inside of the case 10 is arranged to introduce the outside air (in the present embodiment on the outside),
an ozone exit opening 30 located at a different location of the housing 10 is arranged and in a check valve 31 is provided ( 1 ) to prevent backflow
a delivery tube 40 that is a connecting end 41 and a delivery end 42 having the connection end 41 with the ozone exit opening 30 connected, wherein the discharge end 42 to a target object 06 extends, which has a suction effect, whereby in the discharge pipe 40 a negative pressure can be generated,
an ozone generator 50 in the recording room 11 of the housing 10 is arranged, and an air inlet pipe 51 , an ozone outlet pipe 52 and an ozone generating body 53 between the air inlet pipe 51 and the ozone exit tube 52 having, wherein the ozone exit tube 52 with the ozone exit opening 30 connected is,
a fluid sensor 60 that is between the air inlet 20 and the ozone generator 50 is arranged, wherein the fluid sensor 60 having:
a tubular body 61 , which is arranged vertically, which a lower inlet opening 611 , an upper outlet opening 612 and a leadership zone 613 between the upper outlet opening 612 and the lower entrance opening 611 having, wherein the upper outlet opening 612 through a connecting pipe 614 with the air inlet pipe 51 of the ozone generator 50 is connected, wherein the lower inlet opening 611 with the air inlet 20 connected is; an induction circuit board 65 with a Hall element 64 attached to the tube body 61 facing side of the induction circuit board 65 is arranged; a movable magnetic induction element 62 whose cross section matches the cross section of the guide zone 613 of the tubular body 61 is adjusted, whereby a rotation of the movable magnetic induction element 62 is prevented, wherein the induction element 62 movable up and down in the guiding zone 613 of the tubular body 61 is arranged, wherein on the induction circuit board 65 facing side of the movable magnetic induction element 62 a magnetic body 63 is arranged, wherein the induction element 62 can be raised by a negative pressure, wherein the magnetic body 63 the Hall element 64 when the movable magnetic induction element 62 is raised, causing the Hall element 64 generates an induction signal; and
a controller 70 in the recording room 11 of the housing 10 is arranged ( 2 ) and with the induction circuit board 65 and the ozone generator 50 electrically connected, the controller 70 the ozone generating body 53 of the ozone generator 50 activated when the induction signal from the Hall element 64 receives, and the controller 70 the ozone generating body 53 of the ozone generator 50 deactivated if it does not receive an induction signal from the Hall element 64 receives.

As a result, the invention can control the ozone supply through the negative air pressure.

The possible embodiments of the invention are described below:
Like from the 1 and 3 It can be seen is in the air intake 20 of the housing 10 a filter element 21 arranged, which is preferably formed by sponge. However, the invention is not limited thereto.

How out 5 It can be seen possesses the leadership zone 613 of the tubular body 61 a rectangular, square or polygonal cross-section. The cross section of the movable magnetic induction element 62 is adapted to the cross section of the guiding zone 613 , whereby a rotation of the movable magnetic induction element 62 is prevented, so that the movable magnetic induction element 62 stable in the direction of the Hall element 64 can move.

How out 7 can be seen, the movable magnetic induction element 62 a continuous ventilation space 66 have. The ventilation room 66 can through a through hole of the movable magnetic induction element 62 be formed. How out 6 can be seen, the movable magnetic induction element 62 also on the outside spaced ribs 80 form, through which the ventilation space 66 is formed. The spaced ribs 80 lie on the inner wall of the guide zone 613 of the tubular body 61 , whereby the frictional resistance for the movement of the movable magnetic induction element 62 is reduced, so that the movable magnetic induction element 62 can move more smoothly.

How out 7 can be seen, the movable magnetic induction element 62 also be cylindrical.

The operation of the invention will be described below:
Like from the 2 to 4 . 8th and 9 can be seen, the target object 06 through a mixer 12 a faucet A be formed with a water outlet A1. The mixer 12 can mix the water with the air and is with the discharge end 42 of the delivery tube 40 of the ozone supplier 05 connected. When the user turns on the tap A and the water flows out of the water outlet A1 (arrow L4 in 8th ), the mixer can 12 the air through the air inlet pipe 51 (Arrow L2 in 8th ), whereby in the delivery tube 40 a negative pressure is generated, so that the movable magnetic induction element 62 in the leadership zone 613 of the tubular body 61 is raised (arrow L3 in 8th ) and the magnetic body 63 the Hall element 64 opposite, which thus generates an induction signal. If the controller 70 the induction signal from the Hall element 64 receives, it activates the ozone generating body 53 of the ozone generator 50 , whereby the ozone generating body 53 that produces ozone gas. The ozone gas from the delivery pipe 40 is mixed with the water (arrow L1 in 8th ). When the water discharge stops, the negative pressure disappears, causing the moving magnetic induction element 62 sinks into the original position. Because the controller 70 no induction signal from the Hall element 64 receives, it deactivates the ozone generating body 53 of the ozone generator 50 , Therefore, an interruption of the ozone supply by foreign matter or dirt in the water can be avoided.

The target object 06 may also be formed by a Venturi tube (not shown) in the water inlet of the faucet. The pressure difference as the water flows through the Venturi tube also controls the ozone supply

Advantages of the invention:

The gaseous fluid switchable ozone supplier according to the present invention comprises a housing, a discharge pipe, an ozone generator and a fluid sensor, and can generate a negative pressure by the suction force at the water outlet in the discharge pipe as compared with the prior art by which the ozone supply can be controlled that an interruption of the ozone supply by foreign bodies or dirt in the water can be avoided.

The foregoing description represents only the preferred embodiments of the invention and is not intended to serve as a definition of the limits and scope of the invention. All equivalent changes and modifications are within the scope of this invention.

Claims (5)

By a gaseous fluid switchable ozone supplier ( 05 ), comprising a housing ( 10 ), which is hollow and a receiving space ( 11 ) having; an air inlet ( 20 ) located at a location on the outside or inside of the housing ( 10 ) is arranged to introduce the outside air; an ozone outlet ( 30 ) located at a different location of the housing ( 10 ) is arranged and in which a check valve ( 31 ) is provided to prevent backflow; a delivery tube ( 40 ), which is a connection end ( 41 ) and a dispensing end ( 42 ), wherein the connection end ( 41 ) with the ozone exit opening ( 30 ), the discharge end ( 42 ) to a target object ( 06 ), which has a suction effect, whereby in the delivery tube ( 40 ) A negative pressure can be generated; an ozone generator ( 50 ), in the recording room ( 11 ) of the housing ( 10 ) is arranged and an air inlet tube ( 51 ), an ozone exit tube ( 52 ) and an ozone generating body ( 53 ) between the air inlet tube ( 51 ) and the ozone exit tube ( 52 ), wherein the ozone exit tube ( 52 ) with the ozone exit opening ( 30 ) connected is; a fluid sensor ( 60 ) between the air inlet ( 20 ) and the ozone generator ( 50 ), wherein the fluid sensor ( 60 ): a tubular body ( 61 ), which is arranged vertically, which a lower inlet opening ( 611 ), an upper outlet opening ( 612 ) and a leadership zone ( 613 ) between the upper outlet opening ( 612 ) and the lower entrance opening ( 611 ), wherein the upper outlet opening ( 612 ) through a connecting tube ( 614 ) with the air inlet tube ( 51 ) of the ozone generator ( 50 ), wherein the lower entrance opening ( 611 ) with the air inlet ( 20 ) connected is; an induction circuit board ( 65 ) with a Hall element ( 64 ), which at the the tube body ( 61 ) facing side of the induction circuit board ( 65 ) is arranged; a movable magnetic induction element ( 62 ) whose cross section corresponds to the cross section of the guiding zone ( 613 ) of the tubular body ( 61 ), whereby a rotation of the movable magnetic induction element ( 62 ) is prevented, wherein the induction element ( 62 ) movable up and down in the guide zone ( 613 ) of the tubular body ( 61 ), wherein at the induction circuit board ( 65 ) facing side of the movable magnetic induction element ( 62 ) a magnetic body ( 63 ), wherein the induction element ( 62 ) is liftable by a negative pressure, wherein the magnetic body ( 63 ) the Hall element ( 64 ) when the movable magnetic induction element ( 62 ), whereby the Hall element ( 64 ) generates an induction signal; and a controller ( 70 ), in the recording room ( 11 ) of the housing ( 10 ) and with the induction circuit board ( 65 ) and the ozone generator ( 50 ) is electrically connected, wherein the controller ( 70 ) the ozone generating body ( 53 ) of the ozone generator ( 50 ) is activated when the induction signal from the Hall element ( 64 ), and the controller ( 70 ) the ozone generating body ( 53 ) of the ozone generator ( 50 ) is deactivated, if it does not receive an induction signal from the Hall element ( 64 ) receives. Ozone supplier ( 05 ) according to claim 1, characterized in that the guiding zone ( 613 ) of the tubular body ( 61 ) has a rectangular, square or polygonal cross-section. Ozone supplier ( 05 ) according to claim 1 or 2, characterized in that the target object ( 06 ) through a mixer ( 12 ) of a faucet (A) with a water outlet (A1) is formed, wherein the mixer ( 12 ) with the delivery end ( 42 ) of the delivery tube ( 40 ) of the ozone supplier ( 05 ), the air in the delivery tube ( 40 ) is sucked off, when the water flows out of the water outlet (A1), whereby in the discharge tube ( 40 ) A negative pressure is generated. Ozone supplier ( 05 ) according to one of claims 1 to 3, characterized in that the induction element ( 62 ) a continuous ventilation space ( 66 ) which passes through a through hole of the movable magnetic induction element ( 62 ) or the movable magnetic induction element ( 62 ) on the outside spaced ribs ( 80 ), through which the ventilation space ( 66 ) is formed, wherein the spaced ribs ( 80 ) on the inner wall of the guide zone ( 613 ) of the guide tube ( 61 ), whereby the frictional resistance for the movement of the movable magnetic induction element ( 62 ) is reduced. Ozone supplier ( 05 ) according to one of the preceding claims, characterized in that in the air inlet ( 20 ) of the housing ( 10 ) a filter element ( 21 ) is arranged.

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