CN104349692A - Footwear conductive loop and footwear - Google Patents

Abstract

A unique footwear conductive loop comprises at least one upper footwear conductive loop formed by one upper conductive wire and at least one lower footwear conductive loop formed by one lower conductive wire. The upper conductive wire contacts the bottom of a person's foot and the lower conductive wire contacts the floor. The upper footwear conductive loop is electrically connected the lower footwear conductive loop for draining static charges from the person to the floor. The unique footwear conductive loop achieves a simple, easy-to-make, highly durable and a low cost means to convert ordinary footwear to precisely controlled body-to-ground electrical resistance footwear for use in a cleanroom or non-cleanroom high technology manufacturing environment.

Description

Footwear conducting ring and footwear

Technical field

The present invention relates to static discharge field, more particularly, relate to the footwear of a kind of footwear conducting ring and this footwear conducting ring of assembling.

Background technology

Along with the miniaturization trend of microchip in electronic industry, due to its damage of electrostatic discharge, static discharge (electrostatic discharge, ESD) has become the major consideration improving the quality of products and reduce qualification rate.Static discharge control and management has become at competition high severity, with high content of technology and prevent means extremely important and indispensable in damage of electrostatic discharge in the global electronic manufacturing industry of fast development.

In typical ESD control program, whole materials, people and machine must ground connection thus eliminate or minimize static discharge (ESD) events incidence in the electronic assemblies working environment of ESD sensitivity.Existing various prior art relates to & and emphasizes footwear earthing or grounding means or the use of annex in the industry of ESD footwear, following is a list some prior aries wherein.

United States Patent (USP) 4249226 discloses a kind of being fixed on daily footwear with the conductive strips of the electrostatic charge ground connection of being assembled by human body.

United States Patent (USP) 4812948 discloses a kind of footwear ground connection conductive strips with electrostatic dissipation exposed surface, and the electrostatic charge which provided for wearer is protected and protects with Danger Electric shock risk during electrical power contacts.

German patent DE 19716332A1 discloses a kind of attached flexible circuit, and this attached flexible circuit is wound around shoes, extends through the below of footwear from periphery, is then freely accommodated to the surface of sole to realize the simple and easy conversion of daily footwear to static discharge footwear.

Korean Patent KR2010008914U discloses a kind of electrostatic apparatus for removing, comprises the heel area being attached to footwear and links up with to provide the U-shape footwear of conductive path electrostatic charge being discharged to ground from human body.

Malaya West Asia patent PI201000262 discloses a kind of conducting ring, this conducting ring in a different manner or configuration through sole with obtain by electrostatic charge from human body be discharged to ground conductive path.

PCT application PCT/CN2011/081005 discloses a kind of conductive strips, these conductive strips comprise U-shape fixture and otch (split) design, this U-shape fixture has the afterbody freely rested in sole surface, described opening design is positioned at the bottom of sole, and then makes these conductive strips effectively can be wound around the front portion of footwear to provide the another way daily footwear being converted to static discharge footwear.

But the common defects of whole above-mentioned prior aries is, due to following one or more weak point, be difficult to industrially with on user market produce in a large number and use.

If attached ring is flexible, so it cannot use lastingly because when a wearer walks attached ring bottom will with ground friction, thus cause attached ring easily to wear and tear.

If attached ring is rigidity (such as by metallic support), when it is attached on footwear, it will not possess elasticity.After used a period of time, the attachment of attached ring will be very easy to that fluffing comes off and causes safety or problem attached for a long time.

A solution for above-mentioned technical problem selects to have enough elasticity and the lost material that can stand high strength, such as, combine highly resistance to grinding mineral or compound in the elastomer.This method contributes to providing the suitable elastic ring of applicable attached design.But, when relating to the clean environment of electronic manufacturing industry of a lot of high technology contents or toilet's application of today, the ground particle detachment that these fillers of resistance to grinding cause, to peel off or trace will be unacceptable.Because the dust granule generated from footwear will pollute pure air or the extremely sensitive electronic building brick of cross pollution or equipment.

In addition, a lot of prior aries is not suitable for having in the footwear on soft top at footwear top using.The footwear with soft top are popular in modern designs, because its very comfortable and applicable wearer.But, practical experience tells us, be very easy to collapse and be broken into the profile of very ugly ugliness flexible circuit being put into soft top a period of time (such as a few minutes, several hours or several days, how soft this depends on has with the upper design of footwear on earth) soft top.The conducting ring collapsed will cause attached and fixed performance variation.

Therefore, need further to research and develop thus develop more simple, be easy to manufacture, highly durable and cost-effective method daily footwear to be converted to the human body that accurately the controls resistance footwear to ground, to use in the Hi-tech Manufacturing environment of toilet or non-toilet.

Summary of the invention

Primary order ground of the present invention is, a kind of footwear conducting ring of uniqueness is provided, comprise footwear conducting ring and at least one lower footwear conducting ring at least one, described at least one footwear conducting ring be made up of a upper electric-conductor, described upper electric-conductor has the upper straight portion inserting at least one bending end of sole and the plantar contact with wearer, at least one lower footwear conducting ring described is made up of a lower electric-conductor, described lower electric-conductor has insertion at least one bending end of sole and the lower straight portion with earth surface, wherein said upper footwear conducting ring and described lower footwear conducting ring electrical connection are to be discharged to ground by electrostatic charge from wearer.

Preferably, described lower electric-conductor has two bending ends upwards bent, described two bending ends bend on horizontal axis 10 degree-80 degree or 100 degree-170 spend to form lower self-locking mechanism to insert the bottom surface of described sole.

Preferably, described lower electric-conductor has two bending ends upwards bent, and described two bending ends bend 45 degree or 135 degree to form claw-like self-locking mechanism thus to pin the ground of described sole on horizontal axis.

Preferably, described lower electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right along vertical axis on horizontal axis, another bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree to the right or left along vertical axis on horizontal axis, and described two bending ends form lower self-locking mechanism to insert the bottom surface of described sole.

Preferably, described lower electric-conductor has two bending ends, and described two bending ends bend 90 degree and then bend 90 degree respectively to the left or to the right to form two L-shape ends with the bottom surface of inserting described sole from vertical axis on horizontal axis.

Preferably, described lower electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right on horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree on horizontal axis, and described two bending ends form lower self-locking mechanism to insert the bottom surface of described sole.

Preferably, described lower electric-conductor has two bending ends, one of them bending end bends 90 degree and then bends 90 degree left or to the right to form a L shape end along vertical axis on horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree on horizontal axis, and described two bending ends form lower self-locking mechanism to insert the bottom surface of described sole.

Preferably, described upper electric-conductor has two bending ends of bending downwards, described two bending ends bends 10 degree-80 under horizontal axis spend or 100 degree-170 spend to form upper self-locking mechanism to insert the end face of described sole.

Preferably, described upper electric-conductor has two bending ends of bending downwards, and described two bending ends bend 45 degree or 135 degree to form claw-like self-locking mechanism thus to pin the bottom surface of described sole under horizontal axis.

Preferably, described upper electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right along vertical axis under horizontal axis, another bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree to the right or left along vertical axis under horizontal axis, and described two bending ends form self-locking mechanism to insert the end face of described sole.

Preferably, described upper electric-conductor has two bending ends, and described two bending ends bend 90 degree and then bend 90 degree respectively to the left or to the right to form two L-shape ends with the end face inserting described sole from vertical axis under horizontal axis.

Preferably, described upper electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right under horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree under horizontal axis, and described two bending ends form self-locking mechanism to insert the end face of described sole.

Preferably, described upper electric-conductor has two bending ends, one of them bending end bends 90 degree and then bends 90 degree left or to the right to form a L shape end along vertical axis under horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree under horizontal axis, and described two bending ends form self-locking mechanism to insert the end face of described sole.

Preferably, described upper electric-conductor and described lower electric-conductor all have the thickness dimensions of 0.1mm-3mm, preferably have the thickness dimensions of 0.5-1mm.

Preferably, described upper electric-conductor and described lower electric-conductor are wires.Described wire is made up of the alloy of steel, copper, iron, brass, nickel or one or more materials above-mentioned, thus obtains better intensity and stainless property.Described wire can not cause particle detachment on the ground, peel off or trace, and it can be used in high-tech toilet manufacturing environment.

Preferably, described cross section wiry is circular, square, rectangle, hexagonal, oval etc., or described wire is wire braid.Any wire can be selected to obtain fixing order ground of the present invention.

Preferably, traditional means can be adopted to utilize meticulous metal connecting filament that resistance is attached or join described upper electric-conductor and described lower electric-conductor to.During the event such as to be short-circuited between human body and ground like this, this resistance can be used as safety device flow through footwear or human body electric current with restriction.

Be to provide a kind of footwear assembling above-mentioned footwear conducting ring second order of the present invention.

Like this, present invention obtains a kind of more simple, be easy to manufacture, highly durable and cost-effective method daily footwear to be converted to the human body that accurately the controls resistance footwear to ground, to use in the Hi-tech Manufacturing environment of toilet or non-toilet.Therefore, instant invention overcomes the defect proposed in background technology of the present invention, and compared with prior art there is unique advantage.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the schematic diagram of the footwear conducting ring according to the first embodiment of the present invention;

Fig. 2 is the schematic diagram that the footwear conducting ring shown in Fig. 1 inserts sole;

Fig. 3 is the schematic diagram of footwear conducting ring according to a second embodiment of the present invention;

Fig. 4 is the schematic diagram of footwear conducting ring according to the third embodiment of the invention;

Fig. 5 a is the schematic diagram of footwear conducting ring according to a fourth embodiment of the invention;

Fig. 5 b is the schematic diagram that the upper footwear conducting ring shown in Fig. 5 a inserts sole;

Fig. 5 c is the schematic diagram that the lower footwear conducting ring shown in Fig. 5 a inserts sole;

Fig. 6 a is the schematic diagram of footwear conducting ring according to a fifth embodiment of the invention;

Fig. 6 b is the schematic diagram that the footwear conducting ring shown in Fig. 6 a inserts sole;

Fig. 6 c is the schematic diagram of footwear conducting ring according to a sixth embodiment of the invention;

Fig. 6 d is the schematic diagram of footwear conducting ring according to a seventh embodiment of the invention;

Fig. 7 a-7b is the schematic diagram of the footwear conducting ring according to the eighth embodiment of the present invention;

Fig. 8 a-8b is the schematic diagram of the footwear conducting ring according to the ninth embodiment of the present invention;

Fig. 9 is the schematic diagram of the footwear conducting ring according to the tenth embodiment of the present invention;

Figure 10 a-10c is the schematic diagram of the diverse location according to footwear conducting ring of the present invention;

Figure 11 is the schematic diagram with the footwear of footwear conducting ring according to the first embodiment of the present invention;

Figure 12 is the schematic diagram with the footwear of footwear conducting ring according to a second embodiment of the present invention.

Detailed description of the invention

From the following description of this invention, can to obtain to various aspects of the present invention, the more deep understanding of various advantage, character of innovation.Although The present invention gives multiple exemplary embodiment, these embodiments are unrestricted of the present invention for example.

The footwear conducting ring of uniqueness of the present invention, comprise footwear conducting ring and at least one lower footwear conducting ring at least one, described at least one footwear conducting ring be made up of a upper electric-conductor, described upper electric-conductor has the upper straight portion inserting at least one bending end of sole and the plantar contact with wearer, at least one lower footwear conducting ring described is made up of a lower electric-conductor, described lower electric-conductor has insertion at least one bending end of sole and the lower straight portion with earth surface, wherein said upper footwear conducting ring and described lower footwear conducting ring electrical connection are to be discharged to ground by electrostatic charge from wearer.

Fig. 1 is the schematic diagram of the footwear conducting ring according to the first embodiment of the present invention.As shown in Figure 1, the footwear conducting ring of described uniqueness comprises a upper footwear conducting ring 1 and a lower footwear conducting ring 2.On this, footwear conducting ring 1 is made up of upper conductive filament, and on this, conductive filament has the upper straight end 12 of two bending ends 11 being inserted into sole and the plantar contact with wearer.This lower footwear conducting ring 2 is made up of lower conductive filament, and this lower conductive filament has two bending ends 21 being inserted into sole and the lower straight end 22 with earth surface.On this, footwear conducting ring 1 and lower footwear conducting ring 2 are electrically connected that electrostatic charge is discharged to ground from wearer.

In the present embodiment, two bending ends 11 of upper footwear conducting ring 1 bend 45 degree to form self-locking mechanism from horizontal axis.Two bending ends 21 of lower footwear conducting ring 2 bend 45 degree to form self-locking mechanism from horizontal axis.Above-mentioned self-locking mechanism can be inserted into sole.

Fig. 2 is the schematic diagram that the footwear conducting ring shown in Fig. 1 inserts sole.As shown in Figure 2, the self-locking mechanism that two bending ends 11 of upper conductive filament are formed is inserted into sole inside above sole, then this conductor wire permanent locking sole and become sole joint portion as shown in Figure 2.On this straight end 12 rest in sole top and with the plantar contact of wearer.Further as shown in Figure 2, the self-locking mechanism that two bending ends 21 of lower conductive filament are formed is inserted into sole inside from the bottom of sole, then this conductor wire permanent locking sole and become sole joint portion as shown in Figure 2.This lower straight end 22 rests in outer sole and and earth surface.

In the present embodiment, on this, footwear conducting ring 1 and lower footwear conducting ring 2 form the footwear conducting ring of described uniqueness of the present invention thus electrostatic charge are discharged to floor from wearer.

Preferably, described upper footwear conducting ring 1 can have bend 135 degree with two bending ends of formation claw-like self-locking mechanism as shown in Figure 3 from horizontal axis.Similarly, described lower footwear conducting ring 2 can have from horizontal axis bending 135 degree to form two bending ends of claw-like self-locking mechanism.

Preferably, described upper footwear conducting ring 1 can have from horizontal axis bend 10 degree-80 degree or 100 degree-170 degree two bending ends obtain different fixed effects to insert sole, and described lower footwear conducting ring 2 can have from horizontal axis bend 10 degree-80 spend or 100 degree-170 spend two bending ends obtain different fixed effects to insert sole

Preferably, on this, the conductive filament of footwear conducting ring 1 and lower footwear conducting ring 2 can have the bending end of identical or different angle, thus forms different self-locking mechanisms.In addition, each end of this conductive filament can bend in identical or different modes thus form different self-locking mechanisms.

Further illustrate as follows, the conductive filament in the diagram bends 90 degree thus is inserted into the embodiment not perfect self-locking mechanism of sole.Because walk in motion daily, any outside thrust that the bending left and right due to sole causes all will cause the 90 degree of wire bent outwards movements, and then relatively easily shifts out from sole and cause attachedly coming off or losing efficacy.Therefore, Fig. 5 a shows the embodiment be more preferably.

As shown in Figure 5 a, the footwear conducting ring of this uniqueness comprises a upper footwear conducting ring 5 and a lower footwear conducting ring 6.On this, footwear conducting ring 5 has bending end 51 and bending end 52.This bending end 51 bends 90 degree from horizontal axis, then bends 90 degree left from vertical axis.This bending end 52 bends 90 degree from horizontal axis, then bends 90 degree to the right from vertical axis.Therefore this bending end 51 and bending end 52 form L-shape self-locking mechanism.This L-shape self-locking mechanism is inserted in sole.On this, footwear conducting ring 5 has further and is positioned at described sole top and the upper straight portion 53 of plantar contact with wearer.

As shown in Figure 5 a, this lower footwear conducting ring 6 has bending end 61 and bending end 62, and this bending end 61, from horizontal axis bending 90 degree, then bends 90 degree left from vertical axis.This bending end 62, from horizontal axis bending 90 degree, then bends 90 degree to the right from vertical axis.Therefore this bending end 61 and bending end 62 form L-shape self-locking mechanism.This L-shape self-locking mechanism is inserted in sole.On this footwear conducting ring 6 have further be positioned at described sole and with the lower straight portion 63 of earth surface.

In the present embodiment, on this, footwear conducting ring 5 and lower footwear conducting ring 6 are electrically connected to be formed the footwear conducting ring of described uniqueness of the present invention thus electrostatic charge are discharged to floor from wearer.

In the present embodiment, the insertion of this self-locking mechanism completes by any traditional instrument.First cut the otch of regular length and width at sole, then one end of conductive filament is inserted in this otch, then thrusts in material for sole of shoe, and subsequently as Fig. 5 b-5c catches on material for sole of shoe.Identical process can be repeated to realize the locking of the other end of this metal structure.

Preferably, on this, footwear conducting ring 5 has bending end 51 and bending end 52.This bending end 51 bends 90 degree from horizontal axis, then bends 90 degree to the right from vertical axis.This bending end 52 bends 90 degree from horizontal axis, then bends 90 degree left from vertical axis.Therefore this bending end 51 and bending end 52 form L-shape self-locking mechanism as shown in Figure 6 a.This L-shape self-locking mechanism is inserted in sole.On this, footwear conducting ring 5 has further and is positioned at described sole top and the upper straight portion 53 of plantar contact with wearer.In the present embodiment, the insertion of this self-locking mechanism completes by any traditional instrument.First cut the otch of regular length and width at sole, then one end of conductive filament is inserted in this otch, then thrusts in material for sole of shoe, and subsequently as Fig. 6 b catches on material for sole of shoe.Similarly, lower footwear conducting ring 6 also can build shown in Fig. 6 a.In this case for simplicity, do not illustrate.

Preferably, on this, footwear conducting ring 5 has bending end 51 and bending end 52.This bending end 51 bends 80 degree from horizontal axis, then bends 110 degree to the right from vertical axis.This bending end 52 bends 80 degree from horizontal axis, then bends 100 degree left from vertical axis.Therefore this bending end 51 and bending end 52 form L-shape self-locking mechanism as fig. 6 c.Similarly, lower footwear conducting ring 6 also can build shown in Fig. 6 c.In this case for simplicity, do not illustrate.

Preferably, on this, footwear conducting ring 5 has bending end 51 and bending end 52.This bending end 51 bends 100 degree from horizontal axis, then bends 100 degree left from vertical axis.This bending end 52 bends 100 degree from horizontal axis, then bends 100 degree to the right from vertical axis.Therefore this bending end 51 and bending end 52 form L-shape self-locking mechanism as shown in fig 6d.Similarly, lower footwear conducting ring 6 also can build shown in Fig. 6 d.In this case for simplicity, do not illustrate.

Preferably, on this, footwear conducting ring 5 bends to form identical or different self-locking mechanisms with identical or different angles with lower footwear conducting ring 6.

Preferably, on this, the conductive filament up and down of footwear conducting ring 5 and lower footwear conducting ring 6 has the thickness dimensions of 0.1mm-3mm, preferably has the thickness dimensions of 0.5-1mm.

Preferably, on this, the conductive filament up and down of footwear conducting ring 5 and lower footwear conducting ring 6 is wire.Described wire is made up of the alloy of steel, copper, iron, brass, nickel or one or more materials above-mentioned, thus obtains better intensity and stainless property.Described wire can not cause particle detachment on the ground, peel off or trace, and it can be used in high-tech toilet manufacturing environment.

Preferably, described cross section wiry is circular, square, rectangle, hexagonal, oval etc., or described wire is wire braid.Any wire can be selected to obtain fixing order ground of the present invention.

Fig. 7 a-7b is the schematic diagram of the footwear conducting ring according to the eighth embodiment of the present invention.As shown in Fig. 7 a-7b, this footwear conducting ring comprises the upper footwear conducting ring 1 of a upper conductive filament formation and the lower footwear conducting ring 2 of a lower conductive filament formation.On this, conductive filament has bending downwards with the bending end 11 inserting sole.Upwards bend bending end 21 electrical contact of this bending end 11 and lower conductive filament.On this, the remainder of conductive filament defines the upper straight portion 12 with the plantar contact of wearer.Another bending end 25 of this lower conductive filament also upwards bends to be inserted in sole.And this bending end 25 is that folded tip 23 is to prevent tip too sharp keen and to be better fixed on sole.The remainder of this lower conductive filament forms the lower straight portion 22 with earth surface.As illustrated in figures 10 a-b, this lower straight portion 22 can form M-shape to increase contact surface.In another embodiment, this lower straight portion 22 can form S-shape, U-shape or other shapes.In the present embodiment, described upper conductive filament and lower conductive filament can be one-body molded.The advantage of this unitary design is that the attachment of metallic ground ring is simple and installation is faster.Preferably, resistance 18 is combined in the circuit of bending end 11, thus ensures the human-body safety in the short-circuit process of anyone body to ground.

Fig. 8 a-8b is the schematic diagram of the footwear conducting ring according to the ninth embodiment of the present invention.As shown in figure 8 a-b, this footwear conducting ring comprises the upper footwear conducting ring 1 of a upper wire formation and the lower footwear conducting ring 2 (kink 22 is only shown) of a lower metal spring formation.In the present embodiment, wire is for connecting from the surface of sole to the current path of different loci of front and rear on ground being positioned at sole.This different loci is connected by contact resistance.Those skilled in the art know, in various embodiments, this footwear conducting ring comprises the upper footwear conducting ring 1 of a upper metal spring formation and the lower footwear conducting ring 2 of a lower wire formation.

Those skilled in the art know, except Fig. 8 a-8b illustrated embodiment, metal spring can also for the formation of the footwear conducting ring shown in Fig. 1-7.

Fig. 9 shows another configuration of the present invention, wherein uses the lower footwear conducting ring 2 (kink 21 is only shown) that the upper footwear conducting ring 1 of a upper metal spring formation and a lower metal spring and two resistance 24 are in series.The advantage of this design is, can provide more selection for current path of the present invention.

It should be noted that the position of footwear conducting ring is parallel to longitudinal direction (Y-axis) center line of shoe-pad along the placement of arch of foot side direction, thus the site be more applicable to can be obtained.Because be in design order ground, be distribute more equably thus more uniform pressure can be formed between the sole of people and the surface of sole in the weight of this human body.

Preferably, described footwear conducting ring is placed on any ideal position of the sole shown in Figure 10 a-10c.

Those skilled in the art know, and the footwear conducting ring of different uniquenesses can be made up of the combination of each lower upper footwear conducting ring above or described below, and can use based on the different soles that is applied in thus obtain different attached effects.

Those skilled in the art know, the metal spring of same design, metal tube or combination wiry all may be used for the present invention to carry out flexible design.

Figure 11 is the schematic diagram with the footwear of footwear conducting ring according to the first embodiment of the present invention.As shown in figure 11, the footwear conducting ring of this uniqueness comprises a upper footwear conducting ring 8 and a lower footwear conducting ring 9.On this, footwear conducting ring 8 is made up of a upper conductive filament, and this lower footwear conducting ring 9 is made up of a lower conductive filament.

In the present embodiment, on this, conductive filament has two bending ends, a bending end 82 bends 90 degree and then bends 90 degree left to form a L-shape end from vertical axis under horizontal axis, and another bending end 81 bends 45 degree to insert the end face of sole under horizontal axis.This L-shape end and this another bending end are inserted into sole inside from the end face of sole, then, and the permanent locking sole of conductive filament and become sole joint portion.Conductive filament has for this and rests on sole and the upper straight portion of the plantar contact of wearer.

This lower conductive filament has two bending ends, a bending end 91 bends 90 degree and then bends 90 degree left from vertical axis on horizontal axis, another bending end 92 bends 90 degree and then bends 90 degree to the right from vertical axis on horizontal axis, thus forms two L-shape ends with the ground being inserted into sole.

Electrical connection on this between conductive filament and lower conductive filament realizes in the following manner, first manufactures the puncture incision of sole top as shown in figure 11 to sole.Then traditional means can be adopted to utilize meticulous metal connecting filament by attached for resistance 20 or join described upper conductive filament and lower conductive filament to.During the event such as to be short-circuited between human body and ground like this, this resistance can be used as safety device flow through footwear or human body electric current with restriction.

Figure 12 is the schematic diagram with the footwear of footwear conducting ring according to a second embodiment of the present invention.As shown in figure 12, a upper footwear conducting ring 1 and two lower footwear conducting rings 2 and 3 are electrically connected by resistance 20 the footwear conducting ring forming described uniqueness.

Those skilled in the art know, plural footwear conducting ring different loci on the ground of sole can combine and think the invention provides and more select thus improve design flexibility.

Those skilled in the art know, two or more upper conducting ring or lower conducting ring can combine in the different loci of the top of sole of the present invention or bottom, think and the invention provides more selection thus raising design flexibility.

Like this, the invention described above obtain a kind of more simple, be easy to manufacture, highly durable and cost-effective method daily footwear to be converted to the human body that accurately the controls resistance footwear to ground, to use in the Hi-tech Manufacturing environment of toilet or non-toilet.Therefore, instant invention overcomes the defect proposed in background technology of the present invention, and compared with prior art there is unique advantage.

Claims (16)

1. a unique footwear conducting ring, it is characterized in that, comprise footwear conducting ring and at least one lower footwear conducting ring at least one, described at least one footwear conducting ring be made up of a upper electric-conductor, described upper electric-conductor has the upper straight portion inserting at least one bending end of sole and the plantar contact with wearer, at least one lower footwear conducting ring described is made up of a lower electric-conductor, described lower electric-conductor has insertion at least one bending end of sole and the lower straight portion with earth surface, wherein said upper footwear conducting ring and described lower footwear conducting ring electrical connection are to be discharged to ground by electrostatic charge from wearer.

2. the footwear conducting ring of uniqueness according to claim 1, it is characterized in that, described lower electric-conductor has two bending ends upwards bent, described two bending ends bend on horizontal axis 10 degree-80 degree or 100 degree-170 spend to form lower self-locking mechanism to insert the bottom surface of described sole.

3. the footwear conducting ring of uniqueness according to claim 2, it is characterized in that, described lower electric-conductor has two bending ends upwards bent, and described two bending ends upwards bend 45 degree or 135 degree to form claw-like self-locking mechanism thus to pin the ground of described sole.

4. the footwear conducting ring of uniqueness according to claim 1, it is characterized in that, described lower electric-conductor has two bending ends, one of them bending end upwards bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right, another bending end upwards bends 80 degree of-100 degree and then bends 10 degree of-170 degree to the right or left, and described two bending ends form lower self-locking mechanism to insert the bottom surface of described sole.

5. the footwear conducting ring of uniqueness according to claim 4, it is characterized in that, described lower electric-conductor has two bending ends, and described two bending ends bend 90 degree and then bend 90 degree respectively to the left or to the right to form two L-shape ends with the bottom surface of inserting described sole from vertical axis on horizontal axis.

6. the footwear conducting ring of uniqueness according to claim 1, it is characterized in that, described lower electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right on horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree on horizontal axis, and described two bending ends form lower self-locking mechanism to insert the bottom surface of described sole.

7. the footwear conducting ring of uniqueness according to claim 6, it is characterized in that, described lower electric-conductor has two bending ends, one of them bending end bends 90 degree and then bends 90 degree left or to the right to form a L shape end along vertical axis on horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree on horizontal axis, and described two bending ends form lower self-locking mechanism to insert the bottom surface of described sole.

8. according to the footwear conducting ring of the uniqueness in claim 1-7 described in any one claim, it is characterized in that, described upper electric-conductor has two bending ends of bending downwards, described two bending ends bends 10 degree-80 under horizontal axis spend or 100 degree-170 spend to form upper self-locking mechanism to insert the end face of described sole.

9. the footwear conducting ring of uniqueness according to claim 8, it is characterized in that, described upper electric-conductor has two bending ends of bending downwards, and described two bending ends bend 45 degree or 135 degree downwards to form claw-like self-locking mechanism thus to pin the bottom surface of described sole.

10. according to the footwear conducting ring of the uniqueness in claim 1-7 described in any one claim, it is characterized in that, described upper electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree downwards and then bends 10 degree of-170 degree left or to the right, another bending end bends 80 degree of-100 degree downwards and then bends 10 degree of-170 degree to the right or left along vertical axis, and described two bending ends form self-locking mechanism to insert the end face of described sole.

The footwear conducting ring of 11. uniquenesses according to claim 10, it is characterized in that, described upper electric-conductor has two bending ends, and described two bending ends bend 90 degree and then bend 90 degree respectively to the left or to the right to form two L-shape ends with the end face inserting described sole from vertical axis under horizontal axis.

12. according to the footwear conducting ring of the uniqueness in claim 1-7 described in any one claim, it is characterized in that, described upper electric-conductor has two bending ends, one of them bending end bends 80 degree of-100 degree and then bends 10 degree of-170 degree left or to the right under horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree under horizontal axis, and described two bending ends form self-locking mechanism to insert the end face of described sole.

The footwear conducting ring of 13. uniquenesses according to claim 12, it is characterized in that, described upper electric-conductor has two bending ends, one of them bending end bends 90 degree and then bends 90 degree left or to the right to form a L shape end along vertical axis under horizontal axis, another bending end bends 10 degree of-80 degree or 100 degree of-170 degree under horizontal axis, and described two bending ends form self-locking mechanism to insert the end face of described sole.

The footwear conducting ring of 14. uniquenesses according to claim 1, it is characterized in that, described upper electric-conductor has the bending end of a bending downwards, described lower electric-conductor has two bending ends upwards bent, a bending end of described lower electric-conductor is electrically connected with the described bending end of the downward bending of described upper electric-conductor, and another bending end of described lower electric-conductor forms folded tip to be fixed to described sole, wherein said upper electric-conductor and described lower electric-conductor are integrated.

15. according to the footwear conducting ring of the uniqueness in claim 1-14 described in any one, it is characterized in that, described upper electric-conductor and described lower electric-conductor comprise metal spring, metal tube, wire or its combination, and the cross section of described metal spring, metal tube, wire or its combination is circular, square, rectangle, hexagonal, oval and has the thickness dimensions of 0.1mm-3mm, preferably has the thickness dimensions of 0.5mm-1.

The footwear conducting ring of 16. uniquenesses according to claim 1, is characterized in that, resistance is attached or be attached to described upper electric-conductor and described lower electric-conductor.