TWI582272B - A tube type electrolytic machine - Google Patents

Description

Tube type electrolytic water treatment machine

The invention relates to a tubular electrolyzed water treatment machine, in particular to a first electrolysis tube and a second electrolysis tube which can infinitely amplify a multi-array electrolysis tube member and each group of electrolysis tubes, and are sequentially arranged above the tube seat to allow electrolysis The water forms a U-shaped circulation state between the first electrolytic tube and the second electrolytic tube, so that the relatively clean electrolyzed water is located above the first electrolytic tube and the second electrolytic tube, and the electrolysis water is extremely excellent, and is obtained from the first An innovation of a practical tubular electrolyzed water treatment machine that takes the separated and precipitated water under the electrolytic tube and the second electrolytic tube.

The liquid electrolysis device according to the prior art, such as the "liquid electrolysis device" of the invention No. I545230, mainly comprises an electrolytic cell, a separator, a lid body and an electrode sheet. The electrolytic cell is provided with an opening, a lower opening and a hollow connecting the two. The hollow portion is adapted to contain liquid water. The separator includes a first opening that is attached to a surface of the electrolytic cell that is open above the electrolytic cell. The cover is disposed on the other surface of the partition relative to the electrolytic cell. The cover body includes a fixing portion and a cover hole. The upper portion of the electrode sheet is fitted to the lid body and the lower portion thereof penetrates the first opening and the upper opening to penetrate the hollow portion. In practical applications, the electrolytic cell and the electrode sheets are respectively connected to a power source to electrolyze the liquid water in the electrolytic cell to generate hydrogen and oxygen. That is, the prior art is mainly to generate hydrogen and oxygen, and to accommodate liquid water by interconnecting electrolytic cells, and then to cover the plurality of electrode sheets into the electrolytic cell by the cover and the separator, and to make the liquid water Hydrogen and oxygen are generated via the electrode sheets, and cannot be expanded indefinitely to increase the production amount of hydrogen and oxygen, which is a disadvantage.

For this reason, the present inventors have been engaged in the construction work of metal construction for many years, and have studied the expansion of the conventional commercially known electrolytic treatment device, and have invented the present case.

The object of the present invention is to provide a tubular electrolyzed water treatment machine, in particular to a set of or a plurality of arrays of electrolytic tubes, and the first electrolytic tube and the second electrolytic tube of each group of electrolytic tubes can be infinitely expanded and connected. And sequentially arranged above the tube seat, so that the electrolyzed water of each group of electrolysis tubes continues to flow to the next group of electrolysis tubes, so that the relatively clean upper layer of electrolyzed water flows to the next group of electrolysis tubes, so as to produce extremely excellent Electrolysis of water, and the innovation of a practical tubular electrolyzed water treatment machine that obtains the separated and precipitated water in the lower part of each group of electrolytic tubes.

In order to achieve the above object, a tubular electrolyzed water treatment machine according to the present invention comprises at least: a first electrolytic tube having an upper end connected to the inlet pipe and a first electrolysis electrode member disposed in the first electrolysis tube, the foregoing a lower end of the electrolytic tube and one or more lower ends of the second electrolytic tube are connected to each other, and a second electrolytic electrode element is disposed in the second electrolytic tube, and the first electrolytic tube and the second electrolytic tube are infinitely The amplification is coupled and sequentially disposed above the tube seat to allow the electrolyzed water to form a U-shaped circulation state between the first electrolytic tube and the second electrolytic tube.

A tubular electrolyzed water treatment machine according to the present invention, wherein a plurality of electrolytic tube members are provided, wherein the respective groups of electrolytic tubes are composed of the first electrolytic tube and one or more second electrolytic tubes, and the plurality of electrolytic tubes are assembled It is arranged above the pipe seat to form an inclined structure. The communication pipe principle and gravity are used to allow the electrolyzed water of each group of electrolysis tubes to flow from top to bottom to the next group of electrolysis tubes.

A tubular electrolyzed water treatment machine according to the present invention, wherein a plurality of electrolytic tube members are provided, wherein the respective groups of electrolytic tubes are composed of the first electrolytic tube and one or more second electrolytic tubes, and the plurality of electrolytic tubes are assembled Sequentially arranged above the pipe seat, the above-mentioned groups of electrolysis pipes are arranged with different lengths, so that the groups of electrolytic tubes are arranged in an inclined manner, and the electrolysis water of each group of electrolysis tubes is continued by using the principle of connecting pipes and gravity. Flow from top to bottom to the next set of electrolytic tubes.

A tubular electrolyzed water treatment machine according to the present invention, wherein a plurality of electrolytic tube members are provided, wherein the respective groups of electrolytic tubes are composed of the first electrolytic tube and one or more second electrolytic tubes, and the plurality of electrolytic tubes are assembled It is arranged in the upper part of the pipe fittings in sequence. The above-mentioned various sets of electrolytic pipe fittings are provided with power pumping equipment, and the water is pumped by the power, so that the electrolyzed water of each group of electrolytic pipe fittings continues to flow to the next group of electrolytic pipe fittings.

The tubular electrolyzed water treatment machine of the present invention, wherein the intermediate array of the electrolysis tubes is connected between the outlet end of the second electrolysis tube member of the former group of electrolysis tubes and the inlet tube of the first electrolysis tube member of the next group of electrolysis tubes .

In order for the examiner to fully understand the tubular electrolyzed water treatment machine of the present invention, the following is explained in the following figures.

As shown in FIG. 1, a tubular electrolyzed water treatment machine of the present invention comprises at least: a first electrolytic tube 1 having an upper side end 10 (the upper end is only a space concept, and is not limited to the invention in the name range) and is connected to the water inlet pipe 2 The first electrolysis electrode element 30 is disposed inside the first electrolysis tube 1 to allow the various types of water liquid entering the first electrolysis tube 1 to be appropriately electrolyzed to separate impurities in the water. The lower end 11 of the first electrolytic tube 1 (the lower end is only a space concept, and is not limited to the scope of the invention) and is connected to the lower end 40 of the second electrolysis tube 4 with the conduit 20 and one or more. (The lower end is only a space concept, and is not limited to the invention in the name range), and a rotary valve 200 is provided at one end of the pipe 20 to allow the electrolyzed water passing through the first electrolytic pipe 1 to be discharged through the rotary valve 200. To the outside. The diameter of the first electrolytic tube 1 may be greater than, equal to, or smaller than the diameter of the second electrolytic tube 4. A second electrolysis electrode element 31 is also disposed in the second electrolysis tube 4, and the water liquid passing through the first electrolysis tube 1 is further electrolyzed by the second electrolysis tube 4 to increase the water quality of the electrolyzed water. Further, if the first electrolytic tube 1 is provided with more than one second electrolytic tube 4, the upper end 41 of the second electrolytic tube 4 can be joined by the line 21. Thus, the water liquid entering the first electrolytic tube 1 via the water inlet pipe 2 can enter the first electrolytic tube 1 from the upper side end 10 of the first electrolytic tube 1, and electrolyze the impurities in the water through the first electrolytic electrode element 30, and allow electrolysis. The water passes downward through the lower side end 11 of the first electrolytic tube 1, and then enters the lower side end 40 of the second electrolytic tube 4 via the line 20 into the second electrolytic tube 4, and again passes the water through the second electrolysis electrode member 31. The impurities are electrolyzed and separated, and the electrolyzed water is flowed up through the upper side end 41 of the second electrolytic tube 4 (the upper end is only a space concept, and is not limited to the scope of the invention), and flows out through the outlet end 22, which is The applicable embodiment of the present invention allows the electrolyzed water to form a U-shaped circulation state between the first electrolytic tube 1 and the second electrolytic tube 4, so that the relatively clean electrolyzed water is located in the first electrolytic tube 1 and the second electrolytic tube 4. Above, the separated and precipitated water substance is obtained from the lower side of the first electrolytic tube 1 and the second electrolytic tube 4.

2 to 4, the first embodiment of the present invention, the first embodiment is provided with a group of electrolytic tube parts, b group of electrolytic tube parts, c group of electrolytic tube parts, d group of electrolytic tube parts and e group of electrolytic tubes and other infinite expansion The complex array of electrolytic tubes. The group A electrolytic tube member, the b group electrolytic tube member, the c group electrolytic tube member, the d group electrolytic tube member and the e group electrolytic tube member are each provided with a first electrolytic tube 1 and one or more second electrolytic tubes 4 and the like. And the a group of electrolysis tube parts, the b group electrolysis tube parts, the c group electrolysis tube parts, the d group electrolysis tube parts and the e group electrolysis tube parts are sequentially arranged above the tube part seat 5 to form a tilt type structure, using the connection tube principle and gravity The electrolyzed water flowing through the electrolysis tube of the group a flows from top to bottom to the electrolysis tube of the b group, and the electrolyzed water of the electrolysis tube of the b group flows from the top to the bottom to the electrolysis tube of the c group, and the electrolyzed water of the electrolysis tube of the c group is from top to bottom. Flowing to the d-group electrolysis tube, the electrolyzed water of the d-group electrolysis tube flows from top to bottom to the e-group electrolysis tube, so that the relatively clean upper electrolysis water flows to the next group of electrolysis tubes to produce extremely excellent electrolyzed water. And the separated water is obtained from the lower part of each group of electrolytic tubes.

As shown in Figures 2 to 4, in order to allow the above-mentioned group A electrolytic tube, b group electrolytic tube, group c electrolytic tube, d group electrolytic tube and e group electrolytic tube to be connected to each other infinitely, it is to let the group a electrolytic tube outlet The end pipe 22 and the inlet pipe 2 of the first electrolysis tube 1 of the group b electrolysis tube are connected to each other, and the outlet end 22 of the b group of electrolysis tubes and the inlet tube 2 of the first electrolysis tube 1 of the c group of electrolysis tubes are connected to each other, and the c group of electrolysis tubes The outlet end 22 is connected to the inlet pipe 2 of the first electrolytic tube 1 of the d-group electrolytic tube member, and the outlet end 22 of the d-group electrolytic tube member and the inlet tube 2 of the first electrolytic tube 1 of the e-group electrolytic tube member are connected to each other. Expand to a complex array to match the quality of the water that is required to handle the electrolysis.

2 to 4, in order to allow the a group of electrolytic tube parts, the b group of electrolytic tube parts, the c group of electrolytic tube parts, the d group of electrolytic tube parts and the e group of electrolytic tube parts to be arranged above the tube seat 5 in order to form a tilted structure. The tube seat 5 is provided with a frame body 50, which can limit the positioning of a group of electrolysis tube parts, b group electrolysis tube parts, c group electrolysis tube parts, d group electrolysis tube parts and e group electrolysis tube parts (the invention can be expanded indefinitely, not limited to five The group of electrolysis tubes is provided with the tilting frame 51, so that the a group of electrolysis tubes, the b group of electrolysis tubes, the c group electrolysis tubes, the d group electrolysis tubes and the e group electrolysis tubes are sequentially arranged to form a group The electrolytic pipe fittings are higher than the b-group electrolytic pipe fittings, and the b-group electrolytic pipe fittings are higher than the c-group electrolytic pipe fittings, and the c-group electrolytic pipe fittings are higher than the d-group electrolytic pipe fittings and the d-group electrolytic pipe fittings are higher than the inclined arrangement of the e-group electrolytic pipe fittings. In this way, the first electrolytic tube 1 of the group A electrolytic tube member, the b group electrolytic tube member, the c group electrolytic tube member, the d group electrolytic tube member, and the e group electrolytic tube member, and the group a electrolytic tube member, the group b electrolytic tube member, and the group c can be made. The second electrolytic tube 4 of the same length of the electrolytic tube member, the d group electrolytic tube member and the e group electrolytic tube member is disposed above the inclined frame 51 to form a certain inclination, and the water liquid above the electrolytic tube can be obtained without the power. Continued to flow from top to bottom; of course, if the above-mentioned groups of electrolysis tubes are continuously set to different lengths, the tilting frame 51 may not be provided to achieve the same effect (not shown). In addition, the present invention also provides power pumping equipment for each group of electrolytic pipe fittings, which can accelerate the flow speed of the water liquid by pumping the water liquid, and can also achieve the group of electrolytic pipe fittings without the inclined structure. The effect of the liquid water inside is continuous.

FIG. 5 is a second embodiment of the present invention. The second embodiment is derived from the foregoing first embodiment, and is mainly used for the a group of electrolytic tube parts, the b group of electrolytic tubes, the group c electrolytic tubes, and the d group of electrolytic tubes. And the e-group electrolysis pipe fittings are further expanded with a1 group of electrolytic pipe fittings, b1 group electrolytic pipe fittings, c1 group electrolytic pipe fittings, d1 group electrolytic pipe fittings and e1 group electrolytic pipe fittings and other infinitely expanded electrolytic pipe fittings to enhance the treatment volume and treatment efficiency of the water liquid. .

6 is a third embodiment of the present invention. The third embodiment is derived from the first embodiment and the second embodiment, and is mainly used for the a group of electrolytic tube parts, the b group of electrolytic tubes, the group c of the electrolytic tubes, and the group d. The electrolytic tube member and the e-group electrolytic tube member are each composed of a first electrolytic tube 1 and four second electrolytic tubes 4. Of course, as described above, one or more of the first electrolytic tubes 1 may be combined with one or more second electrolytic tubes 4, as long as the purpose and effect of treating the electrolyzed water can be achieved.

In summary, the invention has the problem of solving the electrolysis problem of electrolyzed water, and can freely expand the number of electrolytic tubes according to the treatment amount and the processing quality, so that the invention has practical value and is a novel and progressive component of the present invention.

1‧‧‧First electrolytic tube

10‧‧‧Upper side

11‧‧‧ lower end

2‧‧‧man water pipes

20‧‧‧pipe

200‧‧‧Rotary valve

21‧‧‧ pipeline

22‧‧‧export end

30‧‧‧First Electrolytic Electrode Element

31‧‧‧Second Electrolytic Electrode Element

4‧‧‧Second electrolytic tube

40‧‧‧ lower end

41‧‧‧Upper side

a group ‧‧‧electrolytic pipe fittings

Group b ‧‧‧Electrochemical fittings

Group c ‧‧‧Electrochemical fittings

Group d‧‧‧Electrolysis fittings

Group e ‧‧‧electrolytic pipe fittings

5‧‧‧ tube seat

50‧‧‧ ‧ body

51‧‧‧ tilting frame

Group a1‧‧Electrical pipe fittings

Group b1 ‧ ‧ electrolytic pipe fittings

Group c1 ‧‧‧electrolytic pipe fittings

D1 group ‧‧‧electrolytic pipe fittings

E1 group ‧‧‧electrolytic pipe fittings

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an embodiment of a first electrolytic tube and a second electrolytic tube of the present invention. Figure 2 is a perspective view of a first embodiment of the present invention. Fig. 3 is a plan view showing a first embodiment of the present invention. Figure 4 is a side view of the first embodiment of the present invention. Figure 5 is a plan view of a second embodiment of the present invention. Figure 6 is a plan view of a third embodiment of the present invention.

1‧‧‧First electrolytic tube

10‧‧‧Upper side

11‧‧‧ lower end

2‧‧‧Water inlet

20‧‧‧pipe

200‧‧‧Rotary valve

21‧‧‧ pipeline

22‧‧‧export end

30‧‧‧First Electrolytic Electrode Element

31‧‧‧Second Electrolytic Electrode Element

4‧‧‧Second electrolytic tube

40‧‧‧ lower end

41‧‧‧Upper side

Claims (10)

A tubular electrolyzed water treatment machine comprises at least: a first electrolysis tube, wherein an upper side end thereof is connected with an inlet water pipe, and a first electrolysis electrode element is arranged in the first electrolysis tube to allow various types to enter the first electrolysis tube The water liquid is appropriately electrolyzed to separate the impurities in the water, and is connected to the lower side end of the first electrolytic tube and the lower side end of the one or more second electrolytic tubes, and the second electrolytic electrode element is disposed in the second electrolytic tube. The water passing through the first electrolytic tube is further electrolyzed by the second electrolytic tube to increase the water quality of the electrolyzed water, and the first electrolytic tube and the second electrolytic tube are connected in an unlimited amount and sequentially arranged in the tube holder. Above, to form a slanted structure, using the principle of connecting pipes and gravity, the electrolysis water of each group of electrolysis tubes is continuously flowed from top to bottom to the next group of electrolysis tubes, so that electrolyzed water is used in the first electrolysis tube and the second electrolysis A U-shaped circulation state is formed between the tubes, so that the relatively clean electrolyzed water is located above the first electrolysis tube and the second electrolysis tube, and extremely excellent electrolyzed water is produced, which is obtained from the lower side of the first electrolysis tube and the second electrolysis tube. through The precipitated water is separated. A tubular electrolyzed water treatment machine according to claim 1, wherein the lower end of the first electrolysis tube is connected to the lower end of the one or more second electrolysis tubes by a pipeline, and is at one end of the pipeline. A rotary valve is provided to allow the electrolyzed water passing through the first electrolytic tube to be discharged to the outside via the rotary valve. A tubular electrolyzed water treatment machine according to claim 1, wherein the water liquid entering the first electrolysis tube via the inlet pipe can enter the first electrolysis tube from the upper side end of the first electrolysis tube, and the water is passed through the first electrolysis electrode element. The impurities are electrolyzed and separated, and the electrolyzed water is passed down through the lower end of the first electrolytic tube, and then enters the second electrolytic tube via the pipeline into the lower side end of the second electrolytic tube, and the impurities in the water are again passed through the second electrolytic electrode element. Electrolytic separation, and the electrolyzed water flows upward through the upper end of the second electrolysis tube into the pipeline, and flows out through the outlet end, so that the electrolyzed water forms a U-shaped circulation treatment state between the first electrolysis tube and the second electrolysis tube. A tubular electrolyzed water treatment machine according to claim 1, wherein a plurality of electrolytic tube members are provided, and the respective groups of electrolytic tubes are composed of the first electrolytic tube and one or more second electrolytic tubes, and The multi-array electrolytic tube fittings are arranged in the upper part of the pipe fittings in order to form a slanted structure, and the electrolysis water of each group of electrolysis tubes is continuously flowed from the top to the bottom to the next group of electrolytic tubes by using the principle of the connecting tube and gravity. The clean upper electrolyzed water flows to the next group of electrolysis tubes to produce extremely fine electrolyzed water, and the separated water is obtained from the lower part of each group of electrolysis tubes. A tubular electrolyzed water treatment machine according to claim 4, wherein the plurality of electrolytic tube members are connected between the outlet end of the second electrolysis tube member of the former group of electrolysis tubes and the first electrolysis tube member of the next group of electrolysis tubes. The water inlet pipes are connected to each other. A tubular electrolyzed water treatment machine according to claim 4, wherein the plurality of arrayed electrolytic tube members are sequentially disposed above the tube seat to form a tilted structure, and the tube member is provided with a frame body to electrolyze the complex array The pipe fitting is restricted in positioning, the pipe fitting is provided with a tilting frame, and the foregoing group of electrolytic pipe fittings are sequentially arranged, so that the groups of the electrolytic pipe fittings are arranged in an inclined manner, so that each group of electrolytic pipe fittings is equal in length of the first electrolytic pipe and the second electrolytic cell. The tube, by using the inclination of the tilting frame, allows the water liquid above the electrolytic tube to continue to flow from top to bottom without power. A tubular electrolyzed water treatment machine according to claim 1, wherein a plurality of electrolytic tube members are provided, and the respective groups of electrolytic tubes are composed of the first electrolytic tube and one or more second electrolytic tubes, and The multi-array electrolytic tube fittings are arranged in the upper part of the pipe fittings in sequence, and the above-mentioned respective groups of electrolytic pipe fittings are arranged with different lengths, so that the groups of the electrolytic pipe fittings are formed in an inclined arrangement, and the connecting pipe principle and gravity are used to allow each group of electrolytic pipe fittings to be The electrolyzed water continues to flow from top to bottom to the next group of electrolysis tubes, so that the relatively clean upper electrolysis water flows to the next group of electrolysis tubes to produce extremely excellent electrolyzed water, which is obtained from the lower group of electrolysis tubes. Obtain the separated water in the sediment. A tubular electrolyzed water treatment machine according to claim 1, wherein a plurality of electrolytic tube members are provided, and the respective groups of electrolytic tubes are composed of the first electrolytic tube and one or more second electrolytic tubes, and The multi-array electrolytic tube fittings are arranged in the upper part of the pipe fittings in advance, and the above-mentioned various sets of electrolytic pipe fittings are provided with power pumping equipment, and the water is pumped by the power, so that the electrolyzed water of each group of electrolytic pipe fittings continues to flow to the next group of electrolytic pipe fittings, so that the cleaning is relatively clean. The upper layer of electrolyzed water continues to flow to the next group of electrolysis tubes to produce extremely fine electrolyzed water, and the separated water is obtained from the bottom of each group of electrolysis tubes. A tubular electrolyzed water treatment machine according to any one of claims 4 to 7, wherein each of the aforementioned groups of electrolysis tubes is provided with a power pumping device for extracting water liquid and accelerating the flow speed of the water liquid. A tubular electrolyzed water treatment machine according to any one of claims 1 to 8, wherein the diameter of the first electrolytic tube is greater than or equal to the diameter of the second electrolytic tube.