CN2898059Y - Electrolytic ozone water maker with electrical-appliance isolation and ozone generator - Google Patents

Abstract

The utility model discloses an ozone generating device which can be isolated by electric appliances and is used for the electrolysis type ozone water machine, which composes a water inlet piping (23); the water inlet piping (23) is provided with a water inlet electromagnetic valve (1) and a pure water manufacturing installation (2); the utility model is characterized in that the water inlet piping (23) is connected with at least one ozone water generating unit; the ozone water generating unit composes n pure water tanks, n is more than or equal to 2, n is a whole number; the inner of each pure water tank is provided with a liquid level sensor; the upper side of each pure water tank is connected with the water inlet piping (23) by a water replenishing pipeline and a water replenishing electromagnetic valve; the lower side of each pure water tank is connected with a electrolysis type ozonizer; the electrolysis type ozonizer, by being in series with a relay, is connected to a stabilized current supply, which does not result in a performance reduction or a spoilage of the electrolysis type ozonizer; the electrolysis type ozone water machine is longer in service life and wide in range of application.

Description

But the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment machine

(1) technical field: but the utility model relates to the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment machine, belongs to the ozone water apparatus technical field.

(2) background technology: at present, in the electrolysis type ozone water machine, the pure water that Water Purifiers generates enters in the pure water case by filling pipe, realize moisturizing to the pure water case, water in the pure water case carries out electrolysis by an electrolysis type ozone water generator and generates ozone, the growing amount of ozone is less like this, only be applicable to the application scenario of small-sized board, if be applicable to the application scenario of large-scale board, just need on the pure water case, connect a plurality of electrolysis type ozone water generators, but a shared pure water case exists cloudy altogether in the use, sun or anode and cathode exist situation about being electrically connected to take place altogether, cause the degradation or the damage of producer, and filling pipe is located at the middle and lower part of pure water case, also can exist the situation of common sun to take place in the use, cause the degradation or the damage of producer, influence the work-ing life of electrolysis type ozone water machine.

(3) summary of the invention: the purpose of this utility model is to overcome the deficiency of above-mentioned prior art and a kind of degradation or damage that can not cause electrolysis type ozone generator is provided, prolong the work-ing life of electrolysis type ozone water machine, but the ozone generating-device of the isolated electrolysis type ozone water of electrical equipment applied widely machine.

The purpose of this utility model can reach by following measure: but the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment machine, it comprises suction culvert 23, suction culvert 23 is provided with entering water electromagnetic valve 1, Water Purifiers 2, it is characterized in that connecting on the suction culvert 23 at least one ozone water generation unit, this ozone water generation unit has n pure water case, n 〉=2, n is an integer, be equipped with a liquid level sensor in each pure water case, the top of each pure water case is all by a water pipe, the moisturizing magnetic valve links to each other with suction culvert 23, the bottom of each pure water case all connects an electrolysis type ozone generator, and electrolysis type ozone generator links to each other by the rly. series connection and with stabilized current supply.

In order further to realize the purpose of this utility model, in described each ozone water generation unit, comprise n pure water case, n pure water case connects n electrolysis type ozone generator, wherein the anode of n electrolysis type ozone generator links to each other with the anode of stabilized current supply, its negative electrode links to each other by the anode of n-1 the electrolysis type ozone generator that rly. is adjacent, the negative electrode of n-1 electrolysis type ozone generator links to each other by the anode of n-2 the electrolysis type ozone generator that rly. is adjacent, the negative electrode of the 2nd electrolysis type ozone generator links to each other by the anode of the 1st electrolysis type ozone generator that rly. is adjacent, the negative electrode of the 1st electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by rly., the moisturizing magnetic valve of entering water electromagnetic valve 1 and each ozone water generation unit, liquid level sensor, rly. is connected with switchboard 22 respectively, and switchboard 22 connects control power supply 21.

In order further to realize the purpose of this utility model, in described each ozone water generation unit, comprise 2 pure water casees, 2 pure water casees connect 2 electrolysis type ozone generators, the anode of one of them electrolysis type ozone generator links to each other with the anode of stabilized current supply, negative electrode links to each other with the anode of another electrolysis type ozone generator by rly., the negative electrode of another electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by rly., the moisturizing magnetic valve of entering water electromagnetic valve 1 and each ozone water generation unit, liquid level sensor, rly. is connected with switchboard 22 respectively, and switchboard 22 connects control power supply 21.

In order further to realize the purpose of this utility model, described rly. is a double-contact relay, the negative electrode of an electrolysis type ozone generator links to each other with the anode of another electrolysis type ozone generator by a contact of this double-contact relay, and the negative electrode of another electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by another contact of this double-contact relay.

In order further to realize the purpose of this utility model, described rly. is the single contact rly., the negative electrode of an electrolysis type ozone generator links to each other with the anode of another electrolysis type ozone generator by a single contact rly., and the negative electrode of another electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by another single contact rly..

In order further to realize the purpose of this utility model, described rly. is the single contact rly..

The utility model can produce following positively effect compared with the prior art: the utility model is provided with a plurality of electrolysis type ozone water generators, each electrolysis type ozone water generator all connects an independently pure water case, each pure water case all connects an independently filling pipe, each filling pipe all connects an independently moisturizing magnetic valve, and filling pipe is located at the top of pure water case, the water surface elevation of liquid level sensor control pure water case is lower than the water supplement port height of filling pipe all the time, therefore, can there be common the moon in the use, sun or anode and cathode exist situation about being electrically connected to take place altogether, can not cause the degradation or the damage of producer, prolong the work-ing life of electrolysis type ozone water machine, and the growing amount of ozone is more, be not only applicable to the application scenario of minicomputer platform, be applicable to the application scenario of large-scale board yet, have wide range of applications.

(4) description of drawings:

Fig. 1 is the structural representation of a kind of embodiment of the present utility model;

Fig. 2 is the structural representation of another kind of embodiment of the present utility model.

(5) embodiment: the best of the present utility model is implemented below in conjunction with accompanying drawing

Mode elaborates:

Embodiment 1: but the ozone generating-device (referring to Fig. 1) of the isolated electrolysis type ozone water of a kind of electrical equipment machine, it comprises suction culvert 23, suction culvert 23 is provided with entering water electromagnetic valve 1, Water Purifiers 2, connect a plurality of ozone water generation units on the suction culvert 23, the quantity of ozone water generation unit is decided as required, first ozone water generation unit has two pure water casees 11,12, be provided with a liquid level sensor 7 in the pure water case 11, be provided with a level sensing 8 in the pure water case 12, the top of pure water case 11 is by a water pipe, moisturizing magnetic valve 3 links to each other with suction culvert 23, the top of pure water case 12 is by a water pipe, moisturizing magnetic valve 4 links to each other with suction culvert 23, the bottom of pure water case 11 connects an electrolysis type ozone generator 15, the bottom of pure water case 12 connects an electrolysis type ozone generator 16, the anode of electrolysis type ozone generator 16 links to each other with the anode of stabilized current supply 19, the negative electrode of electrolysis type ozone generator 16 links to each other with the anode of electrolysis type ozone generator 15 by the contact J1-2 of double-contact relay J1, and the negative electrode of electrolysis type ozone generator 15 links to each other with the negative electrode of stabilized current supply 19 by the contact J1-1 of double-contact relay J1.The structure of intermediary ozone water generation unit is identical with the structure of first ozone water generation unit, the structure of last ozone water generation unit is identical with the structure of first ozone water generation unit, promptly have two pure water casees 13,14, be provided with a liquid level sensor 9 in the pure water case 13, be provided with a level sensing 10 in the pure water case 14, the top of pure water case 13 is all by a water pipe, moisturizing magnetic valve 5 links to each other with suction culvert 23, the top of pure water case 14 is all by a water pipe, moisturizing magnetic valve 6 links to each other with suction culvert 23, the bottom of pure water case 13 all connects an electrolysis type ozone generator 17, the bottom of pure water case 14 all connects an electrolysis type ozone generator 18, the anode of electrolysis type ozone generator 18 links to each other with the anode of stabilized current supply 20, the negative electrode of electrolysis type ozone generator 18 links to each other with the anode of electrolysis type ozone generator 17 by the contact J2-2 of double-contact relay J2, the negative electrode of electrolysis type ozone generator 17 links to each other with the negative electrode of stabilized current supply 20 by the contact J2-1 of double-contact relay J2, the moisturizing magnetic valve 3 of entering water electromagnetic valve 1 and each ozone water generation unit, 4 ... 5,6, relay J 1 ... J2 connects the control output end of switchboard 22 respectively, liquid level sensor 7,8 ... 9,10 connect the water level detecting signal input part of switchboard 22 respectively, and switchboard 22 connects control power supply 21.When switchboard 22 perceives by liquid level sensor 7 that pure water case 11 needs moisturizing and other pure water case not during moisturizing, switchboard 22 provides control signal opens entering water electromagnetic valve 1, moisturizing magnetic valve 3, tap water enters pure water manufacturing system 2 through entering water electromagnetic valve 1, pure water enters pure water case 11 through moisturizing magnetic valve 3, when switchboard 22 perceives by liquid level sensor 7 after 11 moisturizings of pure water case finish, switchboard 22 is removed control signal, and entering water electromagnetic valve 1 and moisturizing magnetic valve 3 are closed.Pure water case 12 ... 13,14 moisturizing process is similar.If requiring moisturizing simultaneously, several water tanks, any time the moisturizing of a pure water case can only be arranged according to sequencing moisturizing one by one.

When producer 15,16 work, switchboard 22 provides control signal and makes relay J 1-1, J1-2 closure, and stabilized current supply 19 is producer 15,16 power supply, when producer quits work fully or when having a power failure, relay J 1-1, J1-2 disconnect, and make the complete electrical open of negative electrode of each producer.When producer 17,18 work, switchboard 22 provides control signal and makes relay J 2-1, J2-2 closure, stabilized current supply 20 is producer 17,18 power supplies, when producer quits work fully or when having a power failure, relay J 2-1, J2-2 disconnect, and make the complete electrical open of negative electrode of each producer.

Above-mentioned double-contact relay J1 ... J2 can be respectively with two single contact relay J 1 ' independently, J1 " ... J2 '; J2 " replace, the negative electrode that is electrolysis type ozone generator 16 links to each other with the anode of electrolysis type ozone generator 15 by single contact relay J 1 ', the negative electrode of electrolysis type ozone generator 15 is by single contact relay J 1 " link to each other with the negative electrode of stabilized current supply 19; ... the negative electrode of electrolysis type ozone generator 18 links to each other with the anode of electrolysis type ozone generator 17 by single contact relay J 2 ', and the negative electrode of electrolysis type ozone generator 17 is by single contact relay J 2 " link to each other with the negative electrode of stabilized current supply 20.

Embodiment 2: but the ozone generating-device (referring to Fig. 2) of the isolated electrolysis type ozone water of a kind of electrical equipment machine, it comprises suction culvert 23, suction culvert 23 is provided with entering water electromagnetic valve 1, Water Purifiers 2, connect a plurality of ozone water generation units on the suction culvert 23, the quantity of ozone water generation unit is decided as required, first ozone water generation unit has n pure water case 9 ', 10 ' ... 11 ', n 〉=2, n is an integer, be provided with a liquid level sensor 6 ' in the pure water case 9 ', be provided with a level sensing 7 ' in the pure water case 10 ' ... be provided with a level sensing 8 ' in the pure water case 11 ', the top of pure water case 9 ' is by a water pipe, moisturizing magnetic valve 3 ' links to each other with suction culvert 23, the top of pure water case 10 ' is by a water pipe, moisturizing magnetic valve 4 ' links to each other with suction culvert 23, the top of pure water case 11 ' is by a water pipe, moisturizing magnetic valve 5 ' links to each other with suction culvert 23, the bottom of pure water case 9 ' connects an electrolysis type ozone generator 12 ', the bottom of pure water case 10 ' connects an electrolysis type ozone generator 13 ', the bottom of pure water case 11 ' connects an electrolysis type ozone generator 14 ', the anode of electrolysis type ozone generator 14 ' links to each other with the anode of stabilized current supply 15 ', the negative electrode of electrolysis type ozone generator 14 ' links to each other by the anode of the electrolysis type ozone generator that single contact relay J 1-n is adjacent, the anode of electrolysis type ozone generator 13 ' links to each other by the negative electrode of the electrolysis type ozone generator that single contact relay J 1-3 is adjacent, the negative electrode of electrolysis type ozone generator 13 ' links to each other with the anode of electrolysis type ozone generator 12 ' by single contact relay J 1-2, and the negative electrode of electrolysis type ozone generator 12 ' passes through single contact relay J 1-1 and links to each other with the negative electrode of stabilized current supply 15 '.The structure of intermediary ozone water generation unit is identical with the structure of first ozone water generation unit, the structure of last ozone water generation unit is identical with the structure of first ozone water generation unit, promptly have the individual pure water case 9 of n ' "; 10 " ... 11 " be provided with a liquid level sensor 6; n ' 〉=2; n ' is an integer; pure water case 9 " "; pure water case 10 " in be provided with a level sensing 7 " ... pure water case 11 " in be provided with a level sensing 8 ", pure water case 9 " top by a water pipe; moisturizing magnetic valve 3 " link to each other with suction culvert 23, pure water case 10 " top by a water pipe; moisturizing magnetic valve 4 " link to each other with suction culvert 23, pure water case 11 " top by a water pipe; moisturizing magnetic valve 5 " link to each other with suction culvert 23, pure water case 9 " the bottom connect an electrolysis type ozone generator 12 ", pure water case 10 " the bottom connect an electrolysis type ozone generator 13 ", pure water case 11 " the bottom connect an electrolysis type ozone generator 14 ", electrolysis type ozone generator 14 " anode and stabilized current supply 15 " anode link to each other, electrolysis type ozone generator 14 " the anode of the electrolysis type ozone generator that is adjacent by single contact relay J 2-n of negative electrode link to each other; ... electrolysis type ozone generator 13 " the negative electrode of the electrolysis type ozone generator that is adjacent by single contact relay J 2-3 of anode link to each other, electrolysis type ozone generator 13 " negative electrode by single contact relay J 2-2 and electrolysis type ozone generator 12 " anode link to each other electrolysis type ozone generator 12 " negative electrode pass through single contact relay J 2-1 with stabilized current supply 15 " negative electrode link to each other.The moisturizing magnetic valve 3 ', 4 ' of entering water electromagnetic valve 1 and each ozone water generation unit ... 5 ' ... 3 ", 4 " ... 5 ", relay J 1-1, J1-2 ... J1-n ... J2-1, J2-2 ... J2-n connects the control output end of switchboard 22 respectively; liquid level sensor 6 ', 7 ' ... 8 ' ... 6 ", 7 " ... 8 ' connects the water level detecting signal input part of switchboard 22 respectively, and switchboard 22 connects control power supply 21.

Its principle of work is the same.

Claims (6)

1, but the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment machine, it comprises suction culvert (23), suction culvert (23) is provided with entering water electromagnetic valve (1), Water Purifiers (2), it is characterized in that suction culvert (23) upward connects at least one ozone water generation unit, this ozone water generation unit has n pure water case, n 〉=2, n is an integer, be equipped with a liquid level sensor in each pure water case, the top of each pure water case is all by a water pipe, the moisturizing magnetic valve links to each other with suction culvert (23), the bottom of each pure water case all connects an electrolysis type ozone generator, and electrolysis type ozone generator links to each other by the rly. series connection and with stabilized current supply.

2, but the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment according to claim 1 machine, it is characterized in that in described each ozone water generation unit, comprise n pure water case, n pure water case connects n electrolysis type ozone generator, wherein the anode of n electrolysis type ozone generator links to each other with the anode of stabilized current supply, its negative electrode links to each other by the anode of n-1 the electrolysis type ozone generator that rly. is adjacent, the negative electrode of n-1 electrolysis type ozone generator links to each other by the anode of n-2 the electrolysis type ozone generator that rly. is adjacent, ... the negative electrode of the 2nd electrolysis type ozone generator links to each other by the anode of the 1st electrolysis type ozone generator that rly. is adjacent, the negative electrode of the 1st electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by rly., the moisturizing magnetic valve of entering water electromagnetic valve (1) and each ozone water generation unit, liquid level sensor, rly. is connected with switchboard (22) respectively, and switchboard (22) connects control power supply (21).

3, but the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment according to claim 2 machine, it is characterized in that in described each ozone water generation unit, comprise 2 pure water casees, 2 pure water casees connect 2 electrolysis type ozone generators, the anode of one of them electrolysis type ozone generator links to each other with the anode of stabilized current supply, negative electrode links to each other with the anode of another electrolysis type ozone generator by rly., the negative electrode of another electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by rly., the moisturizing magnetic valve of entering water electromagnetic valve (1) and each ozone water generation unit, liquid level sensor, rly. is connected with switchboard (22) respectively, and switchboard (22) connects control power supply (21).

But 4, the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment according to claim 3 machine, it is characterized in that described rly. is a double-contact relay, the negative electrode of an electrolysis type ozone generator links to each other with the anode of another electrolysis type ozone generator by a contact of this double-contact relay, and the negative electrode of another electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by another contact of this double-contact relay.

But 5, the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment according to claim 3 machine, it is characterized in that described rly. is the single contact rly., the negative electrode of an electrolysis type ozone generator links to each other with the anode of another electrolysis type ozone generator by a single contact rly., and the negative electrode of another electrolysis type ozone generator links to each other with the negative electrode of stabilized current supply by another single contact rly..

But 6, the ozone generating-device of the isolated electrolysis type ozone water of a kind of electrical equipment according to claim 2 machine is characterized in that described rly. is the single contact rly..