CN204853766U - Air conditioner changes in temperature all -in -one - Google Patents

Air conditioner changes in temperature all -in -one Download PDF

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Publication number
CN204853766U
CN204853766U CN201520532981.4U CN201520532981U CN204853766U CN 204853766 U CN204853766 U CN 204853766U CN 201520532981 U CN201520532981 U CN 201520532981U CN 204853766 U CN204853766 U CN 204853766U
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China
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air conditioner
casing
temperature
indoor
liquid
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Expired - Fee Related
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CN201520532981.4U
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Chinese (zh)
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陈朋
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Chen Peng
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Abstract

The utility model relates to an air conditioner changes in temperature all -in -one, which comprises a housing, the plastic width -lock type single -layer sealed packing case comprises a casin, the fan, electron mainboard controller and temperature sensor, the box surface is equipped with the heat preservation, incasement liquid filling opening has been seted up on the box top, the inside circulating pipe that is equipped with of box, cooling tube and electric heating element, be equipped with the circulating pipe external tapping on the box lateral wall, the circulating pump connector, a cooling tube external tapping and the 2nd cooling tube external tapping, the circulating pump is the interface connection liquid circulation pump even, notes liquid box is connected to the liquid circulation pump, be equipped with extrinsic cycle pipe connector mouth on the notes liquid box, extrinsic cycle pipe connector mouth and circulating pipe external tapping are connected through the extrinsic cycle pipe, be connected with compressor group between a cooling tube external tapping and the 2nd cooling tube external tapping, with the interior equal full of liquid of circulating pipe in the box, compressor group and cooling tube put together and enable the cooling of incasement liquid, electricity heating element enables incasement liquid and heaies up. The utility model discloses the refrigeration be can realize and function and energy -concerving and environment -protective, pollution -free, noiselessness are heated.

Description

Air conditioner cold-warm all-in-one
Technical field
The utility model relates to a kind of air-conditioning equipment, particularly relates to a kind of air conditioner cold-warm all-in-one.
Background technology
At present, air conditioner many dependence electric power traditional on market carries out heat supply in winter summer cooling, and this mode needs to consume mass energy, easily makes that room air becomes dry, floating dust increases, and comfort level is deteriorated.And traditional air conditioner structure is loaded down with trivial details, operational outfit is many, and consumed energy is large, and the noise of generation is large, heats or refrigeration is easily subject to the impact of outdoor environment temperature.
Because above-mentioned defect, the design people's actively in addition research and innovation, to founding a kind of air conditioner cold-warm all-in-one of new structure, makes it have more value in industry.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of energy-saving and environmental protection, noiselessness, can heats and freeze and can be arranged on the air conditioner cold-warm all-in-one of indoor or outdoors.
Air conditioner cold-warm all-in-one of the present utility model, be located at indoor or outdoors, comprise casing, casing, electronics mainboard controller and temperature sensor, described casing is located in described casing, described electronics mainboard controller is located on casing inner wall, described electronics mainboard controller is connected with display screen and guidance panel, box outer surface is provided with heat-insulation layer, liquid injection port in case is offered on casing top through casing and described heat-insulation layer, box house is provided with circulation pipe, refrigerator pipes and electrical heating elements, described circulation pipe one end forms circulation pipe external tapping through casing and heat-insulation layer on wall box, the circulation pipe other end forms circulating pump connector through casing and heat-insulation layer on wall box, the dismountable connection liquid circulation pump of described circulating pump connector, described liquid circulation pump is by the dismountable connection filling box of pipeline, described filling box is provided with outer circulating tube interface, described outer circulating tube interface is connected by outer circulating tube with described circulation pipe external tapping, described refrigerator pipes one end forms the first refrigerator pipes external tapping through casing and heat-insulation layer on wall box, the refrigerator pipes other end forms the second refrigerator pipes external tapping through casing and heat-insulation layer on wall box, refrigeration compressor set is connected with between described first refrigerator pipes external tapping and described second refrigerator pipes external tapping, all liquid is full of in casing and in circulation pipe, described refrigeration compressor set and described refrigerator pipes are combined and the liquid in described casing can be made to lower the temperature, described electrical heating elements can make the liquid in casing heat up, described electronics mainboard controller connects and controls refrigeration compressor set, liquid circulation pump, described temperature sensor and described electrical heating elements.
Further, when indoor are located at by described air conditioner cold-warm all-in-one, described air conditioner cold-warm all-in-one also comprises blower fan, described blower fan is located in casing, blower fan is connected with described electronics mainboard controller, blower fan is used for outer circulating tube blowing, and described display screen and described guidance panel are arranged on the outer wall of casing; When outdoor is located at by described air conditioner cold-warm all-in-one, described air conditioner cold-warm all-in-one also comprises indoor apparatus of air conditioner, described indoor apparatus of air conditioner is located at indoor, described outer circulating tube is arranged on indoor apparatus of air conditioner inside, described indoor apparatus of air conditioner inside is provided with indoor apparatus of air conditioner blower fan, described indoor apparatus of air conditioner blower fan is connected with described electronics mainboard controller, and indoor apparatus of air conditioner blower fan is used for outer circulating tube blowing, and described display screen and described guidance panel are arranged on indoor apparatus of air conditioner.
Further, described temperature sensor comprises the environment temperature sensor being located at described heat-insulation layer outside, the indoor temperature transmitter be located at the temperature inside the box sensor in described casing and be located on described indoor apparatus of air conditioner or in described casing; Described environment temperature sensor controls described electrical heating elements and described refrigeration compressor set by described electronics mainboard controller, environment temperature sensor is used for monitoring of environmental temperature, heat when environment temperature does not start higher than electrical heating elements when 26 DEG C, when environment temperature does not start refrigeration lower than refrigeration compressor set when 16 DEG C, described in heat and cannot start with described refrigeration simultaneously; Described the temperature inside the box sensor controls described electrical heating elements and described refrigeration compressor set by described electronics mainboard controller, the temperature inside the box sensor is for monitoring fluid temperature in case, when fluid temperature in case quits work automatically higher than electrical heating elements when 120 DEG C, when fluid temperature in case quits work automatically lower than refrigeration compressor set when 0 DEG C, when fluid temperature in case is started working automatically higher than refrigeration compressor set when 5 DEG C; Described indoor temperature transmitter controls described liquid circulation pump, described blower fan and described indoor apparatus of air conditioner blower fan by described electronics mainboard controller, indoor temperature transmitter is for monitoring indoor temperature, when indoor temperature reach user according to self need set by temperature time, liquid circulation pump, blower fan, indoor apparatus of air conditioner blower fan quit work automatically.
Further, described electrical heating elements is positioned at described casing bottom, comprise electric main heating element heater and electric auxiliary heating element, the power of described electric auxiliary heating element is less than the power of the main heating element heater of described electricity, fluid temperature when fluid temperature when the main heating element heater of described electricity is started working is started working lower than described electric auxiliary heating element, fluid temperature when fluid temperature when electric main heating element heater quits work quits work lower than electric auxiliary heating element.
Further, fluid temperature when the main heating element heater of described electricity is started working is 65 DEG C, fluid temperature when described electric auxiliary heating element is started working is 75 DEG C, fluid temperature when the main heating element heater of described electricity quits work is 100 DEG C, and fluid temperature when described electric auxiliary heating element quits work is 120 DEG C.
Further, described filling box is also provided with liquid-filling valve.
Further, the bore of described circulation pipe is greater than the bore of described outer circulating tube.
Further, the junction of described circulating pump connector and described circulation pipe is provided with fluid cushion box, the cross-sectional width of described fluid cushion box is greater than the bore of described circulation pipe, under the effect of described liquid circulation pump, the liquid before remained in fluid cushion box can be released from fluid cushion box by the liquid entered afterwards in fluid cushion box, and the described liquid meeting short stay entered afterwards is in fluid cushion box, be so just beneficial to the adjustment of temperature.
Further, described refrigerator pipes, described circulation pipe, described outer circulating tube are curling shape.
Further, described liquid is conduction oil.
By technique scheme, the utility model at least has the following advantages:
1, air conditioner cold-warm all-in-one of the present utility model can realize refrigeration and heat-production functions, the utility model originally by liquid-circulating through refrigeration and heating operations in, liquid circulating pipe, outer circulating tube, liquid circulation pump, refrigeration compressor set, refrigerator pipes, electrical heating elements is relied on to realize refrigeration and heat, refrigeration system and heating more simple relative to traditional air-conditioning system structure, be more convenient for user operation and use.
2, air conditioner cold-warm all-in-one of the present utility model does not make a noise, and is beneficial to user and has a rest; Do not produce any waste gas and pollutant, can not pollute air; Really there is effect of health environment-friendly.
3, air conditioner cold-warm all-in-one of the present utility model, not only can not affect the attractive in appearance of building outside, and refrigeration, heating effect can not be subject to the impact of outdoor environment temperature, compared with the air-conditioner of the outer Cooling and Heat Source of traditional absorption chamber, air conditioner cold-warm all-in-one of the present utility model refrigeration, heat stable, and refrigeration, to heat speed fast.
4, the utility model can select the refrigeration compressor set of appropriate power according to the concrete needs of user and room-size, only need adopt in cubicle a hectowatt or tens watts refrigeration compressor set and without the need to adopting the even more high-power refrigeration compressor set of a few hectowatt, this makes it possible to avoid unnecessary energy waste, thus play energy-saving effect; Case self-energy and casing outer air can be isolated by the heat-insulation layer of casing appearance, and allow case self-energy not outflow, thus energy utilization rate is high; Better compared to traditional air-conditioner energy-saving effect of the present utility model.
5, environment temperature sensor of the present utility model is used for monitoring of environmental temperature, heat when environment temperature does not start higher than electrical heating elements when 26 DEG C, when environment temperature does not start refrigeration lower than refrigeration compressor set when 16 DEG C, and heat and freeze and cannot start simultaneously, so just greatly saved the energy; And electric auxiliary heating element power is little, mainly plays insulation effect, the number of times that electric main heating element heater starts can be reduced, thus also serve energy-conservation effect.
6, the temperature inside the box sensor of the present utility model can control the work of electrical heating elements and refrigeration compressor set automatically by the warning temperature of liquid in induction casing, when arriving warning high temperature, electrical heating elements quits work automatically, when arriving warning low temperature, refrigeration compressor set quits work automatically, thus the damage of air conditioner cold-warm all-in-one under effectively prevent extreme temperature, and then also make the use of user safer; Indoor temperature transmitter of the present utility model for monitoring indoor temperature, when indoor temperature reach user according to self need set by temperature time, liquid circulation pump and blower fan quit work automatically, have so not only saved the energy, and be more convenient for user use.
Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of description, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present utility model.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model air conditioner cold-warm all-in-one when being installed on indoor;
Fig. 2 is the circuit connection diagram of the utility model air conditioner cold-warm all-in-one;
Fig. 3 is the structural representation of the utility model air conditioner cold-warm all-in-one when being installed on outdoor.
In figure: 1, casing; 2, casing; 3, refrigeration compressor set; 4, electronics mainboard controller; 5, display screen; 6, guidance panel; 7, heat-insulation layer; 8, liquid injection port in case; 9, circulation pipe; 10, refrigerator pipes; 11, electrical heating elements; 12, circulation pipe external tapping; 13, circulating pump connector; 14, liquid circulation pump; 15, filling box; 16, outer circulating tube interface; 17, outer circulating tube; 18, refrigeration compressor; 19, capillary; 20, the first refrigerator pipes external tapping; 21, the second refrigerator pipes external tapping; 22, radiator; 23, blower fan; 24, indoor apparatus of air conditioner; 25, indoor apparatus of air conditioner blower fan; 26, environment temperature sensor; 27, the temperature inside the box sensor; 28, indoor temperature transmitter; 29, electric main heating element heater; 30, electric auxiliary heating element; 31, liquid-filling valve; 32, fluid cushion box.
Detailed description of the invention
Below in conjunction with drawings and Examples, detailed description of the invention of the present utility model is described in further detail.Following examples for illustration of the utility model, but are not used for limiting scope of the present utility model.
See Fig. 1, Fig. 2 and Fig. 3, air conditioner cold-warm all-in-one described in the utility model one preferred embodiment, be located at indoor (see Fig. 1) or outdoor (see Fig. 3), comprise casing 1, casing 2, refrigeration compressor set 3, electronics mainboard controller 4 and temperature sensor, casing 1 side is provided with hole, in casing 1, external environment can be ventilated by hole, casing 2, refrigeration compressor set 3 is located in casing 1, electronics mainboard controller 4 is located on casing 1 inwall, electronics mainboard controller 4 is connected with display screen 5 and guidance panel 6, casing 2 outer surface is provided with heat-insulation layer 7, liquid injection port 8 in case is offered on casing 2 top through casing 2 and heat-insulation layer 7, casing 2 inside is provided with circulation pipe 9, refrigerator pipes 10 and electrical heating elements 11, circulation pipe 9 one end forms circulation pipe external tapping 12 through casing 2 and heat-insulation layer 7 on casing 2 sidewall, circulation pipe 9 other end forms circulating pump connector 13 through casing 2 and heat-insulation layer 7 on casing 2 sidewall, the dismountable connection liquid circulation pump 14 of circulating pump connector 13, liquid circulation pump 14 is by the dismountable connection filling box 15 of pipeline, filling box 15 is provided with liquid-filling valve 31 and outer circulating tube interface 16, outer circulating tube interface 16 is connected by outer circulating tube 17 with circulation pipe external tapping 12, the bore of circulation pipe 9 is greater than the bore of outer circulating tube 17, circulating pump connector 13 is provided with fluid cushion box 32 with the junction of circulation pipe 9, the cross-sectional width of fluid cushion box 32 is greater than the bore of circulation pipe 9, under the effect of liquid circulation pump 14, the liquid before remaining in 32 li, fluid cushion box can be released from fluid cushion box 32 by the liquid entering 32 li, fluid cushion box afterwards, and the described liquid meeting short stay entered afterwards is in fluid cushion box 32, so just be beneficial to the adjustment of temperature.Refrigerator pipes 10 one end forms the first refrigerator pipes external tapping 20 through casing 2 and heat-insulation layer 7 on casing 2 sidewall, refrigerator pipes 10 other end forms the second refrigerator pipes external tapping 21 through casing 2 and heat-insulation layer 7 on casing 2 sidewall, refrigeration compressor set 3 comprises refrigeration compressor 18, radiator 22 and capillary 19, second refrigerator pipes external tapping 21 is connected with refrigeration compressor 18, refrigeration compressor 18, radiator 22 are connected successively with capillary 19, and capillary 19 is connected with the first refrigerator pipes external tapping 20.Refrigeration compressor set 3 and refrigerator pipes 10 are combined and the liquid in casing 2 can be made to lower the temperature, and electrical heating elements 11 can make the liquid in casing 2 heat up.
Refrigerator pipes 10, circulation pipe 9, outer circulating tube 17 are curling shape.In casing 2 and in circulation pipe 9, all falling heat-transfer is oily, and containing cold-producing medium in refrigeration compressor 18, electronics mainboard controller 4 connects and controls refrigeration compressor 18, liquid circulation pump 14, temperature sensor and electrical heating elements 11.
See Fig. 1, when indoor are located at by air conditioner cold-warm all-in-one, described air conditioner cold-warm all-in-one also comprises blower fan 23, blower fan 23 is located in casing 1, blower fan 23 is connected with electronics mainboard controller 4, blower fan 23 is for drying to outer circulating tube 17, and display screen 5 and guidance panel 6 are arranged on the outer wall of casing 1;
See Fig. 3, when outdoor is located at by air conditioner cold-warm all-in-one, described air conditioner cold-warm all-in-one also comprises indoor apparatus of air conditioner 24, indoor apparatus of air conditioner 24 is located at indoor, it is inner that outer circulating tube 17 is arranged on indoor apparatus of air conditioner 24, and indoor apparatus of air conditioner 24 inside is provided with indoor apparatus of air conditioner blower fan 25, and indoor apparatus of air conditioner blower fan 25 is connected with electronics mainboard controller 4, indoor apparatus of air conditioner blower fan 25 is for drying to outer circulating tube 17, and display screen 5 and guidance panel 6 are arranged on indoor apparatus of air conditioner 24.
See Fig. 1 and Fig. 3, temperature sensor comprise be located at heat-insulation layer 7 outside environment temperature sensor 26, be located at the temperature inside the box sensor 27 in casing 2 and be located at the indoor temperature transmitter 28 of (see Fig. 1) in (see Fig. 3) on indoor apparatus of air conditioner 24 or casing 1; Environment temperature sensor 26 controls electrical heating elements 11 and refrigeration compressor 18 by electronics mainboard controller 4, environment temperature sensor 26 is for monitoring of environmental temperature, heat when environment temperature does not start higher than electrical heating elements 11 when 26 DEG C, when environment temperature does not start refrigeration lower than refrigeration compressor 18 when 16 DEG C, described in heat and cannot start with described refrigeration simultaneously; The temperature inside the box sensor 27 controls electrical heating elements 11 and refrigeration compressor 18 by electronics mainboard controller 4, the temperature inside the box sensor 27 is for monitoring fluid temperature in case, when fluid temperature in case quits work automatically higher than electrical heating elements 11 when 120 DEG C, when fluid temperature in case quits work automatically lower than refrigeration compressor 18 when 0 DEG C, when fluid temperature in case is started working automatically higher than refrigeration compressor 18 when 5 DEG C; Indoor temperature transmitter 28 controls liquid circulation pump 14, blower fan 23 (see Fig. 1) and indoor apparatus of air conditioner blower fan 25 (see Fig. 3) by electronics mainboard controller 4, indoor temperature transmitter 28 is for monitoring indoor temperature, when indoor temperature reach user according to self need set by temperature time, liquid circulation pump 14, blower fan 23 (see Fig. 1), indoor apparatus of air conditioner blower fan 25 (see Fig. 3) quit work automatically.Electrical heating elements 11 is positioned at casing 2 bottom, comprise electric main heating element heater 29 and electric auxiliary heating element 30, the power of electricity auxiliary heating element 30 is less than the power of electric main heating element heater 29, fluid temperature when the main heating element heater 29 of electricity is started working is 65 DEG C, fluid temperature when electricity auxiliary heating element 30 is started working is 75 DEG C, fluid temperature when the main heating element heater 29 of electricity quits work is 100 DEG C, and fluid temperature when electric auxiliary heating element 30 quits work is 120 DEG C.
Operation principle of the present utility model is as follows:
When needing refrigeration summer, refrigeration compressor 18 is started by guidance panel 6, refrigeration compressor 18 is by the gaseous refrigerant of gaseous refrigerant boil down to HTHP, then gaseous refrigerant is delivered to radiator 22, after radiator 22 dispels the heat, become the liquid refrigerant of normal temperature high voltage, liquid refrigerant flow to refrigerator pipes 10 through capillary 19 and can vaporize, in case, absorb a large amount of heats conduction oil, cause the oil temperature in case to reduce, the oil temperature in circulation pipe 9 also decreases; When the low-temperature oil in circulation pipe 9 is in outer circulating tube 17 in flow process, outer circulating tube 17 turns cold, and room air is blown over by blower fan 23 or indoor apparatus of air conditioner blower fan 25 and become cold wind from outer circulating tube 17, thus indoor temperature is reduced, and reaches refrigeration object;
When needing to heat winter, starting electrical heating elements 11 by guidance panel 6, heating the conduction oil in casing 2, oil temperature is raised, the oil temperature in circulation pipe 9 also increases; When the high temperature oil in circulation pipe 9 is in outer circulating tube 17 in flow process, outer circulating tube 17 heating, room air is blown over by blower fan 23 or indoor apparatus of air conditioner blower fan 25 and is become hot blast from outer circulating tube 17, thus indoor temperature is raised, and reaches and heats object.
The above is only preferred embodiment of the present utility model; be not limited to the utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.

Claims (10)

1. an air conditioner cold-warm all-in-one, be located at indoor or outdoors, it is characterized in that: comprise casing (1), casing (2), electronics mainboard controller (4) and temperature sensor, described casing (2) is located in described casing (1), described electronics mainboard controller (4) is located on casing (1) inwall, described electronics mainboard controller (4) is connected with display screen (5) and guidance panel (6), casing (2) outer surface is provided with heat-insulation layer (7), liquid injection port in case (8) is offered on casing (2) top through casing (2) and described heat-insulation layer (7), casing (2) inside is provided with circulation pipe (9), refrigerator pipes (10) and electrical heating elements (11), described circulation pipe (9) one end forms circulation pipe external tapping (12) through casing (2) and heat-insulation layer (7) on casing (2) sidewall, circulation pipe (9) other end forms circulating pump connector (13) through casing (2) and heat-insulation layer (7) on casing (2) sidewall, the dismountable connection liquid circulation pump (14) of described circulating pump connector (13), described liquid circulation pump (14) is by the dismountable connection filling box (15) of pipeline, described filling box (15) is provided with outer circulating tube interface (16), described outer circulating tube interface (16) is connected by outer circulating tube (17) with described circulation pipe external tapping (12), described refrigerator pipes (10) one end forms the first refrigerator pipes external tapping (20) through casing (2) and heat-insulation layer (7) on casing (2) sidewall, refrigerator pipes (10) other end forms the second refrigerator pipes external tapping (21) through casing (2) and heat-insulation layer (7) on casing (2) sidewall, refrigeration compressor set (3) is connected with between described first refrigerator pipes external tapping (20) and described second refrigerator pipes external tapping (21), all liquid is full of in casing (2) and in circulation pipe (9), described refrigeration compressor set (3) and described refrigerator pipes (10) are combined and the liquid in casing (2) can be made to lower the temperature, described electrical heating elements (11) can make the liquid in casing (2) heat up, described electronics mainboard controller (4) connects and controls refrigeration compressor set (3), liquid circulation pump (14), described temperature sensor and described electrical heating elements (11).
2. air conditioner cold-warm all-in-one according to claim 1, is characterized in that:
When indoor are located at by described air conditioner cold-warm all-in-one, described air conditioner cold-warm all-in-one also comprises blower fan (23), described blower fan (23) is located in casing (1), blower fan (23) is connected with described electronics mainboard controller (4), blower fan (23) is for drying to outer circulating tube (17), and described display screen (5) and described guidance panel (6) are arranged on the outer wall of casing (1);
When outdoor is located at by described air conditioner cold-warm all-in-one, described air conditioner cold-warm all-in-one also comprises indoor apparatus of air conditioner (24), described indoor apparatus of air conditioner (24) is located at indoor, it is inner that described outer circulating tube (17) is arranged on indoor apparatus of air conditioner (24), described indoor apparatus of air conditioner (24) inside is provided with indoor apparatus of air conditioner blower fan (25), described indoor apparatus of air conditioner blower fan (25) is connected with described electronics mainboard controller (4), indoor apparatus of air conditioner blower fan (25) is for drying to outer circulating tube (17), described display screen (5) and described guidance panel (6) are arranged on indoor apparatus of air conditioner (24).
3. air conditioner cold-warm all-in-one according to claim 2, is characterized in that: described temperature sensor comprises to be located at the outside environment temperature sensor (26) of described heat-insulation layer (7), to be located at the temperature inside the box sensor (27) in described casing (2) and to be located at the indoor temperature transmitter (28) of described indoor apparatus of air conditioner (24) above or in described casing (1);
Described environment temperature sensor (26) controls described electrical heating elements (11) and described refrigeration compressor set (3) by described electronics mainboard controller (4), environment temperature sensor (26) is for monitoring of environmental temperature, heat when environment temperature does not start higher than electrical heating elements (11) when 26 DEG C, when environment temperature does not start refrigeration lower than refrigeration compressor set (3) when 16 DEG C, described in heat and cannot start with described refrigeration simultaneously;
Described the temperature inside the box sensor (27) controls described electrical heating elements (11) and described refrigeration compressor set (3) by described electronics mainboard controller (4), the temperature inside the box sensor (27) is for monitoring fluid temperature in case, when fluid temperature in case quits work automatically higher than electrical heating elements (11) when 120 DEG C, when fluid temperature in case quits work automatically lower than refrigeration compressor set (3) when 0 DEG C, when fluid temperature in case is started working automatically higher than refrigeration compressor set (3) when 5 DEG C;
Described indoor temperature transmitter (28) controls described liquid circulation pump (14), described blower fan (23) and described indoor apparatus of air conditioner blower fan (25) by described electronics mainboard controller (4), indoor temperature transmitter (28) is for monitoring indoor temperature, when indoor temperature reach user according to self need set by temperature time, liquid circulation pump (14), blower fan (23), indoor apparatus of air conditioner blower fan (25) quit work automatically.
4. air conditioner cold-warm all-in-one according to claim 3, it is characterized in that: described electrical heating elements (11) is positioned at described casing (2) bottom, comprise electric main heating element heater (29) and electric auxiliary heating element (30), the power of described electric auxiliary heating element (30) is less than the power of the main heating element heater of described electricity (29), fluid temperature when fluid temperature when the main heating element heater of described electricity (29) is started working is started working lower than described electric auxiliary heating element (30), fluid temperature when fluid temperature when the main heating element heater of electricity (29) quits work quits work lower than electric auxiliary heating element (30).
5. air conditioner cold-warm all-in-one according to claim 4, it is characterized in that: fluid temperature when the main heating element heater of described electricity (29) is started working is 65 DEG C, fluid temperature when described electric auxiliary heating element (30) is started working is 75 DEG C, fluid temperature when the main heating element heater of described electricity (29) quits work is 100 DEG C, and fluid temperature when described electric auxiliary heating element (30) quits work is 120 DEG C.
6. air conditioner cold-warm all-in-one according to claim 1, is characterized in that: described filling box (15) is also provided with liquid-filling valve (31).
7. air conditioner cold-warm all-in-one according to claim 1, is characterized in that: the bore of described circulation pipe (9) is greater than the bore of described outer circulating tube (17).
8. air conditioner cold-warm all-in-one according to claim 7, it is characterized in that: described circulating pump connector (13) is provided with fluid cushion box (32) with the junction of described circulation pipe (9), the cross-sectional width of described fluid cushion box (32) is greater than the bore of described circulation pipe (9), under the effect of described liquid circulation pump (14), remain in the inner liquid of fluid cushion box (32) before and can be entered the inner liquid of fluid cushion box (32) afterwards from the release of fluid cushion box (32), and the described liquid meeting short stay entered afterwards is inner at fluid cushion box (32), so just be beneficial to the adjustment of temperature.
9. air conditioner cold-warm all-in-one according to claim 1, is characterized in that: described refrigerator pipes (10), described circulation pipe (9), described outer circulating tube (17) are curling shape.
10. air conditioner cold-warm all-in-one according to claim 1, is characterized in that: described liquid is conduction oil.
CN201520532981.4U 2015-07-21 2015-07-21 Air conditioner changes in temperature all -in -one Expired - Fee Related CN204853766U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104976723A (en) * 2015-07-21 2015-10-14 陈朋 Air-conditioning refrigerating and heating integration machine
CN111227703A (en) * 2020-01-15 2020-06-05 中山市美图塑料工业有限公司 Intelligent toilet seat heating control method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104976723A (en) * 2015-07-21 2015-10-14 陈朋 Air-conditioning refrigerating and heating integration machine
CN111227703A (en) * 2020-01-15 2020-06-05 中山市美图塑料工业有限公司 Intelligent toilet seat heating control method

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