CN203262339U - Temperature difference power generation warming glove - Google Patents
Temperature difference power generation warming glove Download PDFInfo
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- CN203262339U CN203262339U CN 201320189836 CN201320189836U CN203262339U CN 203262339 U CN203262339 U CN 203262339U CN 201320189836 CN201320189836 CN 201320189836 CN 201320189836 U CN201320189836 U CN 201320189836U CN 203262339 U CN203262339 U CN 203262339U
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- temperature difference
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Abstract
The utility model provides a temperature difference power generation warming glove which comprises a glove body, a heating part, an output part and an energy storage part. The heating part, the output part and the energy storage part are respectively connected in parallel. A temperature difference current output unit comprises a temperature difference charging panel and a voltage boosting and stabilizing circuit module. The heating part and the output part are connected to form a temperature difference heating loop. The output part and the energy storage part are connected to form a temperature difference energy storage loop. The energy storage part and the heating part are connected to form an energy storage heating loop.
Description
Technical field
The utility model relates to a kind of gloves, is specifically related to a kind of temperature difference of staff back temperature and environment temperature of utilizing and carries out the gloves that thermo-electric generation is warmed oneself.
Background technology
Along with the arrival in winter, weather turns cold gradually, people go out work and study generally to wear gloves with the protection hand.Existing form of gloves has a lot, wherein mostly is greatly the warming-type gloves that adopt mitten, leather glove, down mittens or made by this different materials collocation, though their heat-preserving function is good, wears comparatively heavy and can not directly warm oneself.In addition, adopt in addition heating wire and Electric radiant Heating Film as the electric heating type gloves of heating material, this gloves can play heat effect, can directly warm oneself, and are subjected to power limitations but use, and heat insulation effect is bad after outage, and environmental protection and energy saving not.On the other hand, the requirement of the exploitation of new forms of energy, utilization and environmental protection becomes a kind of trend, and especially the energy of clean environment firendly is paid attention to more and more and utilizes.
The utility model content
The utility model provides a kind of temperature difference of staff back temperature and environment temperature of utilizing to carry out the thermo-electric generation Warming gloves that thermo-electric generation is warmed oneself, the heat of low-grade heat source is converted into electric energy effectively, be heat energy by resistance wire with electric energy conversion, thereby realize the heating heating, the use that has solved above-mentioned use electric heating gloves is subjected to the problem of power limitations and inadequate environmental protection and energy saving.
In order to achieve the above object, the utility model has adopted following technical scheme:
A kind of thermo-electric generation Warming gloves has such feature, comprises:
glove bulk comprises the back of the hand position and five finger-stall positions, and all there are hollow sandwich in the back of the hand position and finger-stall position, heating part comprises resistance wire and the first switch that is connected in series with this resistance wire, efferent comprises the second switch that thermocurrent output unit and this thermocurrent output unit are connected in series, and energy storage part, comprise the 3rd switch that energy-storage battery and this energy-storage battery are connected in series, heating part, efferent, energy storage part is connected in parallel respectively, the thermocurrent output unit comprises the temperature difference charging panel that produces thermoelectric voltage and to the thermoelectric voltage voltage boosting and stabilizing circuit module that voltage stabilizing processes of boosting, heating part and efferent are connected to form temperature difference heating circuit, produce temperature difference heat energy, be delivered to each position of glove bulk, efferent and energy storage part are connected to form temperature difference tank circuit, energy-storage battery is charged, energy storage part and heating part are connected to form energy storage heating loop, produce energy storage heat energy, be delivered to each position of glove bulk.
Further, thermo-electric generation Warming gloves of the present utility model can also have such feature:
Wherein, temperature difference charging panel is polysilicon peninsula thermoelectric cell group.
In addition, thermo-electric generation Warming gloves of the present utility model can also have such feature:
Efferent, energy storage part and the first switch are arranged in the hollow sandwich at the back of the hand position, and resistance wire is arranged in the hollow sandwich at the back of the hand position and finger-stall position.
The effect of utility model and effect
The thermo-electric generation Warming gloves that relates to according to the utility model, it utilizes the principle of thermo-electric generation, and the heat of low-grade heat source is converted into electric energy effectively, is heat energy by resistance wire with electric energy conversion, thereby realize directly heating heating, a kind of Warming gloves of novelty is provided; Simple and light in design, meet the use habit of ordinary consumer; Energy-conserving and environment-protective are simultaneously drawn materials easily, are not subjected to the restriction of external power supply, are particularly suitable for the occasion of non-transformer operation.
Description of drawings
Fig. 1 is the structural representation of thermo-electric generation Warming gloves of the present utility model;
Fig. 2 is the thermo-electric generation circuit diagram of thermo-electric generation Warming gloves of the present utility model;
Fig. 3 is the structural representation of the temperature difference charging panel of thermo-electric generation Warming gloves of the present utility model;
Fig. 4 is the circuit diagram in temperature difference heating loop, temperature difference tank circuit, the energy storage heating loop of thermo-electric generation Warming gloves of the present utility model.
The specific embodiment
The utility model is elaborated by reference to the accompanying drawings for following examples.
Fig. 1 is the structural representation of thermo-electric generation Warming gloves.As shown in Figure 1, the thermo-electric generation Warming gloves of the present embodiment comprises following structure:
The glove bulk 7 of two-layer fabric structure comprises the back of the hand position and five finger-stall positions, and there are hollow sandwich in the back of the hand position and finger-stall position; Heating part comprises the resistance wire 1 and the first switch 2 that are connected in series; Efferent comprises the thermocurrent output unit 4 and second switch 8 that are connected in series; Energy storage part comprises the energy-storage battery 3 and the 3rd switch 9 that are connected in series.
Efferent, energy storage part and the first switch are arranged in the hollow sandwich at the back of the hand position, and resistance wire 1 is arranged in the hollow sandwich at the back of the hand position and finger-stall position.Resistance wire 1 can be any type of wire, adopts preferably that heat transfer efficiency is high, volume is little, as copper wire etc.Adopt copper wire as resistance wire in the present embodiment.Heating part, efferent, energy storage part are connected in parallel respectively.In efferent, thermocurrent output unit 4 comprises temperature difference charging panel 6 and voltage boosting and stabilizing circuit module 5.Thereby temperature difference charging panel 6 produces thermoelectric voltage by the temperature difference that staff back and external environment exist, temperature difference charging panel 6 is polysilicon peninsula thermoelectric cell group, this is because the figureofmerit system of semi-conducting material is the highest, can improve generating efficiency, therefore adopt polycrystalline silicon material to make thermocouple and can have higher thermal absorptivity.In addition, the thermoelectric voltage that produces due to semiconductor bulk thermoelectric cell group is less, in order to reduce the quantity of thermoelectric cell, thereby adopts the voltage stabilizing of boosting of 5 pairs of thermoelectric voltages of voltage boosting and stabilizing circuit module to process, for circuit provides regulated power.Thermocurrent after the final output of temperature difference output unit 4 is processed.
Fig. 2 is the thermo-electric generation circuit diagram of the thermo-electric generation Warming gloves of the present embodiment, Fig. 3 is the structural representation of temperature difference charging panel of the thermo-electric generation Warming gloves of the present embodiment, and Fig. 4 is the circuit diagram in temperature difference heating loop, temperature difference tank circuit, the energy storage heating loop of the thermo-electric generation Warming gloves of the present embodiment.
As shown in Figure 3, glove bulk is the double hyer insulation fabric construction, contacts respectively human body (thermosphere) and environment (cold layer), has hollow sandwich in the middle of it, and the thermoelectric cell group is arranged in hollow sandwich.
As Fig. 2, shown in Figure 4, because there are temperature difference in cold junction and hot junction, thereby produce thermoelectric voltage on the thermoelectric cell group, thermocurrent produces temperature difference heat energy by resistance wire, circulates in the loop.In the present embodiment, temperature difference heat energy is delivered to each position of glove bulk by the resistance wire at the back of the hand position and finger-stall position.
As shown in Figure 4, efferent and energy storage part are connected to form temperature difference tank circuit, and the thermocurrent after the voltage stabilizing of boosting is processed enters in energy-storage battery 3, and energy-storage battery 3 is charged.
As shown in Figure 4, energy storage part and heating part are connected to form energy storage heating loop, and energy-storage battery 3 discharges, and the energy storage electric current of generation enters and produces energy storage heat energy in resistance wire 1, energy storage heat energy and then be delivered to each position of glove bulk.
As people when arctic weather is gone out, put on body temperature charging Warming gloves of the present utility model, open the first switch 2 and the 3rd switch 8, temperature difference heating circuit begins normal operation, thermoelectric charging panel 6 is generation current gradually, electric current flows through by after voltage boosting and stabilizing circuit module 5 each several part that resistance wire 1 reaches glove bulk 7, produces heat energy.When temperature reaches the temperature of actual needs, closing switch button 2, temperature difference heating circuit quits work.
At this moment, if cut-off switch button 2, the second switch 9 that closes, temperature difference tank circuit is communicated with, and starts working, and just can give energy-storage battery 5 chargings, the electricity of affluence is stored, in the situation that needs continue the use Warming gloves.
When needs use energy-storage battery opponent cover to carry out heat supply, disconnect the 3rd switch 8, the first switch 2 closes, the energy storage heating circuit is communicated with, energy-storage battery begins discharge, and the energy storage electric current of generation enters and produces energy storage heat energy in resistance wire 1, and then is delivered to each position of glove bulk.
The effect of embodiment and effect
The thermo-electric generation Warming gloves that relates to according to the present embodiment, it utilizes the principle of thermo-electric generation, when often there are the temperature difference in human body and environment temperature, two sections of thermoelectric cell groups just can produce voltage, then realize the small voltage that semiconductor thermoelectric cell group the produces voltage stabilizing of boosting by the voltage boosting and stabilizing circuit module, do not increase the quantity burden of thermoelectric cell group, thereby the heat of low-grade heat source is converted into electric energy effectively, be then heat energy by resistance wire with electric energy conversion, thereby realize directly heating heating.
The thermo-electric generation Warming gloves that the present embodiment relates to is simple and light in design, the use habit that meets ordinary consumer, simultaneously, by this environmental protection generation technology generating of thermoelectric technology, energy-conserving and environment-protective are drawn materials easily, be not subjected to the restriction of external power supply, be particularly suitable for the occasion of non-transformer operation, be particularly suitable for non-transformer operation occasion, can apply easily.
Claims (3)
1. one kind is utilized the temperature difference of staff back temperature and environment temperature to carry out the thermo-electric generation Warming gloves that thermo-electric generation is warmed oneself, and it is characterized in that, comprises:
Glove bulk comprises the back of the hand position and five finger-stall positions, and all there are hollow sandwich in described the back of the hand position and described finger-stall position;
Heating part comprises resistance wire and the first switch that is connected in series with this resistance wire;
Efferent comprises the second switch that thermocurrent output unit and this thermocurrent output unit are connected in series; And
Energy storage part comprises the 3rd switch that energy-storage battery and this energy-storage battery are connected in series,
Described heating part, described efferent, described energy storage part are connected in parallel respectively,
Described thermocurrent output unit comprises the temperature difference charging panel that produces thermoelectric voltage and to the described thermoelectric voltage voltage boosting and stabilizing circuit module that voltage stabilizing processes of boosting,
Described heating part and described efferent are connected to form temperature difference heating circuit, produce temperature difference heat energy, are delivered to each position of described glove bulk,
Described efferent and described energy storage part are connected to form temperature difference tank circuit, described energy-storage battery charged,
Described energy storage part and described heating part are connected to form energy storage heating loop, produce energy storage heat energy, are delivered to each position of described glove bulk.
2. thermo-electric generation Warming gloves according to claim 1 is characterized in that:
Wherein, described temperature difference charging panel is polysilicon peninsula thermoelectric cell group.
3. thermo-electric generation Warming gloves according to claim 1 is characterized in that:
Described efferent, described energy storage part and described the first switch are arranged in the hollow sandwich at described the back of the hand position, and described resistance wire is arranged in the hollow sandwich at described the back of the hand position and described finger-stall position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320189836 CN203262339U (en) | 2013-04-16 | 2013-04-16 | Temperature difference power generation warming glove |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320189836 CN203262339U (en) | 2013-04-16 | 2013-04-16 | Temperature difference power generation warming glove |
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CN203262339U true CN203262339U (en) | 2013-11-06 |
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CN 201320189836 Expired - Fee Related CN203262339U (en) | 2013-04-16 | 2013-04-16 | Temperature difference power generation warming glove |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103393237A (en) * | 2013-08-19 | 2013-11-20 | 青岛大学 | Thermoregulation garment |
CN109164850A (en) * | 2018-09-09 | 2019-01-08 | 青岛大学 | Based on it is passive can variable resistance temprature control method |
-
2013
- 2013-04-16 CN CN 201320189836 patent/CN203262339U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103393237A (en) * | 2013-08-19 | 2013-11-20 | 青岛大学 | Thermoregulation garment |
CN103393237B (en) * | 2013-08-19 | 2015-05-13 | 青岛大学 | Thermoregulation garment |
CN109164850A (en) * | 2018-09-09 | 2019-01-08 | 青岛大学 | Based on it is passive can variable resistance temprature control method |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20131106 Termination date: 20140416 |