CN201964555U - Electromagnetic-heating and electronic-refrigerating type electronic air conditioner - Google Patents
Electromagnetic-heating and electronic-refrigerating type electronic air conditioner Download PDFInfo
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- CN201964555U CN201964555U CN201120042593XU CN201120042593U CN201964555U CN 201964555 U CN201964555 U CN 201964555U CN 201120042593X U CN201120042593X U CN 201120042593XU CN 201120042593 U CN201120042593 U CN 201120042593U CN 201964555 U CN201964555 U CN 201964555U
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Abstract
The utility model relates to an air conditioner, in particular to an electronic air conditioner, and comprises a circulating fan (1), an electronic refrigerator (2), an electronic refrigerator power supply (3), an electromagnetic heating device (4), a heating device high-frequency power supply (5) and a temperature controller (6). The electronic refrigerator (2) is connected with the electronic refrigerator power supply (3), the electromagnetic heating device (4) is composed of magnet coils (41) and vortex heating boards (42) which are arranged on two lateral sides of the magnet coils (41), and the magnet coils (41) are connected with the heating device high-frequency power supply (5). The electronic air conditioner has the advantages of being simple in structure, low in construction cost, high in working efficiency and low in use-cost. Compared with existing air conditioners using refrigerant, the electronic air conditioner does not need compressors, does not use refrigerant to refrigerate and heat, is simpler in structure and production process, small in size, light in weight, more convenient to mount, high in refrigerating and heating efficiency, fast in speed, energy-saving, environment-friendly, and more safe and reliable in use.
Description
Technical field
The utility model relates to air-conditioner, is specifically related to a kind of electronics air-conditioner.
Background technology
Existing air-conditioner all needs to use cold-producing medium, freezes and heats by compressor, and also needing of having uses additional electric heater, this air-conditioner to have complex structure cost height, and shortcomings such as inefficiency, use cost are also higher.
Summary of the invention
The purpose of this utility model provides that a kind of cost simple in structure is low, high efficiency, electromagnetic system thermoelectron refrigeration-type electronics air-conditioner that use cost is low.
Technical solution of the present utility model is: it comprises circulating fan, electronic refrigerator, refrigerator power supply, electromagnetism heat-producing machine, heat-producing machine high frequency electric source and temperature controller, electronic refrigerator links to each other with the refrigerator power supply, the electromagnetism heat-producing machine is made of solenoid and the eddy-current heating plate that is positioned at the solenoid both sides, solenoid links to each other with the heat-producing machine high frequency electric source, and the temperature detection room temperature that the temperature controller basis configures is also controlled circulating fan, electronic refrigerator and electromagnetism heat-producing machine and moved automatically.
Technique effect of the present utility model is: it is low that it has cost simple in structure, high efficiency, the advantage that use cost is low, compare with the existing air-conditioner of cold-producing medium that uses, it does not need compressor, does not use the cold-producing medium cooling and warming, and structure and production technology are simpler, its volume is little, in light weight, be more convenient for installing, its cooling and warming efficient height, speed is fast, energy-conservation environmental protection again, more secure and reliable to use.
Description of drawings
Fig. 1 is the utility model example structure block diagram;
Fig. 2 is the utility model embodiment circuit theory diagrams one;
Fig. 3 is the utility model embodiment circuit theory diagrams two;
Fig. 4 is the utility model embodiment circuit theory diagrams three;
Fig. 5 is the utility model embodiment one three-dimensional structure diagram;
Fig. 6 is the utility model embodiment two three-dimensional structure diagrams.
The specific embodiment
As shown in Figure 1, electromagnetic system thermoelectron refrigeration-type electronics air-conditioner, it comprises circulating fan 1, electronic refrigerator 2, refrigerator power supply 3, electromagnetism heat-producing machine 4, heat-producing machine high frequency electric source 5 and temperature controller 6, electronic refrigerator 2 links to each other with refrigerator power supply 3, electromagnetism heat-producing machine 4 is made of solenoid 41 and the eddy-current heating plate 42 that is positioned at solenoid 41 both sides, solenoid 41 links to each other with heat-producing machine high frequency electric source 5, and the temperature detection room temperature that temperature controller 6 bases configure is also controlled circulating fan 1, electronic refrigerator 2 and electromagnetism heat-producing machine 3 and moved automatically.
It also comprises battery main switch 7, gauge tap 8, change-over switch 9, total power light 10, circulating fan run indicator 11, electronic refrigerator run indicator 12 and electromagnetism heat-producing machine run indicator 13, the two ends of total power light 10 link to each other with second end with first end of battery main switch 7 load side respectively, the two ends of circulating fan run indicator 11 link to each other with the second source input with circulating fan 1 first power input respectively, the two ends of electronic refrigerator run indicator 12 link to each other with the second source input with electronic refrigerator 2 first power inputs respectively, and the two ends of electromagnetism heat-producing machine run indicator 13 link to each other with the second source input with heat-producing machine high frequency electric source 5 first power inputs respectively.
Circuit theory one, as shown in Figure 2, it also comprises fan power 14, circulating fan 1 links to each other with fan power 14, first end of the load side of battery main switch 7 links to each other with an end of temperature controller 6 control contacts, the other end of temperature controller 6 control contacts and an end of gauge tap 8, first end of 9 second groups of contacts 92 of first end of 9 first groups of contacts 91 of change-over switch and change-over switch links to each other, the other end of gauge tap 8 links to each other with fan power 14 first power inputs, second end of 9 first groups of contacts 91 of change-over switch links to each other with refrigerator power supply 3 first power inputs, second end of 9 second groups of contacts 92 of change-over switch links to each other with heat-producing machine high frequency electric source 5 first power inputs, second end of the load side of battery main switch 7 and fan power 14 second source inputs, refrigerator power supply 3 second source inputs link to each other respectively with heat-producing machine high frequency electric source 5 second source inputs.
Circuit theory two, as shown in Figure 3, first end of the load side of battery main switch 7 links to each other with an end of temperature controller 6 control contacts, the other end of temperature controller 6 control contacts and an end of gauge tap 8, first end of 9 second groups of contacts 92 of first end of 9 first groups of contacts 91 of change-over switch and change-over switch links to each other, the other end of gauge tap 8 links to each other with circulating fan 1 first power input, second end of 9 first groups of contacts 91 of change-over switch links to each other with refrigerator power supply 3 first power inputs, second end of 9 second groups of contacts 92 of change-over switch links to each other with heat-producing machine high frequency electric source 5 first power inputs, second end of the load side of battery main switch 7 and circulating fan 1 second source input, refrigerator power supply 3 second source inputs link to each other respectively with heat-producing machine high frequency electric source 5 second source inputs.Circulating fan 1 motor is the 220V load motor.
Circuit theory three, as shown in Figure 4, first end of the load side of battery main switch 7 links to each other with an end of temperature controller 6 control contacts, the other end of temperature controller 6 control contacts and an end of gauge tap 8, first end of 9 first groups of contacts 91 of change-over switch links to each other, the other end of gauge tap 8 links to each other with refrigerator power supply 3 first power inputs, second end of 9 first groups of contacts 91 of change-over switch links to each other with heat-producing machine high frequency electric source 5 first power inputs, second end of the load side of battery main switch 7 links to each other respectively with heat-producing machine high frequency electric source 5 second source inputs with refrigerator power supply 3 second source inputs, first output of refrigerator power supply 3 links to each other with electronic refrigerator 2 first power inputs with circulating fan 1 first power input, second output of refrigerator power supply 3 links to each other with first end of 9 second groups of contacts 92 of circulating fan 1 second source input and change-over switch, and second end of 9 second groups of contacts 92 of change-over switch links to each other with the second source input of electronic refrigerator 2.Circulating fan 1 and electronic refrigerator 2 shared refrigerator power supplys 3, the input voltage of refrigerator power supply 3 is 220V, output voltage is direct current 12V.
Embodiment one, as shown in Figure 5, it also comprises wall-hanging housing 15, the top of housing 15 is provided with air inlet 16, the bottom is provided with out air door 17, circulating fan 1 is the fan group that is made of a plurality of fans, each fan level of circulating fan 1 fan group is arranged and is located at the below of air inlet 16 in the housing 15, electronic refrigerator 2 is installed in the below of circulating fan 1 in the housing 15, electromagnetism heat-producing machine 4 is installed in the below of electronic refrigerator 2 in the housing 15, go out the top of air door 17, refrigerator power supply 3, heat-producing machine high frequency electric source 5 and temperature controller 6 are installed in respectively in the housing 15, battery main switch 7, gauge tap 8, change-over switch 9, total power light 10, circulating fan run indicator 11, electronic refrigerator run indicator 12 and electromagnetism heat-producing machine run indicator 13 are installed in respectively on housing 15 front panels, the power end of battery main switch 7 is connected with the power line 18 of band plug, and two end points of battery main switch 7 mains sides link to each other respectively with zero line with the live wire of power line 18.Housing 15 front panels are provided with the thermometer 19 that can detect and demonstrate room temperature.
Embodiment two, as shown in Figure 6, it also comprises upright shell 15, the top of housing 15 is provided with air inlet 16, the front portion is provided with several and goes out air door 17, circulating fan 1 is the fan group that is made of a plurality of fans, the fan of circulating fan 1 is mounted on the below of air inlet 16 in the housing 15, electronic refrigerator 2 is installed in the below of circulating fan 1 in the housing 15, several electromagnetism heat-producing machines 4 are installed in the below of electronic refrigerator 2 in the housing 15 from the top down successively, refrigerator power supply 3, heat-producing machine high frequency electric source 5 and temperature controller 6 are installed in respectively in the housing 15, battery main switch 7, gauge tap 8, change-over switch 9, total power light 10, circulating fan run indicator 11, electronic refrigerator run indicator 12 and electromagnetism heat-producing machine run indicator 13 are installed in respectively on housing 15 front panels, the power end of battery main switch 7 is connected with the power line 18 of band plug, and two end points of battery main switch 7 mains sides link to each other respectively with zero line with the live wire of power line 18.Also be provided with the thermometer 19 that can detect and demonstrate room temperature on housing 14 front panels.Housing 14 bottoms are provided with the base 20 of taking away wheel.
Circulating fan 1 sucks the air inlet of room air from housing in the housing 15 during use, and air is cooled or heating through electronic refrigerator 2 and electromagnetism heat-producing machine 4 time, reaches the purpose of regulating indoor air temperature.Use 4 heating of electromagnetism heat-producing machine in the time of can reaching day cold by the operation change-over switch, use the purpose of electronic refrigerator 2 refrigeration when day hot.Because this air-conditioner adopts the electromagnetism heating, compare with the electrothermal tube heating of common electrical heating installation that it is more energy-conservation, the thermal efficiency is also higher.It does not use cold-producing medium and compressor to freeze, and structure is simpler, safeguards that use is also convenient.It adopts temperature controller 6 to detect room temperature automatically and controls electronic refrigerator 2, electromagnetism heat-producing machine 4 and circulating fan 1 and move automatically, can realize temperature automatically controlled, very convenient to use according to the temperature that configures.It is simple in structure, does not need outdoor unit, is more convenient for installing and using.The environmental protection policy that meets current energy-saving and emission-reduction.
Claims (9)
1. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner, it is characterized in that: it comprises circulating fan (1), electronic refrigerator (2), refrigerator power supply (3), electromagnetism heat-producing machine (4), heat-producing machine high frequency electric source (5) and temperature controller (6), electronic refrigerator (2) links to each other with refrigerator power supply (3), electromagnetism heat-producing machine (4) is made of solenoid (41) and the eddy-current heating plate (42) that is positioned at solenoid (41) both sides, solenoid (41) links to each other with heat-producing machine high frequency electric source (5), and temperature controller (6) is according to the temperature detection room temperature that configures and control circulating fan (1), electronic refrigerator (2) and electromagnetism heat-producing machine (3) be operation automatically.
2. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 1, it is characterized in that it also comprises battery main switch (7), gauge tap (8), change-over switch (9), total power light (10), circulating fan run indicator (11), electronic refrigerator run indicator (12) and electromagnetism heat-producing machine run indicator (13), the two ends of total power light (10) link to each other with second end with first end of battery main switch (7) load side respectively, the two ends of circulating fan run indicator (11) link to each other with the second source input with circulating fan (1) first power input respectively, the two ends of electronic refrigerator run indicator (12) link to each other with the second source input with electronic refrigerator (2) first power inputs respectively, and the two ends of electromagnetism heat-producing machine run indicator (13) link to each other with the second source input with heat-producing machine high frequency electric source (5) first power inputs respectively.
3. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 2, it is characterized in that it also comprises fan power (14), circulating fan (1) links to each other with fan power (14), first end of the load side of battery main switch (7) links to each other with an end of temperature controller (6) control contact, the other end of temperature controller (6) control contact and an end of gauge tap (8), first end of (9) first groups of contacts of change-over switch (91) links to each other with first end of (9) second groups of contacts of change-over switch (92), the other end of gauge tap (8) links to each other with fan power (14) first power inputs, second end of (9) first groups of contacts of change-over switch (91) links to each other with refrigerator power supply (3) first power inputs, second end of (9) second groups of contacts of change-over switch (92) links to each other with heat-producing machine high frequency electric source (5) first power inputs, second end of the load side of battery main switch (7) and fan power (14) second source input, refrigerator power supply (3) second source input links to each other respectively with heat-producing machine high frequency electric source (5) second source input.
4. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 2, first end that it is characterized in that the load side of described battery main switch (7) links to each other with an end of temperature controller (6) control contact, the other end of temperature controller (6) control contact and an end of gauge tap (8), first end of (9) first groups of contacts of change-over switch (91) links to each other with first end of (9) second groups of contacts of change-over switch (92), the other end of gauge tap (8) links to each other with circulating fan (1) first power input, second end of (9) first groups of contacts of change-over switch (91) links to each other with refrigerator power supply (3) first power inputs, second end of (9) second groups of contacts of change-over switch (92) links to each other with heat-producing machine high frequency electric source (5) first power inputs, second end of the load side of battery main switch (7) and circulating fan (1) second source input, refrigerator power supply (3) second source input links to each other respectively with heat-producing machine high frequency electric source (5) second source input.
5. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 2, first end that it is characterized in that the load side of described battery main switch (7) links to each other with an end of temperature controller (6) control contact, the other end of temperature controller (6) control contact and an end of gauge tap (8), first end of (9) first groups of contacts of change-over switch (91) links to each other, the other end of gauge tap (8) links to each other with refrigerator power supply (3) first power inputs, second end of (9) first groups of contacts of change-over switch (91) links to each other with heat-producing machine high frequency electric source (5) first power inputs, second end of the load side of battery main switch (7) links to each other respectively with heat-producing machine high frequency electric source (5) second source input with refrigerator power supply (3) second source input, first output of refrigerator power supply (3) links to each other with electronic refrigerator (2) first power inputs with circulating fan (1) first power input, second output of refrigerator power supply (3) links to each other with first end of circulating fan (1) second source input and (9) second groups of contacts of change-over switch (92), and second end of (9) second groups of contacts of change-over switch (92) links to each other with the second source input of electronic refrigerator (2).
6. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 2, it is characterized in that it also comprises wall-hanging housing (15), the top of housing (15) is provided with air inlet (16), the bottom is provided with out air door (17), circulating fan (1) is the fan group that is made of a plurality of fans, each fan level of circulating fan (1) fan group is arranged and is located at the below of the interior air inlet of housing (15) (16), electronic refrigerator (2) is installed in the below of the interior circulating fan of housing (15) (1), electromagnetism heat-producing machine (4) is installed in the below of the interior electronic refrigerator of housing (15) (2), go out the top of air door (17), refrigerator power supply (3), heat-producing machine high frequency electric source (5) and temperature controller (6) are installed in respectively in the housing (15), battery main switch (7), gauge tap (8), change-over switch (9), total power light (10), circulating fan run indicator (11), electronic refrigerator run indicator (12) and electromagnetism heat-producing machine run indicator (13) are installed in respectively on housing (15) front panel, the power end of battery main switch (7) is connected with the power line (18) of band plug, and two end points of battery main switch (7) mains side link to each other respectively with zero line with the live wire of power line (18).
7. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 2, it is characterized in that it also comprises upright shell (15), the top of housing (15) is provided with air inlet (16), the front portion is provided with several and goes out air door (17), circulating fan (1) is the fan group that is made of a plurality of fans, the fan of circulating fan (1) is mounted on the below of the interior air inlet of housing (15) (16), electronic refrigerator (2) is installed in the below of the interior circulating fan of housing (15) (1), several electromagnetism heat-producing machines (4) are installed in the below of the interior electronic refrigerator of housing (15) (2) from the top down successively, refrigerator power supply (3), heat-producing machine high frequency electric source (5) and temperature controller (6) are installed in respectively in the housing (15), battery main switch (7), gauge tap (8), change-over switch (9), total power light (10), circulating fan run indicator (11), electronic refrigerator run indicator (12) and electromagnetism heat-producing machine run indicator (13) are installed in respectively on housing (15) front panel, the power end of battery main switch (7) is connected with the power line (18) of band plug, and two end points of battery main switch (7) mains side link to each other respectively with zero line with the live wire of power line (18).
8. electromagnetic system thermoelectron refrigeration-type electronics air-conditioner as claimed in claim 7 is characterized in that described housing (14) bottom is provided with the base (20) of taking away wheel.
9. as claim 6 or 7 described electromagnetic system thermoelectron refrigeration-type electronics air-conditioners, it is characterized in that described housing (15) front panel is provided with the thermometer (19) that can detect and demonstrate room temperature.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201120042593XU CN201964555U (en) | 2011-02-21 | 2011-02-21 | Electromagnetic-heating and electronic-refrigerating type electronic air conditioner |
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CN201120042593XU CN201964555U (en) | 2011-02-21 | 2011-02-21 | Electromagnetic-heating and electronic-refrigerating type electronic air conditioner |
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CN201964555U true CN201964555U (en) | 2011-09-07 |
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CN201120042593XU Expired - Fee Related CN201964555U (en) | 2011-02-21 | 2011-02-21 | Electromagnetic-heating and electronic-refrigerating type electronic air conditioner |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104662380A (en) * | 2012-08-01 | 2015-05-27 | 制冷技术应用股份有限公司 | One-piece part including a magnetocaloric material not including an alloy including iron and silicon and a lanthanide, and heat generator including said part |
-
2011
- 2011-02-21 CN CN201120042593XU patent/CN201964555U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104662380A (en) * | 2012-08-01 | 2015-05-27 | 制冷技术应用股份有限公司 | One-piece part including a magnetocaloric material not including an alloy including iron and silicon and a lanthanide, and heat generator including said part |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110907 Termination date: 20200221 |
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CF01 | Termination of patent right due to non-payment of annual fee |