CN219440435U - Hand-held article with anion generating function - Google Patents

Abstract

The application discloses but hand-held article with anion generation function, but hand-held article has handheld position, cavity, power supply control part, anion generation part and static dissipative part, and static dissipative part is connected with static dissipative joint electricity, and static dissipative part can contact with skin when hand-held article works, and power supply control part and anion generation part hold in the cavity, and the cavity has the opening, and the anion generation head stretches out the cavity through the opening at least partially; the static dissipation part is at least partially arranged on the surface of the handheld part, so that when the body contacts the handheld part, the static dissipation part can conduct static dissipation through the body, positive ions are timely consumed, the negative ion generation part can work efficiently, negative ions are continuously released, and the situation that the negative ion generation part stops working is avoided.

Description

Hand-held article with anion generating function

Technical Field

The present utility model relates to an article with a negative ion generating function, and more particularly, to a hand-holdable article with a negative ion generating function.

Background

In natural ecosystems, forests and wetlands are important sites for the generation of air negative (oxygen) ions. The beneficial effects of anions on the human body are widely known, and air anions have good regulation effects on the autonomic nervous high-order central and autonomic nervous systems. This is also why we are in the spotlight in places with good natural environment such as forests and parks. After the air anions enter the human body through the respiratory tract, the secretion function of alveoli and the ventilation and air exchange function of the lung can be improved. The negative ions can also promote regeneration of nasal mucosa epithelial cells and restore the secretion function of the mucosa. Has good therapeutic effect on asthma, tracheitis, and pertussis of children. The air anions also have the obvious function of dilating blood vessels, and can relieve arterial vasospasm. The air negative ions are also beneficial to improving heart function and improving myocardial nutrition, are beneficial to the recovery of patients suffering from hypertension and cardiovascular and cerebrovascular diseases, and are beneficial to patients suffering from hypertension in the environment with high negative ion concentration in nature. However, modern people have a chance to touch forests and wetlands, and thus, devices specially used for generating air anions exist in the prior art.

The negative ion generator is a device for generating air negative ions, and the device processes the input direct current or alternating current through an EMI processing circuit and a lightning stroke protection circuit, and then performs overvoltage current limiting through a pulse circuit; the high-low voltage isolation and other circuits are raised to AC high voltage, then pure DC negative high voltage is obtained after rectifying and filtering by special grade electronic materials, the DC negative high voltage is connected to a release tip made of metal or carbon element, high corona is generated by using the tip DC high voltage, a large amount of electrons (e-) are released at high speed, the electrons cannot exist in the air for a long time (the service life of the existing electrons is only nS level), and the electrons are immediately separated by oxygen molecules (O) ₂ ) Capturing, thereby generating air anions. Negative ions in the air are very beneficial to the health.

However, in the process of generating negative ions by the negative ion generator, positive ions are also generated, and if the positive ions are not dissipated in time, the efficiency of the negative ion generator is greatly reduced, and even the operation is stopped. The negative ion generator can provide negative ion environment for human body, is beneficial to body health, but if positive electricity is not dissipated in time, the negative ion generator cannot continuously and stably work, so that the using effect is affected.

Disclosure of Invention

The utility model provides a hand-held article with a negative ion generating function, which is provided with a hand-held part, a cavity, a power supply control part, a negative ion generating part and a static dissipation part, wherein the negative ion generating part comprises a negative ion generating part main body, a positive electrode, a negative electrode, a static dissipation joint and a negative ion generating head which are respectively connected with the negative ion generating part main body, the power supply control part comprises a battery and a controller, the power supply control part is electrically connected with the positive electrode and the negative electrode of the negative ion generating part, so that the power supply control part can supply power to and control the work of the negative ion generating part, the static dissipation part is electrically connected with the static dissipation joint, the static dissipation part can be contacted with skin when the hand-held article works, the power supply control part and the negative ion generating part are accommodated in the cavity, and the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening; the static dissipative component is at least partially disposed on a surface of the hand-held region such that the static dissipative component is capable of static dissipation by the body when the body contacts the hand-held region.

Optionally, the static dissipative component has an area on the surface of the hand-held location of greater than 1 square centimeter.

Optionally, the static dissipation component is a metal foil wrapped by a mesh cloth, and the metal foil forms multi-point contact with the skin through the mesh cloth, so as to realize continuous multi-point static dissipation.

Optionally, the static dissipation component is a conductive cloth, and the conductive cloth is in contact with skin when the hand-holdable article works, so that continuous multi-point static dissipation is realized.

Optionally, the hand-holdable article is at least one selected from the group consisting of: handle, pen container, teacup, teapot, doll, gourd-shaped, walnut-shaped, and cylindrical.

Optionally, the hand-held site is at least partially made of a material selected from the group consisting of: plastic, ceramic, metal, wood, glass.

Alternatively, the hand-holdable region has a dimension of 3 cm to 20cm (i.e., the hand-holdable region has dimensions in both the X, Y and Z directions within this range).

Optionally, the power supply control component has a switch button, and the switch button is located outside the cavity.

The utility model also provides a hand-held article with the anion generating function, which is provided with a hand-held part, a cavity, a power supply control part, an anion generating part and a conducting wire, wherein the anion generating part comprises an anion generating part main body, a positive electrode, a negative electrode, a static dissipation joint and an anion generating head which are respectively connected with the anion generating part main body, the power supply control part comprises a battery and a controller, the power supply control part is electrically connected with the positive electrode and the negative electrode of the anion generating part, so that the power supply control part can supply power to the anion generating part and control the operation of the anion generating part, and the conducting wire is connected with the static dissipation joint, and when the hand-held article works, the conducting wire can be in contact with skin and can conduct static dissipation through a body; the power supply control part and the negative ion generating part are accommodated in the cavity, the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening.

Optionally, the conductive wire is made of conductive cloth or metal foil.

Optionally, the hand-holdable article is at least one selected from the group consisting of: handle, pen container, teacup, teapot, doll, gourd-shaped, walnut-shaped, and cylindrical.

Optionally, the hand-held site is at least partially made of a material selected from the group consisting of: plastic, ceramic, metal, wood, glass.

Alternatively, the hand-holdable region has a dimension of 3 cm to 20cm (i.e., the hand-holdable region has dimensions in both the X, Y and Z directions within this range).

Optionally, the power supply control component has a switch button, and the switch button is located outside the cavity.

The power supply control component and the negative ion generating component are accommodated in the cavity, the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening; the static dissipation component/the conductive wire can conduct static dissipation through a body, positive ions are timely consumed, the negative ion generation component can work efficiently, negative ions are continuously released, and the situation that the negative ion generation component stops working is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the following brief description will be given to the accompanying drawings, and it is obvious that the drawings in the following description relate only to some embodiments of the present disclosure, not to the limitation of the present disclosure.

FIG. 1 is a schematic illustration of the connection between components of a hand-holdable article provided herein;

FIG. 2 is a schematic illustration of a hand-holdable article provided herein;

FIG. 3 is a schematic view of another hand-holdable article provided herein;

FIG. 4 is a schematic illustration of yet another hand-holdable article provided herein;

FIG. 5 is a schematic illustration of the connection between components of yet another hand-holdable article provided herein;

fig. 6 is a schematic view of yet another hand-holdable article provided herein.

Reference numerals: 100-negative ion generating component, 110-negative ion generating component main body, 120-negative ion generating head, 130-static dissipation joint, 140-positive and negative electrode, 200-power supply control component, 210-battery, 220-controller, 300-static dissipation component, 400-cavity, 500-hand-held part.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

In this application, unless indicated otherwise or as may be learned by context, individual terms have their ordinary meaning as understood in the art.

The utility model discloses a hand-held article with a negative ion generating function, which comprises a hand-held part, a cavity, a power supply control part, a negative ion generating part and a static dissipation part.

The negative ion generating component comprises a negative ion generating component main body, a positive electrode, a negative electrode, a static dissipation joint and a negative ion generating head, wherein the positive electrode and the negative electrode are respectively connected with the negative ion generating component main body. The power supply control part comprises a battery and a controller, and the power supply control part is electrically connected with the positive electrode and the negative electrode of the negative ion generating part, so that the power supply control part can supply power to the negative ion generating part and control the work of the negative ion generating part. The static dissipation part is electrically connected with the static dissipation joint, when the handheld negative ion generating device works, the static dissipation part can be in contact with skin, the power supply control part and the negative ion generating part are accommodated in the cavity, the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening; the static dissipative component is at least partially disposed on a surface of the hand-held portion such that the static dissipative component is capable of static dissipation through the body when the body contacts the hand-held portion.

This application is through setting up static dissipative part, static dissipative part is direct and skin contact, can in time consume positive ion through static dissipative part when using, and guarantee negative ion takes place the part and can last stable high-efficient work, constantly releases the negative ion, avoids appearing the condition that the negative ion takes place the part stop work.

As an alternative embodiment, the present application provides a hand-holdable article wherein the static dissipative component has an area on the surface of the hand-held location of greater than 1 square centimeter.

The speed at which the static-dissipative member dissipates static electricity is positively related to the contact area, the greater the contact area of the static-dissipative member with the skin, the faster the static electricity is dissipated. The static dissipative component can be disposed entirely on the surface of the hand-held portion; or can be partially arranged on the surface of the hand-held part, and the rest is arranged in the cavity. The static dissipative member has an area on the surface of the hand-held area greater than 1 square centimeter, which ensures that static electricity dissipates at a faster rate.

As an alternative embodiment, the application provides a hand-holdable article, wherein the static dissipation component is a metal foil wrapped with a mesh cloth, and the metal foil forms multi-point contact with the skin through the mesh cloth, so as to realize continuous multi-point static dissipation.

The applicant unexpectedly found that the metal foil wrapped by the mesh cloth enables the mesh cloth to be in direct contact with the skin on one hand, ensures the holding comfort of a user, enables the wrapped metal foil to be in multi-point contact with the skin on the other hand, ensures good conductive effect in the use process, does not generate electric shock feeling in the use process, ensures the comfort and the electrostatic dissipation persistence, and enables negative ions to be generated continuously, and does not generate the condition that the negative ion generating component stops working.

As an alternative embodiment, the hand-holdable article provided herein wherein the static dissipative component is a conductive cloth that contacts the skin when the hand-holdable article is in operation, achieving continuous multi-point static dissipation.

The conductive cloth forms multi-point contact with the skin, so that the comfort is ensured, no electric shock feeling exists, static electricity is continuously dissipated, negative ions can be continuously generated, and the situation that the negative ion generating component stops working can not occur.

As an alternative embodiment, the present application provides a hand-holdable article, wherein the hand-holdable article is at least one selected from the group consisting of: handle, pen container, teacup, teapot, doll, gourd-shaped, walnut-shaped, and cylindrical.

As an alternative embodiment, the present application provides a hand-holdable article wherein the hand-held region is at least partially made of a material selected from the group consisting of: plastic, ceramic, metal, wood, glass.

As an alternative implementation mode, when the handheld part is made of metal materials, static electricity can be rapidly dissipated to the skin of a user due to good conductivity of the metal, so that negative ions can be continuously generated, and the situation that the negative ion generating component stops working is avoided.

As an alternative embodiment, the hand-holdable article provided herein may use wood, dig the wood out of the cavity, house the power supply control component and the anion generating component in the cavity, the cavity having an opening, the anion generating head extending at least partially out of the cavity through the opening; the static dissipation part is at least partially arranged on the surface of the handheld part, so that when the body contacts the handheld part, the static dissipation part can conduct static dissipation through the body, thereby ensuring that negative ions can be continuously generated and ensuring that the handheld article can continuously and stably work.

As an alternative implementation mode, the hand-held article provided by the application can use ceramics and glass as materials to manufacture a container of the ceramics and the glass, the power supply control component and the anion generating component are accommodated in a cavity of the container, the cavity is provided with an opening, and the anion generating head at least partially extends out of the cavity through the opening; the static dissipative component is at least partially disposed on a surface of the hand-held portion such that the static dissipative component is capable of static dissipation through the body when the body contacts the hand-held portion.

As an alternative embodiment, the present application provides a hand-holdable article wherein the hand-holdable region has a size of 3 cm to 20cm (i.e., the hand-holdable region has a size in both the X, Y and Z directions within this range).

As an alternative embodiment, the present application provides a hand-holdable article wherein the power control means has a switch button located outside the cavity. The user can control the hand-held article to generate or stop generating negative ions only by operating the switch button positioned outside the cavity, so that the hand-held article is very convenient.

As an alternative implementation mode, the power supply control component and the negative ion generation component are arranged in a split mode, and the problem that the attractive appearance is greatly affected due to the fact that the combined arrangement size is avoided.

The utility model also provides a hand-held article with the anion generating function, which is provided with a hand-held part, a cavity, a power supply control part, an anion generating part and a conducting wire, wherein the anion generating part comprises an anion generating part main body, a positive electrode, a negative electrode, a static dissipation joint and an anion generating head which are respectively connected with the anion generating part main body, the power supply control part comprises a battery and a controller, the power supply control part is electrically connected with the positive electrode and the negative electrode of the anion generating part, so that the power supply control part can supply power to the anion generating part and control the operation of the anion generating part, and the conducting wire is connected with the static dissipation joint, and when the hand-held article works, the conducting wire can be in contact with skin and can conduct static dissipation through a body; the power supply control part and the negative ion generating part are accommodated in the cavity, the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening.

Optionally, the conductive wire is made of conductive cloth or metal foil.

In this application, the anion passes through the anion and takes place the head release, outwards stretches out the anion and takes place the head from the cavity and can make the anion reach user's mouth and nose rapidly, and the absorption of being convenient for, simultaneously, the anion takes place the part main part and is close to the anion takes place the head setting, reduces the anion and takes place the part main part and the anion and take place the distance between the head to make the anion take place the part main part and carry the anion to the anion take place the head fast. The power supply control component and the negative ion generating component are accommodated in the cavity, the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening; the static dissipation component/the conductive wire can conduct static dissipation through a body, positive ions are timely consumed, the negative ion generation component can work efficiently, negative ions are continuously released, and the situation that the negative ion generation component stops working is avoided.

The above-described ranges may be used alone or in combination. The present application can be more easily understood by the following examples.

The raw materials used in the examples of the present application are all commercially available components, and the sources are shown in the following table:

name of the name	Model number	Merchant
			Negative ion generating component	MY-303	Household electric appliance for herding sound in Leqing city
Metal foil	8011 aluminium foil	Shanghai Starfish North industries Co.Ltd
			Mesh cloth	Knitted fabric	Shaoxing Yunfa knitwear Co.,Ltd.
Conductive cloth	Metal fiber radiation-proof fabric	Qingdao Zhixiangyu functional fabrics Co.Ltd

Example 1

The present embodiment discloses a hand-holdable article having a negative ion generating function, the hand-holdable article having a negative ion generating part 100, a power supply controlling part 200, a static dissipative part 300, a cavity 400, a hand-held portion 500.

Fig. 1 shows the connection relationship among the negative ion generating section 100, the power supply control section 200, and the static dissipative section 300.

The negative ion generating member 100 includes a negative ion generating member main body 110, positive and negative electrodes 140 connected to the negative ion generating member main body 110, respectively, a static dissipative joint 130, and a negative ion generating head 120.

The power supply control part 200 includes a battery 210 and a controller 220, and the power supply control part 200 and the positive and negative electrodes 140 are electrically connected, so that the power supply control part 200 can supply power to and control the operation of the negative ion generating part 100.

The static dissipative member 300 is electrically connected to the static dissipative joint 130. The static dissipative component 300 is at least partially disposed on the surface of the hand-held portion 500 such that the static dissipative component is capable of static dissipation by the body when the body contacts the hand-held portion 500.

The power supply control part 200 and the negative ion generating part 100 are accommodated in the chamber.

The cavity 400 has an opening through which the negative ion generating head 120 at least partially protrudes out of the cavity 400.

When a user holds the hand-holdable article with the negative ion generating function in the application, the hand of the user contacts the hand-holding part 500 of the hand-holdable article, and at least part of the static dissipation component 300 arranged on the surface of the hand-holding part 500 can conduct static dissipation through the body of the user, positive ions are timely consumed through the static dissipation component, so that negative ions can be continuously generated, and the situation that the negative ion generating component stops working can not occur.

The hand-holdable articles provided by embodiments of the present application may be in various shapes, such as handles, pens, teacups, teapots, dolls, cucurbits, walnuts, cylinders, and the like. Fig. 2 and 3 show a teapot-shaped hand-holdable article. Fig. 4 shows a pen container shaped hand-holdable article.

In the hand-holdable articles shown in fig. 2, 3, 4, the hand-held portion may be made of plastic, ceramic, metal, wood, glass, or the like. Since the static dissipation rate is positively correlated with the contact area, the larger the contact area, the faster the static dissipation rate.

The static dissipative component 300 has an area on the surface of the hand-held portion of greater than 1 square centimeter.

The hand-holdable article shown in fig. 3, the static dissipative member 300 is a metal foil wrapped with a mesh cloth through which the metal foil makes multi-point contact with the skin to achieve continuous multi-point static dissipation. The static dissipative member 300 is a metal foil wrapped with a mesh cloth that is in direct contact with the skin, ensuring comfort of the user's hand. The metal foil of the static dissipation part forms multi-point contact with a human body through the mesh cloth, a user cannot generate electric shock feeling in the use process, the use comfort is guaranteed, continuous multi-point static dissipation is realized, a good conductive effect can be ensured, the continuity of static dissipation is guaranteed, positive ions are timely consumed through the static dissipation part, negative ions can be continuously generated, the situation that the negative ion generation part stops working cannot occur, and the negative ion generation part can stably work is guaranteed.

The hand-holdable article shown in fig. 4, the static dissipative member 300 is dispersed over the hand-held region 500, and when the user holds the hand-held region 500, the static dissipative member 300 makes multi-point contact with the skin, achieving continuous multi-point static dissipation.

As an optional implementation manner, the static dissipation component 300 is conductive cloth, which is in contact with a human body, so as to realize continuous multi-point static dissipation, ensure good conductive effect, ensure that no electric shock feeling is generated in the use process, ensure the continuity of static dissipation, and enable positive ions to be timely consumed by the static dissipation component when in use, so that negative ions can be continuously generated, and no stop of the working condition of the negative ion generation component occurs.

As an alternative embodiment, the hand-holdable article provided in the examples herein, wherein the hand-holdable portion has a size of 3 cm to 20cm (i.e., the hand-holdable portion has a size in each of X, Y and Z directions within this range). This dimension is an ergonomically calculated dimension that is convenient for the user to hold. If the size of the hand-holdable part is smaller than 3 cm, the hand-holdable part cannot be held by a user, and if the size of the hand-holdable part is larger than 20cm, the hand-holdable article is quite heavy, not exquisite and inconvenient to carry.

As an alternative implementation manner, the handheld article provided in the embodiment of the present application, wherein the power supply control component has a switch button, and the switch button is located outside the cavity. The switch button is arranged outside the cavity for facilitating the use of a user, and the user can hold the article to start working only by pressing the switch button, so that the negative ion generating component generates negative ions.

The test device is a KT-401P type air negative ion tester of European electric appliance limited company of Cixi city, the monitoring result shows that the negative ion content in the air at the distance of 10cm is more than 2000 ten thousand/cubic centimeter, the negative ion content in the air at the distance of 20cm is 90 ten thousand to 220 ten thousand/cubic centimeter, the negative ion content in the air at the distance of 30cm is about 1 ten thousand/cubic centimeter, the negative ion concentration is not obviously reduced in the monitoring process, and the handheld object can continuously and stably work with good efficiency. In the monitoring process, the subject has no electric shock feeling and is comfortable to wear.

Example 2

The present embodiment discloses a hand-holdable article having a negative ion generating function, the hand-holdable article having a negative ion generating part 100, a power supply control part 200, a conductive wire 300, a cavity 400, and a hand-held portion 500.

Fig. 5 shows the connection relationship among the negative ion generating section 100, the power supply control section 200, and the conductive wire 300.

The negative ion generating member 100 includes a negative ion generating member main body 110, positive and negative electrodes 140 connected to the negative ion generating member main body 110, respectively, a static dissipative joint 130, and a negative ion generating head 120.

The power supply control part 200 includes a battery 210 and a controller 220, and the power supply control part 200 and the positive and negative electrodes 140 are electrically connected, so that the power supply control part 200 can supply power to and control the operation of the negative ion generating part 100.

Conductive line 300 is connected to static dissipative tab 130. The conductive line 300 is capable of electrostatic dissipation through the body.

The power supply control part 200 and the negative ion generating part 100 are accommodated in the chamber.

The cavity 400 has an opening through which the negative ion generating head 120 at least partially protrudes out of the cavity 400.

When a user holds the hand-holdable article with the negative ion generating function in the application, the hand of the user contacts the conductive wire 300, the conductive wire 300 can conduct static dissipation through the body of the user, positive ions are timely consumed, negative ions can be continuously generated, and the situation that the negative ion generating component stops working cannot occur.

The hand-holdable articles provided by embodiments of the present application may be in various shapes, such as handles, pens, teacups, teapots, dolls, cucurbits, walnuts, cylinders, and the like.

Fig. 6 shows a cylindrical hand-holdable article. The hand-holdable article has a negative ion generating member 100 (the negative ion generating member 100 includes a negative ion generating member main body 110, positive and negative electrodes 140 connected to the negative ion generating member main body 110, respectively, a static dissipative joint 130, a negative ion generating head 120, the negative ion generating head 120 being shown in fig. 6), a conductive wire 300, a cavity 400, a hand-held portion 500, and a power supply control member 200 (located in the cavity 400, not shown in fig. 6). The conductive wire 300 protrudes outward from the cavity 400.

The power supply control part 200 includes a battery 210 and a controller 220, and the power supply control part 200 and the positive and negative electrodes 140 are electrically connected, so that the power supply control part 200 can supply power to and control the operation of the negative ion generating part 100.

Conductive line 300 is connected to static dissipative tab 130. The conductive line 300 is capable of electrostatic dissipation through the body.

The power supply control part 200 and the negative ion generating part 100 are accommodated in the chamber.

The cavity 400 has an opening through which the negative ion generating head 120 at least partially protrudes out of the cavity 400.

In the hand-holdable article shown in fig. 6, the hand-held portion may be made of plastic, ceramic, metal, wood, glass, or the like.

When a user holds the hand-holdable article with the negative ion generating function as shown in fig. 6 in the present application, the user's hand contacts the conductive wire 300, and the conductive wire 300 can perform static dissipation through the user's body, so that negative ions can be continuously generated by timely consuming positive ions, and the situation that the negative ion generating component stops working does not occur.

The conductive wire is made of conductive cloth or metal foil. When the hand-held article is used, the conductive cloth or the metal foil is directly contacted with skin, so that the comfort of a user is ensured, the user can not generate electric shock feeling in the use process, the comfort of the use is ensured, continuous multipoint static dissipation is realized, good conductive effect can be ensured, the continuity of static dissipation is ensured, positive ions are timely consumed through the conductive cloth or the metal foil, negative ions can be continuously generated, the situation that the negative ion generating component stops working can not occur, and the negative ion generating component can be ensured to work stably.

As an alternative embodiment, the hand-holdable article provided in the examples herein, wherein the hand-holdable portion has a size of 3 cm to 20cm (i.e., the hand-holdable portion has a size in each of X, Y and Z directions within this range). This dimension is an ergonomically calculated dimension that is convenient for the user to hold. If the size of the hand-holdable part is smaller than 3 cm, the hand-holdable part cannot be held by a user, and if the size of the hand-holdable part is larger than 20cm, the hand-holdable article is quite heavy, not exquisite and inconvenient to carry.

As an alternative implementation manner, the handheld article provided in the embodiment of the present application, wherein the power supply control component has a switch button, and the switch button is located outside the cavity. The switch button is arranged outside the cavity for facilitating the use of a user, and the user can hold the article to start working only by pressing the switch button, so that the negative ion generating component generates negative ions.

The test device is a KT-401P type air negative ion tester of European electric appliance limited company of Cixi city, the monitoring result shows that the negative ion content in the air at the distance of 10cm is more than 2000 ten thousand/cubic centimeter, the negative ion content in the air at the distance of 20cm is 90 ten thousand to 220 ten thousand/cubic centimeter, the negative ion content in the air at the distance of 30cm is about 1 ten thousand/cubic centimeter, the negative ion concentration is not obviously reduced in the monitoring process, and the handheld object can continuously and stably work with good efficiency. In the monitoring process, the subject has no electric shock feeling and is comfortable to wear.

The foregoing is merely exemplary embodiments of the present disclosure and is not intended to limit the scope of the disclosure, which is defined by the appended claims.

Claims (9)

1. A hand-held article with anion generating function is characterized in that the hand-held article is provided with a hand-held part, a cavity, a power supply control component, an anion generating component and a static dissipation component,

the negative ion generating component comprises a negative ion generating component main body, a positive electrode, a negative electrode, a static dissipation joint and a negative ion generating head which are respectively connected with the negative ion generating component main body,

the power supply control part comprises a battery and a controller, the power supply control part is electrically connected with the positive electrode and the negative electrode of the negative ion generating part, so that the power supply control part can supply power to the negative ion generating part and control the work of the negative ion generating part,

the static dissipative member is electrically connected to the static dissipative joint, the static dissipative member being capable of contacting the skin when the hand-holdable article is in operation,

the power supply control part and the negative ion generating part are accommodated in the cavity,

the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening;

the static dissipative member is at least partially disposed on a surface of the hand-held region, such that when the body contacts the hand-held region, the static dissipative member is capable of static dissipation by the body,

the static dissipation component is a metal foil wrapped by a mesh cloth, and the metal foil forms multi-point contact with the skin through the mesh cloth so as to realize continuous multi-point static dissipation.

2. The hand-holdable article of claim 1, wherein the static dissipative component has an area on the surface of the hand-held location of greater than 1 square centimeter.

3. A hand-holdable article according to claim 1 or claim 2, wherein the static dissipative component is a conductive cloth that contacts the skin when the hand-holdable article is in operation, effecting continuous multi-point static dissipation.

4. A hand-holdable article according to claim 3, wherein the hand-holdable article is at least one selected from the group consisting of: handle, pen container, teacup, teapot, doll, gourd-shaped, walnut-shaped, and cylindrical.

5. The hand-holdable article of claim 1, wherein the hand-held region is at least partially made of a material selected from the group consisting of: plastic, ceramic, metal, wood, glass.

6. The hand-holdable article of claim 1, wherein the hand-held region has a dimension of 3 cm to 20cm, i.e., the hand-held region has dimensions in both the X, Y and Z directions within this range.

7. The hand-holdable article of claim 1, wherein the power supply control member has a switch button, the switch button being located outside the cavity.

8. A hand-held article with anion generating function is characterized in that the hand-held article is provided with a hand-held part, a cavity, a power supply control part, an anion generating part and a conducting wire,

the negative ion generating component comprises a negative ion generating component main body, a positive electrode, a negative electrode, a static dissipation joint and a negative ion generating head which are respectively connected with the negative ion generating component main body,

the power supply control part comprises a battery and a controller, the power supply control part is electrically connected with the positive electrode and the negative electrode of the negative ion generating part, so that the power supply control part can supply power to the negative ion generating part and control the work of the negative ion generating part,

the conductive wire is connected with the static dissipation joint, and can be contacted with skin when the hand-held article works, and can conduct static dissipation through a body;

the power supply control part and the negative ion generating part are accommodated in the cavity,

the cavity is provided with an opening, and the negative ion generating head at least partially extends out of the cavity through the opening.

9. The hand-holdable article of claim 8, wherein the conductive wire is made of conductive cloth or metal foil.