CN108261016B

CN108261016B - Electrolytic hydrogen-rich cup

Info

Publication number: CN108261016B
Application number: CN201611254474.4A
Authority: CN
Inventors: 王一强; 高灿辉
Original assignee: Fuzhou Pinxing Technology Development Co Ltd
Current assignee: Fuzhou Pinxing Technology Development Co Ltd
Priority date: 2016-12-30
Filing date: 2016-12-30
Publication date: 2024-03-15
Anticipated expiration: 2036-12-30
Also published as: CN108261016A

Abstract

The invention relates to the technical field of electrolytic cups, in particular to an electrolytic hydrogen-rich cup which comprises a cup body and a cup cover sealed on the cup body, wherein an electrolytic water device is arranged in a containing cavity of the cup body, a battery module and a control circuit board are arranged at the bottom of the cup body, the battery module is electrically connected with the electrolytic water device through the control circuit board, and the battery module is electrically connected with a charging power supply through a charging module. The charging module of the electrolytic hydrogen-rich cup can realize quick plug and pull, can prevent short circuit, can be controlled by the mobile terminal, is simple and convenient to use, can activate water by means of the fluctuation device, enables macromolecular groups in the water to be broken into small molecular groups, and enables nutrient components to be more beneficial to human body absorption.

Description

Electrolytic hydrogen-rich cup

Technical Field

The invention relates to the technical field of electrolytic cups, in particular to an electrolytic hydrogen-rich cup.

Background

The electrolytic cup in the prior art is generally electrically connected by adopting a common plug, the plugging process is troublesome, if the cup body is provided with water stain dirt and the like after long-term use, the existing conductive joint is relatively close in distance, if the water stain dirt is locally charged, the short circuit can be caused, and the joint of the cup body is easy to be short-circuited due to the water stain after the plug is pulled out.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an electrolytic hydrogen-rich cup which at least enables the cup body to be quickly plugged and pulled out during charging.

In order to achieve the purpose of the invention, the technical scheme adopted is as follows:

the invention relates to an electrolytic hydrogen-rich cup which comprises a cup body and a cup cover sealed on the cup body, and is characterized in that: the cup is characterized in that an electrolytic water device is arranged in a containing cavity of the cup body, a battery module and a control circuit board are arranged at the bottom of the cup body, the battery module is electrically connected with the electrolytic water device through the control circuit board, the battery module is electrically connected with a charging power supply through the charging module, the charging module comprises an arc-shaped plate which is in a fitting shape with the outer peripheral surface of the cup body, a conductive joint is arranged on the inner side surface of the arc-shaped plate, the conductive joint is correspondingly arranged on the outer peripheral surface of the cup body, the conductive joint comprises a contact box and a magnetic contact which is internally arranged in the contact box, one end of the magnetic contact is movably arranged in the contact box by means of a reset spring, the other end of the magnetic contact is a free end, a non-magnetic conductive sheet is arranged at the position corresponding to the free end, a gap is reserved between the free end of the magnetic contact and the inner wall of the contact box when the non-magnetic conductive sheet of the two conductive joints are in a free state, the magnetic contact overcomes the pretightening force of the reset spring under the action of the magnetic attraction, and is abutted to the corresponding non-magnetic conductive sheet to conduct circuit, and at least one of the two conductive contacts is a permanent magnet.

The invention discloses a cup cover, which is characterized in that a fluctuation device is arranged in the cup cover and comprises an illumination module, a filling layer filled with polymer and magnets positioned at two opposite sides of filling, wherein the illumination module is a photodiode, and the photodiode is driven by a control circuit board to emit scintillation light with wavelength and frequency and acts on the polymer to excite the polymer to oscillate at low frequency.

The water electrolysis device comprises a shell fixed at the bottom of the cup body and an electrolytic water component arranged in the shell, wherein the electrolytic water component comprises a first electrode, a second electrode and an ionic membrane, a hydrogen generation cavity is arranged above the ionic membrane and is communicated with a cup body accommodating cavity, the first electrode is positioned in the hydrogen generation cavity, an ozone generation cavity is arranged below the ionic membrane and is of a sealing structure, the ozone generation cavity is communicated with an exhaust pipe, a one-way valve is arranged on the exhaust pipe, the second electrode is positioned in the ozone generation cavity, and the first electrode and the second electrode are respectively and electrically connected with the control circuit board.

The driving circuit board is provided with a wireless communication module, an electronic change-over switch and a microprocessor, the microprocessor is used for controlling the switching of the positive and negative polarities of the first electrode and the second electrode through the electronic change-over switch, the wireless communication module is connected with the microprocessor, and the mobile terminal is used for sending a control command to the microprocessor through the wireless communication module.

The invention also provides a conductive connector, which comprises a contact box and a magnetic contact built in the contact box, wherein one end of the magnetic contact is movably arranged in the contact box by virtue of a reset spring, the other end of the magnetic contact is a free end, a non-magnetic conductive sheet is arranged at the corresponding position of the contact box and the free end, a gap is reserved between the free end of the magnetic contact and the inner wall of the contact box when the reset spring is in a free state, the magnetic contact is abutted against a corresponding non-magnetic conductive sheet to conduct a circuit under the action of magnetic attraction under the action of the pretightening force of the reset spring, and at least one magnetic contact in the two conductive connectors is a permanent magnet.

The electrolytic hydrogen-rich cup has the beneficial effects that:

1. the charging module of the electrolytic hydrogen-rich cup can realize quick plug and pull, and can prevent short circuit;

2. the electrolytic hydrogen-rich cup can be controlled through the mobile terminal, and is simple and convenient to use;

3. the electrolytic hydrogen-rich cup can activate water by means of the fluctuation device, so that macromolecular groups in the water are broken into small molecular groups, and nutrient components are more beneficial to human body absorption.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of the overall structure of an electrolytic hydrogen-rich cup of the present invention;

fig. 2 is a schematic structural view of the charging module of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 in accordance with the present invention;

fig. 4 is a schematic circuit diagram of the electronic transfer switch of the present invention.

Wherein: cup 1, bowl cover 2, battery module 3, control circuit board 4, arc 51, contact box 52, magnetic contact 53, reset spring 54, first electrode 61, second electrode 62, electronic transfer switch 63.

Detailed Description

In the description of the present invention, it should be understood that the terms "radial," "axial," "upper," "lower," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "disposed," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1-4, the electrolytic hydrogen-rich cup of this embodiment includes a cup body 1 and a cup cover 2 sealed on the cup body 1, an electrolytic water device is arranged in a cavity of the cup body 1, a battery module 3 and a control circuit board 4 are arranged at the bottom of the cup body 1, the battery module 3 is electrically connected with the electrolytic water device through the control circuit board 4, the battery module 3 is electrically connected with a charging power supply through a charging module, in order to prevent short circuit caused by dirt, scale or fluid, the charging module of this embodiment includes an arc plate 51 attached to the outer peripheral surface of the cup body 1, an electric conduction joint is arranged on the inner side surface of the arc plate 51, an electric conduction joint is correspondingly arranged on the outer peripheral surface of the cup body 1, the electric conduction joint includes a contact box 52 and a magnetic contact 53 arranged in the contact box 52, one end of the magnetic contact 53 is movably mounted in the contact box 52 by means of a reset spring 54, the other end of the magnetic contact 53 is a free end, the non-magnetic conductive sheets are arranged at the corresponding positions of the contact box 52 and the free end, when the reset spring 54 is in a free state, a gap is reserved between the free end of the magnetic contact 53 and the inner wall of the contact box 52, the conductive connector on the arc plate 51 is propped against the conductive connector on the cup body 1 during charging, when the non-magnetic conductive sheets of the two conductive connectors are contacted, the magnetic contact 53 is propped against the corresponding non-magnetic conductive sheet to conduct a circuit under the action of magnetic attraction force against the pretightening force of the reset spring 54, at least one magnetic contact 53 in the two conductive connectors is a permanent magnet, the arc plate 51 is fixed on the cup body 1 by the magnetic attraction force, the arc plate 51 is pulled down after the charging is completed, the charging module is very fast in plugging and the magnetic contact 53 is reset under the action of the reset spring 54 after the arc plate 51 is evacuated, even if water stains exist on the surface of the cup body 1, the two conductive joints on the cup body 1 cannot be short-circuited, the normal internal electricity utilization is ensured, the two conductive joints on the cup body 1 can be mutually far away, and the short circuit cannot be caused by local water stains during charging.

The cup cover 2 of the embodiment is also internally provided with a fluctuation device, the fluctuation device comprises an illumination module, a filling layer filled with polymers and magnets positioned on two opposite sides of filling, the illumination module is a photodiode, the photodiode is driven by the control circuit board 4 to emit scintillating light with wavelength and frequency and acts on the polymers to excite the polymers to oscillate at low frequency, the low frequency oscillation acts on water and can activate the water by means of the magnetization of the magnets, and the macromolecular groups are broken into small molecular groups so as to be favorable for human body absorption.

The water electrolysis device of this embodiment includes the casing of fixing in cup 1 bottom and the built-in water electrolysis subassembly in the casing, water electrolysis subassembly includes first electrode 61, second electrode 62 and ionic membrane, the top of ionic membrane is hydrogen generation chamber, hydrogen generation chamber and cup 1 hold the chamber intercommunication, first electrode 61 is located hydrogen generation intracavity, the below of ionic membrane is ozone generation chamber, second electrode 62 is located ozone generation intracavity, ozone generation chamber is seal structure, ozone generation chamber intercommunication has the blast pipe, be equipped with the check valve on the blast pipe, the ozone of production can be discharged through the blast pipe, first electrode 61 and second electrode 62 are connected with control circuit board 4 electricity respectively. The driving circuit board is provided with a wireless communication module, an electronic change-over switch 63 and a microprocessor, the microprocessor is used for controlling and switching the positive and negative polarities of the first electrode 61 and the second electrode 62 through the electronic change-over switch 63, the wireless communication module is connected with the microprocessor, the mobile terminal sends a control command to the microprocessor through the wireless communication module, when hydrogen-rich water needs to be obtained, the microprocessor controls the electronic change-over switch 63 to electrically connect the cathode of the battery module 3 with the first electrode 61 and electrically connect the anode of the battery module 3 with the second electrode 62, so that the first electrode 61 electrolyzes water to produce hydrogen, hydrogen is fused into water, if a containing cavity of the cup body 1 needs to be cleaned, the microprocessor controls the electronic change-over switch 63 to electrically connect the anode of the battery module 3 with the first electrode 61 and electrically connect the cathode of the battery module 3 with the second electrode 62, so that the first electrode 61 electrolyzes water to produce ozone, and the ozone is fused into water to clean and disinfect the containing cavity of the cup body 1.

The present embodiment further provides a conductive connector that can be manufactured and used separately, and can achieve quick plugging and short circuit prevention, specifically, the conductive connector includes a contact box 52 and a magnetic contact 53 that is built in the contact box 52, one end of the magnetic contact 53 is movably mounted in the contact box 52 by means of a return spring 54, the other end of the magnetic contact 53 is a free end, a non-magnetic conductive sheet is disposed at a position corresponding to the free end of the contact box 52, a gap is provided between the free end of the magnetic contact 53 and an inner wall of the contact box 52 when the return spring 54 is in a free state, the magnetic contact 53 abuts against a corresponding non-magnetic conductive sheet on-conductive circuit under the action of magnetic attraction force of the return spring 54, and at least one magnetic contact 53 in the two conductive connectors is a permanent magnet.

It should be understood that the above-described specific embodiments are only for explaining the present invention and are not intended to limit the present invention. Obvious variations or modifications which extend from the spirit of the present invention are within the scope of the present invention.

Claims

1. The utility model provides an electrolysis hydrogen-rich cup, includes cup (1) and bowl cover (2) of sealing on cup (1), its characterized in that: the cup body (1) is internally provided with an electrolytic water device, the bottom of the cup body (1) is provided with a battery module (3) and a control circuit board (4), the battery module (3) is electrically connected with the electrolytic water device through the control circuit board (4), the battery module (3) is electrically connected with a charging power supply through a charging module, the charging module comprises an arc plate (51) which is attached to the outer peripheral surface of the cup body (1), the inner side surface of the arc plate (51) is provided with a conductive joint, the outer peripheral surface of the cup body (1) is correspondingly provided with a conductive joint, the conductive joint comprises a contact box (52) and a magnetic contact (53) which is arranged in the contact box (52), one end of the magnetic contact (53) is movably arranged in the contact box (52) by means of a reset spring (54), the other end of the magnetic contact (53) is a free end, a non-magnetic conductive sheet is arranged at the corresponding position of the free end, when the reset spring (54) is in a free state, the conductive joint is in contact with the non-magnetic sheet under the action of the pre-contact between the two conductive sheets (53) when the reset spring (54) is in contact with the conductive joint under the effect of the non-magnetic contact force of the non-conductive sheet, at least one magnetic contact (53) in the two conductive joints is a permanent magnet;

the cup cover (2) is internally provided with a fluctuation device, the fluctuation device comprises an illumination module, a filling layer filled with polymers and magnets positioned on two opposite sides of filling, the illumination module is a photodiode, and the photodiode is driven by the control circuit board (4) to emit scintillation light with wavelength and frequency and acts on the polymers to excite the polymers to oscillate at low frequency.

2. The electrolytic hydrogen-rich cup of claim 1, wherein: the water electrolysis device comprises a shell fixed at the bottom of the cup body (1) and an electrolytic water component arranged in the shell, the electrolytic water component comprises a first electrode (61), a second electrode (62) and an ionic membrane, a hydrogen generation cavity is arranged above the ionic membrane, the hydrogen generation cavity is communicated with the containing cavity of the cup body (1), the first electrode (61) is positioned in the hydrogen generation cavity, an ozone generation cavity is arranged below the ionic membrane, the ozone generation cavity is of a sealing structure, an exhaust pipe is communicated with the ozone generation cavity, a one-way valve is arranged on the exhaust pipe, the second electrode (62) is positioned in the ozone generation cavity, and the first electrode (61) and the second electrode (62) are respectively electrically connected with the control circuit board (4).

3. The electrolytic hydrogen-rich cup of claim 2, wherein: the control circuit board (4) is provided with a wireless communication module, an electronic transfer switch (63) and a microprocessor, the microprocessor is controlled to switch the positive and negative polarities of the first electrode (61) and the second electrode (62) through the electronic transfer switch (63), the wireless communication module is connected with the microprocessor, and the mobile terminal sends a control command to the microprocessor through the wireless communication module.

4. An electrical contact for an electrolytic hydrogen-rich cup according to claim 1, wherein: the magnetic contact (53) is movably mounted in the contact box (52) by means of a reset spring (54), the other end of the magnetic contact (53) is a free end, a non-magnetic conducting strip is arranged at the position corresponding to the free end of the contact box (52), a gap is reserved between the free end of the magnetic contact (53) and the inner wall of the contact box (52) when the reset spring (54) is in a free state, the magnetic contact (53) is abutted to a corresponding non-magnetic conducting strip on a conducting circuit under the action of magnetic attraction force against the pretightening force of the reset spring (54) when the non-magnetic conducting strips of the two conducting strips are in contact, and at least one magnetic contact (53) in the two conducting strips is a permanent magnet.