CN213220551U - Holder with negative ion leading-in function - Google Patents

Abstract

The utility model discloses a holder with leading-in function of anion, including first arm lock, the second arm lock, direct current high voltage power supply connects and ground connection connects, wherein, first arm lock sets up with the second arm lock relatively, and be in the same place through articulated elements movable joint between first arm lock and the second arm lock, and dispose elastic element on this articulated elements, spring element's both ends have two linking arms, two linking arms act on first arm lock and second arm lock respectively, so that first arm lock and second arm lock are the trend of clamping, discharge electrode is disposed to first arm lock and the relative one side of second arm lock, this discharge electrode passes through wire and direct current high voltage power supply and connects electric connection, and second arm lock disposes telluric electricity field with the relative one side of first arm lock, this telluric electricity field connects electric connection through another wire and ground connection. The clamp holder with the negative ion leading-in function can be fast clamped with the arm of a human body, and is more convenient and fast to use.

Description

Holder with negative ion leading-in function

Technical Field

The utility model relates to an anion application technology field especially relates to a holder with leading-in function of anion.

Background

Air negative ions, also known as "air vitamins", like sunlight and airQi is also an indispensable substance for human healthy life. The negative ions are generated by a pulse oscillation circuit of the negative ion generation module, the low voltage is boosted to direct current negative high voltage through the high voltage module, negative direct current high corona is continuously generated through the tip of the carbon fiber, a large amount of electrons (e-) are emitted at high speed, and the electrons cannot exist in the air for a long time (the service life of the electrons existing in the air is only ns level), and can be immediately absorbed by oxygen molecules (O) in the air₂) Trapping to form negative ions.

At present, the negative ions are mainly absorbed by the human body through breathing, skin, mucosa and the like. When the negative direct-current high-voltage corona discharge type air-purifying device is absorbed by a human body in a breathing mode, the corona discharge can be generated by applying negative direct-current high voltage to the needle-shaped electrode or the carbon fiber electric brush, negative ions are generated by ionized air and are blown into the air, and the human body is absorbed in a breathing mode. When the negative ion is absorbed by a human body in a skin mode, the pair of electrode clamping plates electrically connected with the negative ion generating module are clamped at two sides of an arm of the human body, and the pair of electrode clamping plates and the arm of the human body are tightly bound through the binding belt, so that negative ions generated by the electrode clamping plates are led into the skin of the human body and enter the whole blood circulation through peripheral blood vessels in the human body, and the health is promoted.

However, when the negative ions are absorbed by the human body in a breathing mode, the used electrode splint can be fixed with the arm of the human body only by binding the bandage, and the use is troublesome and not convenient enough.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a clamp holder with the function of leading in negative ions, which can be clamped by human arms quickly and is more convenient and faster to use.

The purpose of the utility model is realized by adopting the following technical scheme:

a holder having an anion introducing function, which is used in cooperation with an anion generating apparatus, comprising:

the first clamping arm is provided with a discharge electrode;

the second clamping arm is opposite to the first clamping arm, the second clamping arm is movably connected with the first clamping arm through a hinge, an elastic element is arranged on the hinge, two ends of the elastic element respectively act on the first clamping arm and the second clamping arm so that the first clamping arm and the second clamping arm are in a clamping trend, and a grounding electrode is arranged on one surface, opposite to the first clamping arm, of the second clamping arm;

the direct-current high-voltage power supply connector is electrically connected with the discharge electrode;

and the grounding joint is electrically connected with the grounding electrode.

Further, first arm lock with the one side that the second arm lock is relative is first arcwall face, the second arm lock with the one side that first arm lock is relative is the second arcwall face, first arcwall face is relative the second arcwall face upwards arches, correspondingly, the second arcwall face is relative first arcwall face undercut.

Further, a first elastic buffer layer is arranged between the first clamping arm and the discharge electrode, and a second elastic buffer layer is arranged between the second clamping arm and the grounding electrode.

Furthermore, a first mounting groove is formed in the opposite surface of the first elastic buffer layer and the second elastic buffer layer, the discharge electrode is embedded in the first mounting groove, a second mounting groove is formed in the opposite surface of the second elastic buffer layer and the first elastic buffer layer, and the grounding electrode is embedded in the second mounting groove.

Further, the first elastic buffer layer and the second elastic buffer layer are both made of sponge materials.

Further, a first air-permeable cloth layer is disposed on a surface of the discharge electrode facing the ground electrode, and a second air-permeable cloth layer is disposed on a surface of the ground electrode facing the discharge electrode.

Further, the first air-permeable cloth layer and the second air-permeable cloth layer are both made of pure cotton materials.

Further, the discharge electrode includes silica gel layer, first copper pole piece and the rubber layer that stacks gradually the setting, the silica gel layer with first arm lock contact, the rubber layer with earthing electrode is relative, and a plurality of through-holes that are used for supplying the anion circulation are seted up to the rubber layer.

Further, telluric electricity field is including the first copper pole piece and the conductive fiber layer that stack gradually the setting, first copper pole piece with the contact of second arm lock, conductive fiber layer with discharge electrode is relative.

Further, the first clamping arm and the second clamping arm are both made of plastic materials; the outer surfaces of the first clamping arm and the second clamping arm are coated with antistatic paint.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the discharge electrode and the grounding electrode are respectively arranged on two opposite sides of the elastic holder, and the holder is provided with the direct-current high-voltage power supply connector and the grounding connector, when in use, the direct-current high-voltage power supply connector and the grounding connector can be directly inserted into an external negative ion generating device, a palm part or a sole part of a human body is clamped between the first clamping arm and the second clamping arm, after the negative ion generating device is electrified, the negative ion generated between the first clamping arm and the second clamping arm can be led into the skin surface of the palm part or the sole part of the human body, and then the negative ion enters the whole body blood circulation through a peripheral blood vessel in the human body, so that the health is promoted, after the structure is improved, the operation of binding the first clamping arm and the second clamping arm with the palm part or the sole part of the human body is avoided, the use is more convenient and the use efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a holder with an anion introduction function according to the present invention;

FIG. 2 is a view showing a state in which the gripper having a negative ion introducing function shown in FIG. 1 is applied to a palm portion;

fig. 3 is a state diagram of the gripper having the negative ion introduction function shown in fig. 1 applied to a sole portion.

In the figure: 1. a first clamp arm; 11. a discharge electrode; 111. a silica gel layer; 112. a first copper pole piece; 113. a rubber layer; 12. a first elastic buffer layer; 13. a first breathable fabric layer; 2. a second clamp arm; 21. a ground electrode; 22. a second elastic buffer layer; 23. a second breathable fabric layer; 3. an articulation member; 4. a DC high voltage power supply connector; 5. a ground connection; 6. a palm portion; 7. a sole part.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

Referring to fig. 1, a holder with negative ion introduction function according to a preferred embodiment of the present invention is shown, the holder with negative ion introduction function is used in cooperation with a negative ion generator, which belongs to spare and accessory parts, it is understood that the negative ion generated by the negative ion generator is preferably a small-particle-size negative ion capable of entering into a living body (in this embodiment, the living body is a human body), and is defined as follows in the book "environmental health and negative oxygen ion" written by professor linjingming professor in university of qinghua university: the air negative ions have different sizes and can be divided into 3 types of small ions (0.001-0.003 mu m), medium ions (0.003-0.03 mu m) and large ions (0.03-0.1 mu m) according to the diameter of the particles; the small-particle-size negative ions are also called small ions or light ions, so the particle diameter of the small-particle-size negative ions in the embodiment is 0.001-0.003 μm, and the small-particle-size negative ions have the characteristics of good biological activity and long propagation distance, and can easily penetrate through the blood brain barrier of a human body to act on the human body.

The clamping device comprises a first clamping arm 1, a second clamping arm 2, a direct-current high-voltage power supply connector 4 and a grounding connector 5, wherein the first clamping arm 1 and the second clamping arm 2 are oppositely arranged, the first clamping arm 1 and the second clamping arm 2 are movably connected together through a hinge part 3, an elastic element is arranged on the hinge part 3, the hinge part 3 can be a pin shaft, the elastic element can be a spring or a torsion spring, two ends of the spring element are provided with two connecting arms, the two connecting arms respectively act on the first clamping arm 1 and the second clamping arm 2 to enable the first clamping arm 1 and the second clamping arm 2 to be in a clamping trend, one surface of the first clamping arm 1 opposite to the second clamping arm 2 is provided with a discharge electrode 11, the discharge electrode 11 is electrically connected with the direct-current high-voltage power supply connector 4 through a lead, one surface of the second clamping arm 2 opposite to the first grounding electrode 1 is provided with a 21, the grounding electrode 21 is electrically connected with the grounding connector 5 through another wire, when in use, the direct-current high-voltage power connector 4 is electrically connected with a direct-current high-voltage power end of an external negative ion generating device, the grounding connector 5 is electrically connected with a grounding end of the external negative ion generating device, after the power is switched on, a closed loop is formed between the discharge electrode 11 and the grounding electrode 21, and a corona discharge electric field is generated to ionize air, so that negative ions are generated.

The utility model discloses a holder with anion leading-in function, through disposing discharge electrode 11 and telluric electricity field 21 respectively on the relative both sides that have elastic holder, and dispose direct current high voltage power supply and connect 4 and ground connection 5 on this holder, during the use, can directly peg graft direct current high voltage power supply and connect 5 and connect on external anion generating device, and make human palm portion 6 or sole portion 7 centre gripping between first arm lock 1 and second arm lock 2, as shown in figure 2 or figure 3 specifically, after the circular telegram, can make the anion that produces between first arm lock 1 and second arm lock 2 lead to the skin surface of human palm portion 6 or sole portion 7, later the anion rethread human peripheral blood vessel gets into whole body blood circulation, promote health, after improving the structure, the operation of binding first arm lock 1, second arm lock 2 with human palm portion 6 or sole portion 7 has been removed, the use is more convenient, and the use efficiency is improved.

As a preferred embodiment, the first clamping arm 1 and the second clamping arm 2 are both made of a plastic material, and the first clamping arm 1 and the second clamping arm 2 are both hollow structures, so that the effect of the clamp can be effectively reduced, the clamping force applied to the human palm part 6 or the human foot part 7 by the clamp is smaller, the use comfort can be further improved, and the outer surfaces of the first clamping arm 1 and the second clamping arm 2 are coated with an antistatic paint, so that the effects of static resistance and insulation can be achieved, and the safety is improved.

Continuing to refer to fig. 1, the one side that first arm lock 1 with second arm lock 2 is relative is the first arcwall face of upwards hunch-up, second arm lock 2 with the one side that first arm lock 1 is relative is the second arcwall face of undercut for interval certain interval between first arm lock 1 and the second arm lock 2 sets up like this, can avoid the elasticity of this holder not enough and can't grasp human palm portion 6 or sole portion 7, secondly can guarantee to have certain interval between first arm lock 1 and second arm lock 2 and human palm portion 6 or sole portion 7, the ionization air of being convenient for, in order to improve anion production efficiency, thereby improve the leading-in effect of anion.

With continued reference to fig. 1, as a preferred embodiment, a first elastic buffer layer 12 is disposed between the first clamping arm 1 and the discharge electrode 11, a second elastic buffer 22 is disposed between the second clamping arm 2 and the grounding electrode 21, a first mounting groove is formed on the surface of the first elastic buffer layer 12 opposite to the second elastic buffer layer 22, the discharge electrode 11 is embedded in the first mounting groove, a second mounting groove is formed on the surface of the second elastic buffer layer 22 opposite to the first elastic buffer layer 12, the setting of telluric electricity field 21 inlays to be located in the second mounting groove, too big clamping-force can be avoided applying human palm portion 6 or sole portion 7 betterly to setting up of first elastic buffer layer 12 and second elastic buffer layer 22, effectively avoids human palm portion 6 or sole portion 7 to produce pain and feels, helps improving use comfort. In a preferred embodiment, the first elastic buffer layer 12 and the second elastic buffer layer 22 are made of sponge material, but in other embodiments, the first elastic buffer layer 12 and the second elastic buffer layer 22 may be made of other elastic materials.

With reference to fig. 1, in order to further improve comfort, in a preferred embodiment, a first air-permeable fabric layer 13 is disposed on a surface of the discharge electrode 11 facing the ground electrode 21, and a second air-permeable fabric layer 23 is disposed on a surface of the ground electrode 21 facing the discharge electrode 11. Specifically, the first air-permeable cloth layer 13 and the second air-permeable cloth layer 23 are both preferably made of a pure cotton material.

With reference to fig. 1, specifically, the discharge electrode 11 includes a silica gel layer 111, a first copper plate 112 and a rubber layer 113 stacked in sequence, the silica gel layer 111 contacts with the first clamping arm 1, the rubber layer 113 is opposite to the grounding electrode 21, the rubber layer 113 is provided with a plurality of through holes for negative ions to flow through, the silica gel layer 111 plays a role in protection and insulation, and the rubber layer 113 can play a role in better insulation, so as to ensure that the first clamping arm 1 is completely insulated from the surface contacting with the human body, and the use is safer.

With continued reference to fig. 1, as a preferred embodiment, the ground electrode 21 includes a first copper pole piece 112 and a conductive fiber layer, which are sequentially stacked, the first copper pole piece 112 is in contact with the second clamp arm 2, and the conductive fiber layer is opposite to the discharge electrode 11.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. A holder having a negative ion introducing function, which is used in cooperation with a negative ion generating device, comprising:

the first clamping arm is provided with a discharge electrode;

the second clamping arm is opposite to the first clamping arm, the second clamping arm is movably connected with the first clamping arm through a hinge, an elastic element is arranged on the hinge, two ends of the elastic element respectively act on the first clamping arm and the second clamping arm so that the first clamping arm and the second clamping arm are in a clamping trend, and a grounding electrode is arranged on one surface, opposite to the first clamping arm, of the second clamping arm;

the direct-current high-voltage power supply connector is electrically connected with the discharge electrode;

and the grounding joint is electrically connected with the grounding electrode.

2. The clamp holder with the negative ion introducing function according to claim 1, wherein a surface of the first clamping arm opposite to the second clamping arm is a first arc-shaped surface, a surface of the second clamping arm opposite to the first clamping arm is a second arc-shaped surface, the first arc-shaped surface is arched upwards relative to the second arc-shaped surface, and correspondingly, the second arc-shaped surface is sunken downwards relative to the first arc-shaped surface.

3. A holder having a negative ion introducing function according to claim 1, wherein a first elastic buffer layer is provided between said first arm and said discharge electrode, and a second elastic buffer layer is provided between said second arm and said ground electrode.

4. The holder with negative ion introducing function according to claim 3, wherein a first mounting groove is formed on a surface of the first elastic buffer layer opposite to the second elastic buffer layer, the discharge electrode is embedded in the first mounting groove, a second mounting groove is formed on a surface of the second elastic buffer layer opposite to the first elastic buffer layer, and the ground electrode is embedded in the second mounting groove.

5. A holder having an anion introducing function according to claim 3, wherein said first elastic buffer layer and said second elastic buffer layer are made of sponge material.

6. A holder having an anion introducing function according to claim 1, wherein a first air-permeable cloth layer is provided on a surface of said discharge electrode facing said ground electrode, and a second air-permeable cloth layer is provided on a surface of said ground electrode facing said discharge electrode.

7. The holder with the anion introducing function as claimed in claim 6, wherein the first air-permeable cloth layer and the second air-permeable cloth layer are made of pure cotton material.

8. The holder with the negative ion introduction function according to claim 1, wherein the discharge electrode comprises a silicone layer, a first copper electrode sheet and a rubber layer, which are sequentially stacked, the silicone layer is in contact with the first clamping arm, the rubber layer is opposite to the grounding electrode, and the rubber layer is provided with a plurality of through holes for negative ions to flow through.

9. The holder with the negative ion introduction function according to claim 1, wherein the ground electrode includes a first copper pole piece and a conductive fiber layer, which are sequentially stacked, the first copper pole piece being in contact with the second holder arm, and the conductive fiber layer being opposite to the discharge electrode.

10. The holder with the negative ion introducing function according to claim 1, wherein the first clamping arm and the second clamping arm are made of plastic materials; the outer surfaces of the first clamping arm and the second clamping arm are coated with antistatic paint.

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