阅读说明：本技术 一种活动发热型半指手套 (Movable heating type half-finger glove ) 是由 韩真燕 于 2020-06-29 设计创作，主要内容包括：本发明公开了一种活动发热型半指手套,包括手套,所述手套上嵌设安装有多个指套,所述指套内开设有环形腔,所述环形腔内安装有弹性线圈,所述指套内分别嵌设有第一环形磁片和第二环形磁片,且第一环形磁片和第二环形磁片分别位于环形腔的两侧,所述第一环形磁片和第二环形磁片靠近环形腔的面上的磁性相反,所述手套包括面料层,所述面料层内嵌设有石墨烯层。本发明通过手臂或手指的活动带动环形线圈振动产生电流存储并供电,通过环形电池片在储存电能的同时不影响手部的活动,通过第一环形槽和第二环形磁片产生环形均匀磁场,使得供电和充电稳定,增加使用寿命,通过柔性电池片对石墨烯层进行供电发热,主动提升手套的保暖效果。(The invention discloses an active heating type half-finger glove which comprises a glove body, wherein a plurality of finger sleeves are embedded in the glove body, annular cavities are formed in the finger sleeves, elastic coils are installed in the annular cavities, first annular magnetic sheets and second annular magnetic sheets are embedded in the finger sleeves respectively and are located on two sides of the annular cavities respectively, the magnetism of the surfaces, close to the annular cavities, of the first annular magnetic sheets and the magnetism of the second annular magnetic sheets are opposite, the glove body comprises a fabric layer, and graphene layers are embedded in the fabric layer. The flexible battery piece is used for supplying power and heating the graphene layer, and the heat preservation effect of the glove is actively improved.)

1. The utility model provides an activity fever type mitten, includes gloves (1), its characterized in that, inlay on gloves (1) and establish and install a plurality of dactylotheca (2), set up annular chamber (21) in dactylotheca (2), install elastic coil (22) in annular chamber (21), inlay respectively in dactylotheca (2) and be equipped with first annular magnetic sheet (25) and second annular magnetic sheet (26), and first annular magnetic sheet (25) and second annular magnetic sheet (26) are located the both sides of annular chamber (21) respectively, magnetism on the face that first annular magnetic sheet (25) and second annular magnetic sheet (26) are close to annular chamber (21) is opposite, gloves (1) include precoat (11), the embedded graphite alkene layer (12) that is equipped with of precoat (11), electromagnetic shield has layer (13) all to the both sides of graphite alkene layer (12), the embedded a plurality of flexible battery pieces (4) that are equipped with of precoat (11), and a plurality of flexible battery pieces (4) are established ties, install temperature controller (5) on gloves (1), and a plurality of flexible battery piece (4) electric connection temperature controller (5), every all insert on dactylotheca (2) and establish and be connected with two wire (24), and two wire (24) are connected with two ports of elastic coil (22) respectively, the precoat (11) is embedded to be equipped with diode (3), and a plurality of wire (24) are connected on diode (3) jointly, and diode (3) are connected on a plurality of flexible battery piece (4).

2. An active heating type mitt according to claim 1, wherein two ports of the upper end of the elastic coil (22) are fixedly inserted on the inner top wall of the annular chamber (21), and the lower end of the elastic coil (22) is suspended in the annular chamber (21).

3. An active heating type mitt according to claim 1, wherein the temperature controller (5) is electrically connected to the graphene layer (12).

Technical Field

The invention relates to the field of gloves, in particular to an active heating type half-finger glove.

Background

Winter temperature is lower, and the temperature can drop to below the zero degree in the time of the winter deeply, even if also can feel cold indoor, and the mitten can help people to resist cold at the during operation, and avoids the hand rigidity and can't work.

The existing half-finger gloves are made of warm-keeping fabrics, have certain warm-keeping performance, but cannot achieve a good warm-keeping effect even if working for a long time in a cold environment, such as long-time typing of office workers, and the gloves cannot actively provide effective warm-keeping measures on the way of going to work and off work in the morning and at night.

Disclosure of Invention

The invention aims to solve the defects that the existing gloves are made of warm-keeping fabrics, cannot provide a good warm-keeping effect when the gloves work for a long time, and cannot actively provide an effective warm-keeping measure when the gloves walk outdoors in the prior art, and provides the movable heating type half-finger gloves.

In order to achieve the purpose, the invention adopts the following technical scheme:

a plurality of finger sleeves are embedded on the glove, an annular cavity is formed in each finger sleeve, an elastic coil is installed in each annular cavity, a first annular magnetic sheet and a second annular magnetic sheet are respectively embedded in each finger sleeve and are respectively positioned on two sides of each annular cavity, the first annular magnetic sheet and the second annular magnetic sheet are opposite in magnetism on the face, close to the annular cavity, of each annular cavity, each glove comprises a fabric layer, a graphene layer is embedded in each fabric layer, electromagnetic shielding layers are respectively attached to two sides of each graphene layer, a plurality of flexible battery pieces are embedded in each fabric layer and are connected in series, a temperature controller is installed on each glove, the plurality of flexible battery pieces are electrically connected with the temperature controller, and two leads are respectively inserted and connected on each finger sleeve, and two wires are respectively connected with two ports of the elastic coil, a diode is embedded in the fabric layer, the plurality of wires are connected to the diode together, the diode is connected to the plurality of flexible battery pieces, the finger sleeve comprises a finger sleeve, and the diameter of the finger sleeve is the diameter of the root of a finger of a normal adult, so that the glove can adapt to more crowds.

Preferably, two ports at the upper end of the elastic coil are fixedly inserted on the inner top wall of the annular cavity, and the lower end of the elastic coil is suspended in the annular cavity;

after wearing gloves, when work or walk, the activity of finger makes the dactylotheca constantly be in the motion state when the swing of arm or typing, because elastic coil's lower extreme is unsettled, then the dactylotheca of motion makes the elastic coil in the annular chamber vibrate from top to bottom, and form the even magnetic field of equidistance between first annular magnetic sheet and the second annular magnetic sheet, the elastic coil of vibration produces induced-current at the magnetic induction line in the in-process cutting magnetic field of vibration, and current direction change frequency is unanimous with vibration frequency, the electric current of production passes through the wire and exports to make the unanimous pulse direct current that forms of current circulation direction on the diode, pulse direct current charges to the flexible battery piece of a plurality of series connections, the attached surface fabric layer of gloves that flexible battery piece can be better, can not influence the.

Preferably, the temperature controller is electrically connected with the graphene layer;

the voltage magnitude of controlling flexible battery piece output through the temperature controller makes the calorific capacity of graphite alkene layer change, can increase the calorific capacity of graphite alkene layer through the temperature controller promptly under the colder circumstances, provides effectual initiative cold-proof measure, and two electromagnetic shield layers have shielded the radiation of graphite alkene layer, have reduced the influence of device during operation to the human body.

The invention has the following beneficial effects:

1. the elastic coil in the finger sleeve vibrates through the swinging of the arm of a human body and the movement of fingers during office typing, the vibrating elastic coil cuts the magnetic field formed by the first annular magnetic sheet and the second annular magnetic sheet to generate induced current so as to provide electric energy, an external power supply is not needed, the cost of the device is reduced, the power consumption of active heating and heat preservation of the gloves is reduced, and the environmental protection performance of the gloves is improved.

2. First annular magnetic sheet and second annular magnetic sheet set up respectively in the both sides of annular chamber, and first annular magnetic sheet and second annular magnetic sheet are close to the face magnetism opposite of annular chamber, make to produce the even magnetic field of annular equidistance between first annular magnetic sheet and the second annular magnetic sheet, can produce comparatively even induced-current when elastic coil cutting magnetic field, have avoided unstable circuit to make the life-span decline of flexible battery piece, increase the life of gloves.

3. The flexible battery piece inlays to be established in the surface fabric layer of gloves, and the flexible battery piece that can bend can take place the curve of bending in order to laminate the hand when the hand activity, avoids taking place the rupture phenomenon, increases the security of device, and the activity that the flexible battery piece does not influence the hand when carrying out outdoor activities, increases the experience ability of gloves.

4. Graphene layer has the efficiency under heating and the heat conduction that heightens, and graphene layer heats up gradually after the circular telegram, and the temperature sees through electromagnetic shield layer conduction to precoat for the temperature on precoat begins to rise warm hand.

In conclusion, the annular coil is driven to vibrate by the movement of the arm or the finger to generate current for storage and power supply, the movement of the hand is not influenced while electric energy is stored by the annular battery piece, the annular uniform magnetic field is generated by the first annular groove and the second annular magnetic sheet, so that the power supply and the charging are stable, the service life is prolonged, the flexible battery piece supplies power to the graphene layer to heat, and the heat preservation effect of the glove is actively improved.

Drawings

FIG. 1 is a schematic view of an active heating type mitt according to the present invention;

FIG. 2 is a schematic view of a finger stall structure of an active heating type mitt according to the present invention;

fig. 3 is a glove structure diagram of an active heating type mitt according to the present invention.

In the figure: gloves 1, finger sleeves 2, diodes 3, flexible battery pieces 4, a temperature controller 5, a fabric layer 11, a graphene layer 12, an electromagnetic shielding layer 13, an annular cavity 21, an elastic coil 22, a sleeve 23, a lead 24, a first annular magnetic sheet 25 and a second annular magnetic sheet 26.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, an active heating type mitt comprises a mitt 1, a plurality of finger sleeves 2 are embedded and installed on the mitt 1, an annular cavity 21 is formed in the finger sleeves 2, an elastic coil 22 is installed in the annular cavity 21, a first annular magnetic sheet 25 and a second annular magnetic sheet 26 are respectively embedded in the finger sleeves 2, the first annular magnetic sheet 25 and the second annular magnetic sheet 26 are respectively located at two sides of the annular cavity 21, the first annular magnetic sheet 25 and the second annular magnetic sheet 26 have opposite magnetism on the surface close to the annular cavity 21, the mitt 1 comprises a fabric layer 11, a graphene layer 12 is embedded in the fabric layer 11, electromagnetic shielding layers 13 are respectively attached to two sides of the graphene layer 12, a plurality of flexible battery sheets 4 are embedded in the fabric layer 11, the plurality of flexible battery sheets 4 are connected in series, a temperature controller 5 is installed on the mitt 1, and the plurality of flexible battery sheets 4 are electrically, all insert on every dactylotheca 2 and establish and be connected with two wires 24, and two wires 24 are connected with two ports of elastic coil 22 respectively, and the embedded diode 3 that is equipped with of precoat 11, and a plurality of wires 24 connect jointly on diode 3, and diode 3 connects on a plurality of flexible battery pieces 4, and dactylotheca 2 is including indicating sleeve 23, and the diameter of a dactylotheca section of thick bamboo 23 is normal adult human finger root diameter for gloves 1 can adapt to more crowd.

Two ports at the upper end of the elastic coil 22 are fixedly inserted on the inner top wall of the annular cavity 21, and the lower end of the elastic coil 22 is suspended in the annular cavity 21;

after wearing gloves 1, when working or walking, when the swing of arm or typing, the activity of finger makes dactylotheca 2 constantly be in the motion state, because the lower extreme of elastic coil 22 is unsettled, then the dactylotheca 2 of motion makes the elastic coil 22 in annular chamber 21 vibrate from top to bottom, and form the even magnetic field of equidistance between first annular magnetic sheet 25 and the second annular magnetic sheet 26, the elastic coil 22 of vibration produces induced current at the magnetic induction line in the in-process cutting magnetic field of vibration, and current direction change frequency is unanimous with vibration frequency, the electric current of production passes through wire 24 to be exported on diode 3 and makes the unanimous pulsation direct current that forms of current circulation direction, the pulsation direct current charges to a plurality of flexible battery pieces 4 of establishing ties, flexible battery piece 4 can be better attached in the precoat 11 of gloves 1, can not influence the activity of hand.

The temperature controller 5 is electrically connected with the graphene layer 12;

the voltage size of 4 outputs of flexible battery piece through temperature controller 5 control makes the calorific capacity of graphite alkene layer 12 change, can increase the calorific capacity of graphite alkene layer 12 through temperature controller 5 promptly under the colder circumstances, provides effectual initiative cold-proof measure, and two electromagnetic shield layers 13 have shielded the radiation of graphite alkene layer 12, has reduced the influence of device during operation to the human body.

When the glove is used, the glove 1 is worn, when a user types, the elastic coil 22 in the finger sleeve 2 continuously vibrates in the annular cavity 21 due to continuous movement of fingers, the vibrating elastic coil 22 cuts an annular uniform magnetic field formed by the first annular magnetic sheet 25 and the second annular magnetic sheet 26 to generate induced currents in opposite directions, the induced currents in opposite directions enter the diode 3 through the lead 24 to be filtered and output as unidirectional pulsating direct current, the pulsating direct current is input to the plurality of flexible battery sheets 4 connected in series to be charged, when the hand feels cold, the temperature controller 5 controls the voltage output to the graphene layer 12 by the flexible battery sheets 4, the graphene layer 12 starts to heat, the heat is transferred in the fabric layer 11, the glove 1 becomes hot to warm the hand, and the heat preservation effect of the glove 1 is actively increased.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.