CN201964523U - Indoor heating device - Google Patents

Abstract

The utility model discloses an indoor heating device which comprises a heat dissipation shell; one end of the heat dissipation shell is connected with a shell end cover; the heat dissipation shell is internally filled with heating liquid; the heat dissipation shell is provided with a heating liquid inlet and outlet hole; the lower part of the heat dissipation shell is provided with a heat source cavity which is internally provided with an electric heating pipe; the electric heating pipe is internally provided with a temperature sensor I; the side of the heat source cavity is provided with an electric heating pipe inlet and outlet hole; the upper part of the shell end cover is provided with a heating control system; the heating control system comprises a microcontroller and an auxiliary power supply module; an input end of the microcontroller is connected with the temperature sensor I, a temperature sensor II, a heating parameter input unit and a clock module; an output end of the microcontroller is connected with a display unit and a relay; and the electric heating pipe is connected with a leakage protection power plug by a power line and the relay. The indoor heating device is novel and reasonable in design, flexible and convenient to use, rapid in heat transfer, small in volume, light in weight, convenient to install, high in efficiency, energy-saving, comfortable, safe and reliable in use, good in using effect and convenient to popularize and use.

Description

A kind of indoor heating device

Technical field

The utility model belongs to the indoor heating technical field, especially relates to a kind of indoor heating device.

Background technology

At present, the mode of indoor heating mainly contains four kinds, the one, traditional boiler heating, indoor the radiator heat radiation is set,, all is bound to build the boiler room no matter be sub-district central heating or single building heating, and the necessary heating equipment of configuration, for example boiler, air blast, air-introduced machine, small pump, water treatment facilities etc., sub-district central heating also need to build the pipe trench of hundreds of rice and even several kilometers long, and are costly; And the water yield that circulates in whole heating system is big, and heat conduction velocity is slow, and the thermal efficiency is low, the power consumption of thermal resistance burn into is big; When inapplicable, the humid air in the radiator also can cause the natural rust of heating installation housing, shortens the service life of radiator.The 2nd, earth source heat pump heating, this mode cost height, the restriction that is subjected to natural conditions, energy consumption is also higher, difficulty of construction big, the polluted underground water resource.The abnormal situation of heating, maintenance and difficult in maintenance also often appear in boiler heating and earth source heat pump heating; The regulated at will of boiler heating and earth source heat pump heating is poor, can not carry out regulated at will according to everyone different needs, causes the waste of the energy easily and can not satisfy people's demand.The 3rd, the air conditioner heating, be divided into wall-hanging, the cabinet air-conditioner of central air-conditioning and small-sized household, central air-conditioning is installed in the building need be disposed equipment such as refrigeration machine, cooling tower, airduct, water pipe, fan coil, blower fan, water pump, costly, and often operating cost, maintaining expense and energy consumption are all very high, still need to build the boiler room at cold district; And small-sized household is wall-hanging, cabinet air-conditioner can have a strong impact on the handsome in appearance of outside vertical surface of building, unit price height, heating efficiency is low, energy consumption is high, cause higher financial burden to people, and environment is caused very big destruction, when the cold district outdoor temperature is reduced to certain numerical value, air-conditioner can't heat.The 4th, electric heater heating, as various forms of electric heating fans, though its uses is comparatively convenient, its heat dispersion is poor, and heating effect is better under the people sits quietly motionless situation, can only satisfy interior among a small circle heating demand, and uses dangerously, causes fire easily.

The utility model content

Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art, a kind of indoor heating device is provided, and it is rationally novel in design, and is flexible and convenient to use, it is fast to conduct heat, volume is little, and is in light weight, easy for installation, energy-efficient, use comfortablely, quiet, safe and reliable, result of use is good, is convenient to promote the use of.

For solving the problems of the technologies described above; the technical solution adopted in the utility model is: a kind of indoor heating device; the radiating shell that comprises sealing; it is characterized in that: an end of described radiating shell is connected with housing end plug; described radiating shell internal cavities vacuumizes and is filled with a certain amount of heating fluid; the upper portion side wall of described radiating shell is provided with heating fluid and imports and exports; the bottom of described radiating shell is provided with the thermal source chamber; described thermal source laterally is equipped with electric heating tube in the chamber; be equipped with in the described electric heating tube and be used for the temperature sensor one that the temperature to electric heating tube detects; the side in described thermal source chamber is provided with electric heating tube and imports and exports; the external wall of upper portion of described housing end plug is provided with heating control system; described heating control system comprises microcontroller and gives the accessory power supply module of each power unit power supply in the heating control system; the input jointing temp sensor one of described microcontroller; be used for temperature sensor two that indoor temperature is detected; be used for heating parameters input block that heating parameters is provided with and the clock module that is used for providing the precision clock signal to microcontroller; described microcontroller receives temperature sensor one; temperature sensor two; the signal that heating parameters input block and clock module are exported is also handled back output control signal corresponding by analysis and is given the relay that is used for the display unit that heating parameters is shown and is used for the energising or the outage of electric heating tube are controlled that is connected on its output; described electric heating tube joins by power line and relay and Leakage protection plug, described power line be used to be connected the space that the connecting line of temperature sensor one with microcontroller all be arranged on radiating shell and housing end plug and constituted in.Above-mentioned a kind of indoor heating device, it is characterized in that: the volume of described heating fluid is

Wherein, V is the volume of radiating shell internal cavities.

Above-mentioned a kind of indoor heating device is characterized in that: described heating control system also comprises the power protection module of joining with the accessory power supply module.

Above-mentioned a kind of indoor heating device is characterized in that: described microcontroller is a MSP430 series super low power consuming single chip processor.

Above-mentioned a kind of indoor heating device is characterized in that: described heating parameters input block is a keyboard circuit.

Above-mentioned a kind of indoor heating device is characterized in that: described clock module is chip DS1 302.

Above-mentioned a kind of indoor heating device is characterized in that: described display unit is a LCDs.

Above-mentioned a kind of indoor heating device is characterized in that: it is that two and two electric heating tubes are imported and exported and are separately positioned on two sides in thermal source chamber that described electric heating tube is imported and exported.

Above-mentioned a kind of indoor heating device, it is characterized in that: described housing end plug is provided with a plurality of louvres.

The utility model compared with prior art has the following advantages:

1, design of the present utility model makes this indoor heating device have the function of setting its duty according to user's needs, can satisfy the different demands of different user, and is rationally novel in design, flexible and convenient to use.

2, the proportion of the employed heating fluid of the utility model is littler than the proportion of water, and whole heating installation in light weight moved conveniently.

3, the employed heating fluid of the utility model nontoxic, harmless, do not have a corrosion, safe and reliable and can not cause corrosion to radiating shell, prolonged the service life of radiating shell.

4, employed electrothermal tube of the utility model and heating fluid can produce any noise hardly when heating, use comfortable, quiet.

5, the Leakage protection plug of the utility model design; can when electric leakage takes place automatic shutoff circuit; if fault has appearred in Leakage protection plug; can also protect circuit by the power protection module that is provided with in the heating control system; prevent to get an electric shock, the generation of contingency such as fire; the setting of duplicate protection has guaranteed the safety that this indoor heating device uses.

6, the programming rate of the utility model electric heating tube and heating fluid is fast, perfect heat-dissipating, building with homalographic is indoor, the volume of this heating installation of required use is little, spent electric energy is few, and owing in the design of heating control system, also considered low power dissipation design, make the power consumption of whole indoor heating device further reduce, saved the energy.

7, result of use of the present utility model is good, is convenient to promote the use of building fields such as hotel, apartment, market, school, hospital, dwelling house.

In sum, the utility model is rationally novel in design, and is flexible and convenient to use, and it is fast to conduct heat, volume is little, in light weight, easy for installation, energy-efficient, use comfortable, quiet, safe and reliable, solved defective and deficiencies such as existing in prior technology is subjected to restriction, energy consumption height, the difficulty of construction of natural conditions big, contaminated environment, usage safety performance difference, result of use is good, is convenient to promote the use of.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the circuit block diagram of the utility model heating control system.

Description of reference numerals:

The 1-radiating shell; The 2-heating fluid; 3-thermal source chamber;

The 4-electric heating tube; 5-temperature sensor one; The 6-heating control system;

The 6-1-microcontroller; 6-2-accessory power supply module; 6-3-temperature sensor two;

The 6-4-heating parameters is imported single 6-5-clock module; The 6-6-display unit; Unit;

The 6-7-relay; 6-8-power protection module; The 7-heating fluid is imported and exported;

The 8-electric heating tube is imported and exported; The 9-power line; The 10-Leakage protection plug;

The 11-connecting line; The 12-housing end plug; The 13-louvre.

The specific embodiment

As depicted in figs. 1 and 2; the utility model comprises the radiating shell 1 of sealing; one end of described radiating shell 1 is connected with housing end plug 12; described radiating shell 1 internal cavities vacuumizes and is filled with a certain amount of heating fluid 2; the upper portion side wall of described radiating shell 1 is provided with heating fluid and imports and exports 7; the bottom of described radiating shell 1 is provided with thermal source chamber 3; in the described thermal source chamber 3 electric heating tube 4 is housed laterally; be equipped with in the described electric heating tube 4 and be used for the temperature sensor 1 that the temperature to electric heating tube 4 detects; the side in described thermal source chamber 3 is provided with electric heating tube and imports and exports 8; the external wall of upper portion of described housing end plug 12 is provided with heating control system 6; described heating control system 6 comprises microcontroller 6-1 and gives the accessory power supply module 6-2 of each power unit power supply in the heating control system 6; the input jointing temp sensor 1 of described microcontroller 6-1; be used for temperature sensor two 6-3 that indoor temperature is detected; be used for heating parameters input block 6-4 that heating parameters is provided with and the clock module 6-5 that is used for providing the precision clock signal to microcontroller 6-1; described microcontroller 6-1 receives temperature sensor 1; temperature sensor two 6-3; the signal that heating parameters input block 6-4 and clock module 6-5 are exported is also handled back output control signal corresponding by analysis and is given the relay 6-7 that is used for the display unit 6-6 that heating parameters is shown and is used for the energising or the outage of electric heating tube 4 are controlled that is connected on its output; described electric heating tube 4 joins by power line 9 and relay 6-7 and Leakage protection plug 10, described power line 9 be used to be connected the connecting line 11 of temperature sensor 1 and all be arranged in the space that radiating shell 1 and housing end plug 12 constituted with microcontroller 6-1.

The volume of described heating fluid 2 is

Wherein, V is the volume of radiating shell 1 internal cavities; The thermal coefficient of expansion of considering employed heating fluid 2 is 7.8 * 10 ^-10So,, the volume that heating fluid 2 preferably is set is radiating shell 1 an internal cavities volume

The proportion of heating fluid 2 is littler than the proportion of water, makes the in light weight of whole heating installation.Described heating control system 6 also comprises the power protection module 6-8 that joins with accessory power supply module 6-2.Described microcontroller 6-1 is a MSP430 series super low power consuming single chip processor, has reduced the energy consumption of whole indoor heating device, better energy savings.Described heating parameters input block 6-4 is a keyboard circuit, also comprises the startup button of this indoor heating device in the keyboard circuit and closes button, uses easy to operate.Described clock module 6-5 is chip DS 1302.Described display unit 6-6 is a LCDs, the heating parameters of being imported from heating parameters input block 6-4 can be shown to the user intuitively by LCDs, user friendly operation, the duty of indoor heating device can also be presented on the LCDs simultaneously, make things convenient for the user to adjust according to demand.It is that two and two electric heating tubes are imported and exported 8 and are separately positioned on two sides in thermal source chamber 3 that described electric heating tube imports and exports 8, two electric heating tubes are set import and export 8, use that can convenient user, the user both can be connected housing end plug 12 left end of radiating shell 1, housing end plug 12 can also be connected the right-hand member of radiating shell 1, make things convenient for the setting of power line 9 and connecting line 11.Described housing end plug 12 is provided with a plurality of louvres 13, can be used to cool off power line 9 and connecting line 11, during concrete the use, temperature sensor two 6-3 that are used for indoor temperature is detected can also be installed in the upper end of housing end plug 12, connecting line passes louvre 13 temperature sensor two 6-3 is connected with microcontroller 6-1.

The operation principle of the present utility model and the course of work are: at first Leakage protection plug 10 is plugged on the commercial power socket; startup button on the operation heating parameters input block 6-4; this indoor heating device enters duty; on heating parameters input block 6-4, import heating parameters according to user's demand then; the heating parameters signal that microcontroller 6-1 reception heating parameters input block 6-4 is imported also is stored in the respective data storage unit; the control signal of microcontroller 6-1 output is simultaneously given display unit 6-6, and display unit 6-6 goes up and shows the heating parameters signal of being imported in real time.Wherein, heating parameters can require the production firm of indoor heating device to customize according to user's needs, for example, heating parameters comprises the duty setting and the antifreeze setting in seven days weeks, the duty setting in seven days one weeks can be provided with the different heating duty of different periods, indoor heating device in 24 hours every days, once set seven days, can this duty of seven days of unlimited circulation, up to heating parameters artificially is set once more, this indoor heating device just can be according to the new work that is provided with, and is user-friendly; The antifreeze setting can be provided with this indoor heating device and drop to uniform temperature when following in indoor temperature, opens automatically.

In the process of indoor heating device work, microcontroller 6-1 receives the heating-up temperature signal of temperature sensor one 5 detected electric heating tubes 4 and the detected indoor temperature signal of temperature sensor two 6-3 and compares with the heating parameters signal that is stored in the microcontroller 6-1 respective data storage unit, if the heating-up temperature of electric heating tube 4 has surpassed the temperature range of electric heating tube 4 trouble free services, microcontroller 6-1 just exports control signal and gives relay 6-7, disconnects the power circuit of electric heating tube 4; In a certain amount of time, if indoor temperature is lower than the heating parameters of this set period, microcontroller 6-1 just exports control signal and gives relay 6-7, connect the power circuit of electric heating tube 4, electric heating tube 4 begins heating, if indoor temperature is higher than the heating parameters of this set period, microcontroller 6-1 just exports control signal and gives relay 6-7, disconnect the power circuit of electric heating tube 4, electric heating tube 4 stops heating; Simultaneously, microcontroller 6-1 also exports control signal and gives display unit 6-6, and display unit 6-6 goes up and shows indoor temperature information in real time, and is for reference.

In addition; the utility model adopts Leakage protection plug 10; can when electric leakage takes place automatic shutoff circuit; if fault has appearred in Leakage protection plug 10; can also circuit be protected by the power protection module 6-8 that is provided with in the heating control system 6; prevent to get an electric shock, the generation of contingency such as fire, the setting of duplicate protection has guaranteed the safety that this indoor heating device uses.

The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection domain of technical solutions of the utility model according to the utility model technical spirit.

Claims (9)

1. indoor heating device; the radiating shell (1) that comprises sealing; it is characterized in that: an end of described radiating shell (1) is connected with housing end plug (12); described radiating shell (1) internal cavities vacuumizes and is filled with a certain amount of heating fluid (2); the upper portion side wall of described radiating shell (1) is provided with heating fluid and imports and exports (7); the bottom of described radiating shell (1) is provided with thermal source chamber (3); electric heating tube (4) laterally is housed in the described thermal source chamber (3); be equipped with in the described electric heating tube (4) and be used for the temperature sensor one (5) that the temperature to electric heating tube (4) detects; the side in described thermal source chamber (3) is provided with electric heating tube and imports and exports (8); the external wall of upper portion of described housing end plug (12) is provided with heating control system (6); described heating control system (6) comprises microcontroller (6-1) and gives the accessory power supply module (6-2) of each power unit power supply in the heating control system (6); the input jointing temp sensor one (5) of described microcontroller (6-1); be used for temperature sensor two (6-3) that indoor temperature is detected; be used for the heating parameters input block (6-4) that heating parameters is provided with and be used for providing the clock module (6-5) of precision clock signal to microcontroller (6-1); described microcontroller (6-1) receives temperature sensor one (5); temperature sensor two (6-3); the signal that heating parameters input block (6-4) and clock module (6-5) are exported is also handled back output control signal corresponding by analysis and is given the relay (6-7) that is used for the display unit (6-6) that heating parameters is shown and is used for the energising or the outage of electric heating tube (4) are controlled that is connected on its output; described electric heating tube (4) joins by power line (9) and relay (6-7) and Leakage protection plug (10), and the connecting line (11) that described power line (9) and being used to is connected temperature sensor one (5) and microcontroller (6-1) all is arranged in the space that radiating shell (1) and housing end plug (12) constituted.

2. according to the described a kind of indoor heating device of claim 1, it is characterized in that: the volume of described heating fluid (2) is

Wherein, V is the volume of radiating shell (1) internal cavities.

3. according to the described a kind of indoor heating device of claim 1, it is characterized in that: described heating control system (6) also comprises the power protection module (6-8) of joining with accessory power supply module (6-2).

4. according to claim 1 or 3 described a kind of indoor heating devices, it is characterized in that: described microcontroller (6-1) is MSP430 series super low power consuming single chip processor.

5. according to claim 1 or 3 described a kind of indoor heating devices, it is characterized in that: described heating parameters input block (6-4) is a keyboard circuit.

6. according to claim 1 or 3 described a kind of indoor heating devices, it is characterized in that: described clock module (6-5) is chip DS 1302.

7. according to claim 1 or 3 described a kind of indoor heating devices, it is characterized in that: described display unit (6-6) is a LCDs.

8. according to the described a kind of indoor heating device of claim 1, it is characterized in that: it is that two and two electric heating tubes are imported and exported (8) and are separately positioned on two sides in thermal source chamber (3) that described electric heating tube is imported and exported (8).

9. according to the described a kind of indoor heating device of claim 1, it is characterized in that: described housing end plug (12) is provided with a plurality of louvres (13).

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