CN108870513A - Warm-air drier and warm air system - Google Patents

Abstract

One embodiment of the application provides a kind of warm-air drier, including：Heat generating device, for externally input first electric energy to be converted to thermal energy.Air supply device, for blowing to the heat generating device.Thermoelectric conversion device is electrically connected with the air supply device, and the thermal energy for generating the heat generating device is converted to the second electric energy, and by second electrical energy transportation to the air supply device.Wherein, the heat generating device is set between the air supply device and the thermoelectric conversion device, and the heat generating device is disposed adjacent with the thermoelectric conversion device.One embodiment of the application provides a kind of warm air system.The thermal energy that heat generating device generates is converted to the second electric energy by thermoelectric conversion device, and by the second electrical energy transportation to air supply device, directly drives air supply device work, avoids controlling air supply device work using control module, use cost is greatly saved.

Description

Warm-air drier and warm air system

Technical field

This application involves warm-air drier technical fields, more particularly to warm-air drier and warm air system.

Background technique

Currently, warm-air drier is as a kind of novel heating system, because its is easy to use, simple operation and other advantages due to it is extensive It uses.Existing warm-air drier is generated heat by PTC, is then radiated by the subsequent fan of PTC to PTC.What heat dissipation was produced by boasting Hot wind is just used to heating rooms.

Fan on warm-air drier is divided to two kinds of AC and DC, and the fan of exchange is directly powered by alternating current, and DC fan is general It is all by alternating current by directly being provided after decompression.Fan on warm-air drier, either ac fan either DC fan, make Used time is required to control module to control.And the failure rate of control module itself is higher, control module after damage not only more Trouble is changed, the investment of cost is also increased.

Summary of the invention

Based on this, it is necessary to for the problem that the failure rate of control module itself is higher, cause input cost to increase, provide A kind of warm-air drier and warm air system.

A kind of warm-air drier, the warm-air drier include：

Heat generating device, for externally input first electric energy to be converted to thermal energy；

Air supply device, for blowing to the heat generating device；

Thermoelectric conversion device is electrically connected with the air supply device, and is disposed adjacent with the heat generating device, the fever dress It installs and is placed between the air supply device and the thermoelectric conversion device, the thermoelectric conversion device is used for the heat generating device The thermal energy of generation is converted to the second electric energy, and by second electrical energy transportation to the air supply device.

The warm-air drier further includes in one of the embodiments,：

Fairing is set between the thermoelectric conversion device and the air supply device, is used for the heat to electricity conversion The electric current of device output is rectified and exports direct current to the air supply device.

The fairing is rectifier, the input terminal of the rectifier and the thermoelectricity in one of the embodiments, Conversion equipment electrical connection, the output end of the rectifier are electrically connected with the air supply device.

The heat generating device is heater in one of the embodiments, is used for externally input first electric energy Be converted to thermal energy.

The heater is using PTC heater or high temperature exothermic body or heating wire in one of the embodiments,.

The thermoelectric conversion device is thermoelectricity occasionally thermoelectric generator in one of the embodiments, and the thermoelectricity is occasionally Thermoelectric generator is disposed adjacent with the heat generating device, and the thermal energy for generating the heat generating device is converted to the second electric energy, And by second electrical energy transportation to the air supply device.

The air supply device is fan in one of the embodiments,.

The warm-air drier further includes shell in one of the embodiments, the heat generating device, the air supply device, The thermoelectric conversion device and the fairing are installed in the shell.

The warm-air drier further includes pedestal in one of the embodiments, and the pedestal and the shell are mechanically connected.

A kind of warm air system, including warm-air drier described in above-described embodiment.

Compared with prior art, above-mentioned warm-air drier including the heat generating device and thermoelectric conversion device being disposed adjacent, and is sent Wind apparatus, the heat generating device are set between the thermoelectric conversion device and air supply device, and the thermoelectric conversion device with Air supply device electrical connection.The thermal energy that heat generating device generates is converted to the second electric energy by thermoelectric conversion device, and the second electric energy is defeated It send to air supply device, directly drives air supply device work, avoid controlling air supply device work using control module, be greatly saved Use cost.

Detailed description of the invention

Fig. 1 is the structural block diagram for the warm-air drier that one embodiment of the application provides；

Fig. 2 is the structural schematic diagram for the warm-air drier that one embodiment of the application provides；

Fig. 3 is the structural block diagram for the warm air system that one embodiment of the application provides.

10 warm-air driers

100 heat generating devices

110 heaters

20 warm air systems

200 air supply devices

210 fans

300 thermoelectric conversion devices

310 thermoelectricity occasionally thermoelectric generator

400 fairings

410 rectifiers

500 shells

600 pedestals

Specific embodiment

In order to make the above objects, features, and advantages of the present application more apparent, with reference to the accompanying drawing to the application Specific embodiment be described in detail.Many details are explained in the following description in order to fully understand this Shen Please.But the application can be implemented with being much different from other way described herein, those skilled in the art can be not Similar improvement is done in the case where violating the application intension, therefore the application is not limited by following public specific implementation.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein and the technical field for belonging to the application The normally understood meaning of technical staff is identical.The term used in the description of the present application is intended merely to description tool herein The purpose of the embodiment of body, it is not intended that in limitation the application.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

Referring to Figure 1, one embodiment of the application provides a kind of warm-air drier 10 comprising：Heat generating device 100, air supply device 200 and thermoelectric conversion device 300.The heat generating device 100 is used to externally input first electric energy being converted to thermal energy.It is described Heat generating device 100 is set between the air supply device 200 and the thermoelectric conversion device 300.The air supply device 200 is used for It blows to the heat generating device 100.The thermoelectric conversion device 300 is electrically connected with the air supply device 200.The heat to electricity conversion Device 300 is disposed adjacent with the heat generating device 100.The thermoelectric conversion device 300 can generate the heat generating device 100 Thermal energy be converted to the second electric energy, and by second electrical energy transportation to the air supply device 200.

It is appreciated that the mode of the control heat generating device 100 is unlimited, as long as can convert externally input first electric energy For thermal energy (high temperature can be generated).The heat generating device 100 is controlled by controller, thus more intelligence when in use Energy.The heat generating device 100 can also be easily able to achieve it and be generated high temperature using mechanical control.It is appreciated that the thermoelectricity Conversion equipment 300 is disposed adjacent with the heat generating device 100, as long as can guarantee that thermoelectric conversion device 300 senses high temperature i.e. It can.

In one embodiment, the thermoelectric conversion device 300 is bonded setting or described with the heat generating device 100 Thermoelectric conversion device 300 and the heat generating device 100 are structure as a whole, and the effect for incuding high temperature is more obvious.Implement at one In example, the thermoelectric conversion device 300 is placed on around the heat generating device 100, guarantees that thermoelectric conversion device 300 can incude To high temperature.Specifically, the positional relationship of the thermoelectric conversion device 300 and the heat generating device 100 can according to actual needs into Row selection.It is appreciated that the thermoelectric conversion device 300 is electrically connected with the air supply device 200.In one embodiment, institute Thermoelectric conversion device 300 is stated to be electrically connected by conducting wire with the air supply device 200.Specifically, being metal wire in the conducting wire, use In the second electrical energy transportation for generating the thermoelectric conversion device 300 to the air supply device 200, to drive its work.One In a embodiment, the conducting wire can be copper conductor or aluminum conductor.

In the present embodiment, the warm-air drier 10 is by by the thermoelectric conversion device 300 and 100 phase of heat generating device Neighbour's setting, is converted using the heat that the thermoelectric conversion device 300 issues the heat generating device 100, to obtain the Two electric energy, and by the second electrical energy transportation to the air supply device 200 being electrically connected with the thermoelectric conversion device 300, and then drive and give Wind apparatus 200 works.Since the second electric energy is fed directly to air supply device 200 to drive its work, use is greatly saved Cost.It avoids increasing input cost because of the damage of control module.

In one embodiment, the warm-air drier further includes：Fairing 400 is set to the thermoelectric conversion device Between 300 and the air supply device 200, the electric current for exporting the thermoelectric conversion device 300 is rectified and is exported straight It flow to the air supply device 200.

The rectifier system that the fairing 400 uses is unlimited, as long as direct current can be exported.In one embodiment, The fairing 400 uses halfwave rectifier, has the advantages that easy to operate.

In the present embodiment, by the way that rectification dress is arranged between the thermoelectric conversion device 300 and the air supply device 200 400 are set, the electric current that thermoelectric conversion device 300 exports is rectified, and exports stable DC and flow to the air supply device 400, improve the stability of the work of air supply device 400.

Refer to Fig. 2, in one embodiment, the fairing 400 be rectifier 410, the rectifier 410 it is defeated Enter end to be electrically connected with the thermoelectric conversion device 300, the output end of the rectifier 410 is electrically connected with the air supply device 200.

In the present embodiment, the input terminal of the rectifier 410 can be electrically connected by conducting wire and the thermoelectric conversion device 300 It connects, the output end of the rectifier 410 can be easily electrically connected by conducting wire with the air supply device 200.Specifically, the conducting wire with Connection type between the rectifier 410 or the thermoelectric conversion device 300 can be selected according to actual needs.At one In embodiment, the conducting wire is detachably connected using line nose with the rectifier 410 or the thermoelectric conversion device 300.

In one embodiment, the heat generating device 100 is heater 110, for electric by described externally input first Thermal energy can be converted to.

In the present embodiment, the material of the heater 110 is unlimited, as long as high temperature can be generated.In one embodiment In, the heater 110 uses PTC (Positive Temperature Coefficient, positive temperature coefficient) heater. Specifically, the PTC heater is called ptc heater, formed using PTC ceramics heater element and aluminum pipe, the type PTC fever Body has the advantages that thermal resistance is small, heat exchange efficiency is high, is the electric heater of a kind of automatic constant-temperature, power saving.Using PTC heater will be outer The phenomenon that first electric energy of portion's input is when being converted to thermal energy, is not in " rubescent ", with high security the advantages of.In a reality It applies in example, the heater 110 uses high temperature exothermic body.Specifically, the high temperature exothermic body include Si-Mo rod, Elema and Lanthanum Chromite.Have the characteristics that high temperature resistant, anti-oxidant and low aging when in use using high temperature exothermic body.In one embodiment, The heater 110 uses heating wire, converts electrical energy into thermal energy using the resistance value of heating wire itself.When in use, it should be noted that The isolation of heating wire is avoided because of the excessively high other components of damage of heat.

When specifically used, above-mentioned heater can be selected according to the actual situation.Other, which can also be used, can generate height The heater of temperature, does not just elaborate one by one herein.The mode for controlling above-mentioned heater simultaneously can use mechanical control, It can be controlled by controller.

In one embodiment, the thermoelectric conversion device 300 is thermoelectricity occasionally thermoelectric generator 310, the thermocouple Or thermoelectric generator 310 is disposed adjacent with the heat generating device 100, the thermal energy conversion for generating the heat generating device 100 For the second electric energy, and by second electrical energy transportation to the air supply device 200.

In one embodiment, when using thermocouple for thermoelectric conversion device 300, thermocouple is placed on the fever Near body 110, the high temperature that the heater 110 generates can be sensed.Thermocouple itself can bear very high temperature, And the higher the better for the temperature at thermocouple.It is synchronous using 110 adstante febre of heater in the heater 110 work Thermocouple is heated, so that heated be heated with end in the front end of thermocouple generates the biggish temperature difference, thus will by Seebeck effect The thermal energy that the heat generating device 100 generates is converted to the second electric energy, and then by second electrical energy transportation to the air supply device 200 to drive its work.Specifically, the quantity of thermocouple is unlimited when in use, the number view temperature difference of thermocouple and the air-supply Depending on the power of device 200, as long as the second electric energy of utility thermocouple conversion can drive the air supply device 200 normal Work.

In one embodiment, when using thermoelectric converter for thermoelectric conversion device 300, with above-mentioned described thermoelectricity Even principle is identical, as long as guaranteeing that the heat that heater generates can be converted to the second electric energy by thermoelectric converter, and electric by second The air supply device 200 can be delivered to drive its work.

When specifically used, the heater 110 can be made of one structure with thermoelectricity occasionally thermoelectric converter 310.Easily Thermoelectricity occasionally thermoelectric converter 310 can be pasted on the heater 110.Thermoelectricity occasionally thermoelectric converter 310 can easily be put It sets around the heater 110.Specific setting can be selected according to the actual situation.

In one embodiment, the air supply device 200 is fan 210.In the present embodiment, institute is given using fan 210 State the air-supply of heater 110.To promote 110 rapid cooling of heater.When specifically used, the size of fan 210 can root It is selected according to actual demand.In one embodiment, the size of fan 210 is 10 cun.

In one embodiment, the warm-air drier 10 further includes shell 500, the heat generating device 100, air-supply dress It sets the 200, thermoelectric conversion device 300 and the fairing 400 is installed in the shell 500.

In the present embodiment, the material of the shell 500 is unlimited.In one embodiment, the shell 500 can be exhausted Edge material, it is safer.Specifically, the shell 500 can be made of plastics or ceramics.In one embodiment, the shell The shape of body 500 is unlimited, as long as guaranteeing the heat generating device 100, the air supply device 200,300 and of the thermoelectric conversion device The fairing 400 can be mounted in the shell 500.In one embodiment, the shape of the shell 500 is Cuboid can guarantee the heat generating device 100, the air supply device 200, the thermoelectric conversion device 300 and the rectification In the case that device 400 can be mounted in the shell 500, volume is minimized, avoids occupying excessive space.

In one embodiment, the warm-air drier 10 further includes pedestal 600, the pedestal 600 and 500 machine of shell Tool connection.

In the present embodiment, the mechanical connection manner of the pedestal 600 and the shell 500 is unlimited.In one embodiment In, it can be used and be detachably connected between the pedestal 600 and the shell 500, it is convenient to split.Specifically, the pedestal 600 with It can be used between the shell 500 and be bolted or snap connection.In one embodiment, the pedestal 600 and the shell It easily can be used and be fixedly connected between 500.Specifically, being made between the pedestal 600 and the shell 500 using welding or riveting Its is stronger.

In one embodiment, the warm-air drier 10 further includes temperature sensing package, and the temperature sensing package is set to the shell 500 At interior air outlet, for detecting the temperature of the output of warm-air drier 10.

In conclusion the warm-air drier 10 that the application one embodiment provides, only passes through heat generating device 100, air supply device 200 And thermoelectric conversion device 300 may make up a circuit, without using complicated control module, not only be avoided that because controlling mould Block damages bring replacement trouble, can be with save the cost.

Simultaneously by increasing fairing between air supply device 200 and thermoelectric conversion device 300, so that air supply device 200 is more stable at work.

Fig. 3 is referred to, one embodiment of the application also provides a kind of warm air system 20, including described in any of the above-described embodiment Warm-air drier 10.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The several embodiments of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the concept of this application, various modifications and improvements can be made, these belong to the protection of the application Range.Therefore, the scope of protection shall be subject to the appended claims for the application patent.

Claims (10)

1. a kind of warm-air drier, which is characterized in that the warm-air drier includes：

Heat generating device (100), for externally input first electric energy to be converted to thermal energy；

Air supply device (200), for blowing to the heat generating device (100)；

Thermoelectric conversion device (300) is electrically connected with the air supply device (200), and adjacent with the heat generating device (100) is set It sets, the heat generating device (100) is set between the air supply device (200) and the thermoelectric conversion device (300), the heat Electrical switching device (300) is used to be converted to the thermal energy that the heat generating device (100) generate the second electric energy, and electric by described second The air supply device (200) can be delivered to.

2. warm-air drier according to claim 1, which is characterized in that further include：

Fairing (400) is set between the thermoelectric conversion device (300) and the air supply device (200), is used for institute The electric current for stating thermoelectric conversion device (300) output is rectified and exports direct current to the air supply device (200).

3. warm-air drier according to claim 2, which is characterized in that the fairing (400) is rectifier (410), institute The input terminal for stating rectifier (410) is electrically connected with the thermoelectric conversion device (300), the output end of the rectifier (410) with Air supply device (200) electrical connection.

4. warm-air drier according to claim 1, which is characterized in that the heat generating device (100) is heater (110), is used In externally input first electric energy is converted to thermal energy.

5. warm-air drier according to claim 4, which is characterized in that the heater (110) uses PTC heater or high temperature Heater or heating wire.

6. warm-air drier according to claim 1, which is characterized in that the thermoelectric conversion device (300) is that thermoelectricity is occasionally warm Poor electric organ (310), the thermoelectricity occasionally thermoelectric generator (310) are disposed adjacent with the heat generating device (100), are used for institute The thermal energy for stating heat generating device (100) generation is converted to the second electric energy, and by second electrical energy transportation to the air supply device (200)。

7. warm-air drier according to claim 6, which is characterized in that the air supply device (200) is fan (210).

8. warm-air drier according to claim 1 or 2, which is characterized in that further include shell (500), the heat generating device (100), the air supply device (200), the thermoelectric conversion device (300) and the fairing (400) are installed in described In shell (500).

9. warm-air drier according to claim 8, which is characterized in that it further include pedestal (600), the pedestal (600) and institute State shell (500) mechanical connection.

10. a kind of warm air system, which is characterized in that including warm-air drier as described in any one of claim 1 to 9.