KR20170000889U - Hydrogen-rich Water Sticker - Google Patents

Abstract

The present invention relates to the field of household goods technology and provides hydrogen-rich water sticks. This includes a case, a first circuit board provided on the case, a battery electrically connected to the first circuit board, and three electrolyte sticks provided in the case and electrically connected to the first circuit board. The three electrolyte sticks perform a 1 (plus) 2 (minus) and 1 (minus) 2 (plus) alternation under the first circuit board control. In this design, when the hydrostatic stick operates, two of the three electrolyte sticks communicate with the positive pole of the power source and the other one with the positive pole of the power source. Or two are connected to the negative pole of the power source, and the other one is connected to the negative pole of the power source. Thus, two anodes and one cathode, two cathodes and one anode of electrolytic water are formed. The polarity of the three electrolyte sticks alternates. In this way, the ions in the electrolytic water are reciprocating, and the problem of generating charges of electrolytes by moving in one direction for a long time is solved. Not only increased the efficiency of the electrolyte but also increased the service life of the hydrostatic stick

Description

Hydrogen-rich Water Sticker

The present invention relates to the field of household goods technology, more specifically, to a hydrostatic stick.

 Conventional hydrostatic sticks generally used only 1 (plus) 1 (minus) electrolyte sticks to propel the electrolyte. In this way, not only the electrolyte effect is low but also the electrolytic capacity of the electrolyte sticks on the surface of the electrolyte stick rapidly drops and the life span is short.

Korean Utility Model Registration No. 20-0372282

The purpose of the present invention is to provide a hydrostatic stick to solve the problem of low water-stick electrochemical efficiency and short life span in the prior art.

Technical solution of this invention to solve the above technical problem: Provide hydrogen stick. The electrolytic device includes a case, a first circuit board mounted on the case, a battery electrically connected to the first circuit board, and three electrolyte sticks provided in the case and electrically connected to the first circuit board, 1 (positive) 2 (minus) and 1 (minus) 2 (plus) work under the control of the circuit board.

Wherein the electrolyte stick support includes an upper base, a lower plate, three side plates connected between the upper base and the lower plate, and three side plates spaced from each other, and the three electrolyte sticks are disposed on three sides And fixed to the inside of the plate.

The case includes an upper case and a lower case, and the upper portion of the upper base is connected to the lower portion of the upper case, and the lower portion of the upper base, the three side plates and the lower plate enter into the lower case, Are detachably connected.

The first circuit board is located on the upper part of the upper case, the battery is installed on the lower part of the first circuit, the lower part of the battery is placed in the upper base, the compression part is installed in the upper base, And the first circuit board is provided with an electrical connection part that can be electrically connected to the second circuit board by being lowered.

Three first sockets are provided on the squeeze part, the upper ends of the three electrolyte sticks are respectively inserted into three first sockets, three second sockets are provided in the lower plate, and the lower ends of the three electrolyte sticks are provided with three Place it in the second socket.

The first circuit board is provided with a USB charging terminal, and a USB charging hole is provided on the upper supporting board. The first circuit board is mounted on the upper supporting board. And the USB charging port is located in the USB charging hole.

The hydrogen stick includes a charging base that can be connected to an external power source. The charging base is provided with an insertion opening. The case is inserted upside down and inserted into the insertion opening. Charging contact parts are provided in the insertion opening. Install a connectable charging terminal.

The light shielding part is installed in the upper support, the indicator light used to inform the charging state is fixed on the light shielding part, and the through hole is provided on the upper case so that the indicator light can be tightened.

A touch switch is connected to the first circuit board on the upper part of the case.

The external structure of the case is a portable stick type structure.

In this design, when the hydrostatic stick operates, two of the three electrolyte sticks communicate with the positive pole of the power source and the other one with the positive pole of the power source. Or two are connected to the negative pole of the power source, and the other one is connected to the negative pole of the power source. Thus, two anodes and one cathode, two cathodes and one anode of electrolytic water are formed. The polarities of the three electrolyte sticks alternately under the switching action of the circuit. In this way, the ions in the electrolytic water are reciprocating, and the problem of generating charges of electrolytes by moving in one direction for a long time is solved. Not only increased the efficiency of the electrolyte but also increased the service life of the hydro-stick.

The three electrolyte sticks perform a 1 (plus) 2 (minus) and 1 (minus) 2 (plus) alternation under the first circuit board control. In this design, when the hydrostatic stick operates, two of the three electrolyte sticks communicate with the positive pole of the power source and the other one with the positive pole of the power source. Or two are connected to the negative pole of the power source, and the other one is connected to the negative pole of the power source. Therefore, two positive electrodes and one negative electrode or two negative electrodes and one positive electrode of electrolytic water are formed. The polarity of the three electrolyte sticks alternates. In this way, the ions in the electrolytic water are reciprocating, and the problem of generating charges of electrolytes by moving in one direction for a long time is solved. Not only increased the efficiency of the electrolyte but also increased the service life of the hydrostatic stick

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view of a hydro-stick provided by the present embodiment. Fig.
Fig. 2 is a cross-sectional view of the hydro-stick provided by the present embodiment. Fig.
3 is another angular sectional view of the hydroentangler provided by the present embodiment.
Fig. 4 is an exploded view of the hydrogen stick provided by the present embodiment. Fig.
Fig. 5 is a structural view of the hydrogen-water-proof stick provided by the present embodiment before charging the charging case.

In order to more clearly illustrate the objects, techniques and advantages of the present invention, the present invention will be described in more detail with reference to the drawings and examples. The specific embodiments described herein are used solely to interpret the present invention and are not used to limit the present invention.

It should be noted that when a part is called "fixed" or "installed" on another part, it may be directly on the other part or the part lying in the middle may be present at the same time.

When a part is said to be "connected" to another part, it can be connected directly to another part, or an intermediate part can be present at the same time.

Needless to say, the left, right, top, and bottom directional terms in this embodiment should not be construed as merely relative concepts, nor are they referring to the normal use of the product, and not as having limitations.

Please refer to Figs. 1 to 4. Fig. The hydrogen stick provided by the present invention comprises a case 10 having a stick shape as a whole, a first circuit board 20 provided on the case 10, a battery 30 electrically connected to the first circuit board 20, And three electrolytic sticks 40 installed in the case 10 and electrically connected to the first circuit board 20. Three electrolytic sticks 40 are provided and the three electrolyte sticks 40 undergo a 1 (plus) 2 (minus) and 1 (minus) 2 (plus) alternation operation under the control of the first circuit board 20. The overall appearance of the case 10 is stick-shaped and portable, making it convenient to use anytime and anywhere.

In this embodiment, the first circuit board 20 is electrically connected to the battery stick 30 through the battery stick 30. When placed in water, it conducts electrolytic action on water and supplies abundant hydrogen to the human body. Two of the three electrolyte sticks 40 are connected to the negative pole of the power source, and the other one is connected to the positive pole of the power source. Or two are connected to the negative pole of the power source, and the other one is connected to the negative pole of the power source. Thus, two anodes and one cathode, two cathodes and one anode of electrolytic water are formed. Also, under the switching action of the circuit, the polarity of the three electrolyte sticks alternately. In this way, the ions in the electrolytic water are reciprocating, and the problem of generating charges of electrolytes by moving in one direction for a long time is solved. Not only increased the efficiency of the electrolyte but also increased the service life of the hydro-stick.

In this embodiment, the hydrostatic stick includes one electrolyte stick support 50, and the electrolyte stick support 50 includes an upper base 51, a lower plate 52, a lower plate 52, And the three side plates 53 are spaced from each other and the three electrolyte sticks 40 are fixed to the inside of the three side plates 53. [ Three side plates 53 are provided at intervals and both ends of the three side plates 53 are inserted into the upper base 51 and the lower plate 52, respectively. There is a gap between the three side plates 53. After the three electrolyte sticks 40 are fixed, the three electrolyte sticks 40 are exposed in a semi-exposed state. When placing the electrolyte stick support 50 on the drinking water, the drinking water can pass through the clearance of the three side plates 53 and sufficiently contact the three electrolyte sticks 40. So that the three electrolyte sticks 40 can sufficiently perform electrolytic action on the drinking water.

Specifically, the case 10 includes an upper case 11 in the form of a cylinder and a case 12 in the form of a cylinder. The outer diameter of the upper case 11 is matched with the outer diameter of the lower case 12_ so that both are well connected to each other. The upper part of the upper base 51 of the upper case 50 is connected to the lower part of the upper case 11 and the lower part of the upper base 51 and the three side plates 53 and the lower plate 52 are inserted into the lower case 12 The upper portion of the lower case 12 and the lower portion of the upper base 51 are detachably connected to each other. Referring to FIGS. 2 and 3, A slot 511 is provided in the lower side wall of the upper base 51 and a locking device 121 is provided in the upper inner side wall of the lower case 12 to connect with the slot 511. When the electrolyte stick support 50 is mounted on the lower case 12, The lower case 12 is pulled out by using the elasticity of the lower case 12 to disengage the locking device 121 and the slot 511 when the upper case 121 is dismounted The lower case 12 is disassembled and the lower part of the electrolyte stick support 50 is inserted into the water to advance the electrolytic action.When the electrolyte is completed, The lower case 12 protects the electrolyte stick support 50 and prevents external dust, foreign matter, and the like from contaminating the electrolyte stick 40.

Specifically, the first circuit board 20 is placed on the upper portion of the upper case 11, the battery 30 is installed below the first circuit board 20, and the lower portion of the battery 30 is placed in the upper base 51 And a second circuit board 55 electrically connected to the three electrolyte sticks 40 is provided in the pressed part 54. The upper and lower base boards 51, The first circuit board 20 is provided with an electrical connection part that can be brought downward and electrically connected to the second circuit board 55. Thus, the first circuit board 20 is electrically connected to the second circuit board 55 through the electrical connecting parts, thereby realizing the electrical connection with the first circuit board 20 and the three electrolyte sticks 40.

In the present embodiment, three first sockets (not numbered) are provided on the pressed part 54, and the upper ends of the three electrolyte sticks 40 are respectively inserted into three first sockets, Three second sockets (not numbered) are provided in the lower plate 52, and the lower ends of the three electrolyte sticks 40 are respectively placed in three second sockets

The first circuit board 20 is mounted on the upper support 60 and the first circuit board 20 is mounted on the upper support 60. The first circuit board 20 is mounted on the upper support 60, The circuit board 20 is provided with a USB charging terminal 21 and a USB charging hole 61 is provided on the upper support 60 and a USB charging terminal 21 is placed in the USB charging hole 61. The USB charging hole (61_ installation allows you to charge the water-saving stick with the USB charging hole.) People can not live their life and work without water, and they can not live without water. This USB charging structure makes it easy for people to use the mini stick anytime and anywhere when they drink water on a daily basis and makes it easy to charge the mini stick.

5, the hydrostatic stick includes a charging stand 70 that can be connected to an external power source. An insertion port 71 is provided on the charging stand 70, and the case 10 is placed upside down. (Not shown in the drawing) is provided in the insertion port 71 and a charging terminal 22 is provided on the first circuit board 20 so that the charging terminal 22 can be electrically connected to the charging contact part. In addition to the charging stand 70 having a charging function, the charging stand 70 has a storing function to directly insert the case 10 into the charging stand 70 when it is not necessary to use the drinking water stick. do. Especially when using a water-soluble stick in an office environment, place the water-soluble stick on a desk to prevent it from falling or being lost. In addition, the harmony of the hydrogen stick and the charging stand (70) creates the effect of decorating the office desk beautifully.

In this embodiment, the light shielding part 80 is installed in the upper support 60, the indicator light 81 used for informing of the state of charge is fixed on the light shielding part 80, (The numbers are not shown in the drawings), and the indicator lamp 81 exits through the through holes. The number of indicator lights 81 may be several (three in this embodiment). The three indicator lights 81 are installed in parallel from top to bottom. Indicator light that lights up when charging (81) Quantity and charge amount are directly proportional. Only one indicator light 81 is turned on at the initial stage of charging, and the other indicator light 81 is constantly turned on when continuously charging. It means that charging is completed when all three indicator lights 81 are turned on. At this time, the user stops charging according to the instruction. Of course, it is also possible to inform the completion of the charging through the color setting of the indicator lamp 81.

In this embodiment, the upper portion of the upper support 60 has a touch switch 90 connected to the first circuit board 20. The touch switch (90) is sensitive to the reaction and is convenient when turning the device on and off.

The foregoing is a relatively ideal embodiment of the present invention and is not used to limit the present invention. All modifications, equivalents, and improvements within the spirit and scope of this invention should be included within the scope of this invention.

10: Case 11: Upper case
12: lower case 121: locking device
13: base 20: first circuit board
21: USB charging terminal 22: Charging terminal
30: Battery 40: Electrolyte stick
50: electrolyte stick support base 51: upper base
511: Slot 52:
53: side plate 54:
55: second circuit board 60: upper support
61: USB charging hole 70: Charging base
71: insertion port 80: light blocking part
81: Indicator 90: Touch switch
23: Electrical connection parts

Claims (10)

A case, a first circuit board provided on the case, and a battery electrically connected to the first circuit board,
And three electrolyte sticks installed in the case and electrically connected to the first circuit board,
Wherein the three electrolyte sticks perform a 1 (+) 2 (-) and a 1 (-) 2 (+) alternating operation under the control of the first circuit board. The method according to claim 1,
Wherein the hydroentangler includes an electrolyte stick support,
The electrolyte stick support base includes an upper base, a lower plate, and three side plates connected between the upper base and the lower plate. The three side plates are spaced from each other and the three electrolyte sticks are fixed inside the three side plates Features a hydroentangel stick. 3. The method of claim 2,
The case of the hydrostatic stick includes an upper case and a lower case,
The upper part of the upper base is connected to the lower part of the upper case and the lower part of the upper base, the three side plates and the lower plate enter into the lower case, and the upper part of the lower case and the lower part of the upper base are detachably connected. Hydrophobic stick. The method of claim 3,
The hydrostatic stick has a first circuit board located on the upper portion of the upper case, a battery installed on the lower portion of the first circuit, a lower portion of the battery disposed on the upper base, and a compression member disposed on the upper base. And a second circuit board electrically connected to the second circuit board, wherein the first circuit board is provided with an electrical connecting part that can be electrically connected to the second circuit board by being lowered. 5. The method of claim 4,
The hydrostatic stick is provided with three first sockets on the pressing part, the upper ends of the three electrolyte sticks are respectively inserted into three first sockets, three second sockets are provided in the lower plate, three electrolytic sticks And the lower end is placed in each of the three second sockets. The method according to claim 4 or 5,
Wherein the hydrogen stick comprises one upper support, the upper support inserts an upper portion of the upper case, the first circuit board is mounted to the upper support, the first circuit board has a USB charging terminal, Install a USB charging hole and place the USB charging port in the USB charging hole. The method according to claim 1,
The hydrogen stick includes a charging base that can be connected to an external power source. The charging base is provided with an insertion port. The case is inserted upside down and inserted into the insertion port. Charging contact parts are provided in the insertion port. Wherein a charging terminal that can be electrically connected is installed. The method according to claim 6,
Wherein the light blocking stick is provided with a light shielding part in the upper support, an indicator light used to inform the charging state is fixed on the light shielding part, and a through hole is provided on the upper case so that the indicator light can be tightened. stick. The method according to claim 1,
Wherein the hydro-stick comprises a touch switch connected to the first circuit board at an upper portion of the case. The method according to claim 1,
Wherein the hydrostatic stick is a stick-like structure that is portable.

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