CN105757826A - Low-noise energy-saving air-conditioner - Google Patents

Abstract

The invention provides a low-noise energy-saving air-conditioner which comprises an outer heat exchanger, wherein the outer heat exchanger is connected in series with a heat reservoir and exchanger inside a heat storage tank through a heat exchanger copper tube so as to form a heat exchange loop; the heat exchange loop is filled with a refrigerant and is connected in series with a compressor and an expansion valve; the heat storage tank is filled with a heat reservation agent and is provided with an output heat exchanger which is connected in series with an inner heat exchanger in an inner air-conditioner through an output copper tube so as to form an output loop; the output loop is filled with a heat conduction liquid and is provided with a heat conduction liquid circulation device; a heat-preservation partitioning plate is fixed on a wall side of the outer heat exchanger; an inner temperature sensor and an outer temperature sensor are respectively arranged on the wall side and the outer heat exchanger side of the heat-preservation partitioning plate; a heat storage temperature sensor is arranged in the heat storage tank; the inner temperature sensor, the outer temperature sensor and the heat storage temperature sensor are coupled together to a compressor control module; when the sensation temperature of the heat storage temperature sensor is lower than a set value, and the temperature difference of the inner temperature sensor and the outer temperature sensor is smaller than a set value, the compressor is started, or else is stopped. As no outer fan is used, the air-conditioner is not only relatively low in noise, but also relatively good in energy conservation.

Description

Low-noise energy-saving air conditioner

Technical field

The present invention relates to household appliance technical field, especially, relate to a kind of energy-saving type air conditioner.

Background technology

Current air-conditioning includes air-conditioning internal machine and outdoor machine of air-conditioner, and outdoor machine of air-conditioner is placed in outdoor, and in order to extract heat fully from air, in air-conditioning work process, the fan of outer machine rotates continuously, so that air-flow flows in series through heat exchanger tube.But, due to the continuous rotation of outer machine fan, the power consumption of outer machine is bigger；And owing to outdoor machine of air-conditioner and support Prolonged exposure thereof are in the external world, due to deformation, cause outdoor machine of air-conditioner fan when rotated, bigger noise often occurs.

Summary of the invention

For the problems referred to above, it is an object of the invention to provide a kind of low-noise energy-saving air conditioner, this air-conditioning is without outer machine fan, and not only noise is relatively low, and comparatively energy-conservation.

The technical solution adopted for the present invention to solve the technical problems is: this low-noise energy-saving air conditioner includes the outer machine heat exchanger being exposed to the external world；Described outer machine heat exchanger is concatenated with the heat storage exchanger being arranged in a heat storage can mutually by heat exchange copper tube, forms a heat-exchanging loop；It is filled with cold-producing medium in described heat-exchanging loop, heat-exchanging loop is also serially connected with compressor, expansion valve；Heat-storage agent it is full of in described heat storage can, and it being provided with output heat exchanger, described output heat exchanger concatenates by exporting copper pipe mutually with the interior machine heat exchanger in air-conditioning internal machine, forms an output loop, described output loop is filled with conductive fluid, and output loop is provided with conductive fluid circulating device；The wall side of leaning on of described outer machine heat exchanger is fixed with thermal-insulation baffle plate；Lean on wall side and the outer machine heat exchanger side of described thermal-insulation baffle plate are respectively equipped with interior temperature sensor, outer temperature sensor, heat accumulation temperature sensor it is provided with in described heat storage can, and described inside and outside, heat accumulation temperature sensor is coupled in common to compressor control module, described compressor control module at the sensing temperature of described heat accumulation temperature sensor lower than setting value, and the temperature difference of described inside and outside temperature sensor less than setting value time, make described compressor maintenance work, otherwise make compressor quit work.

As preferably, described outer machine heat exchanger includes snakelike heat exchange copper tube, and is fixed on the heat exchange fin on this snakelike heat exchange copper tube.

As preferably, described heat storage can is equipped with relief valve, causes expansion or blasting phenomena to prevent temperature in heat storage can too high.

As preferably, described heat storage can is located at indoor, and this heat storage can is cylindrical, and outer wrap has heat-insulation layer；And this heat storage can offers a Vertical Channel along axis, the perisporium of described Vertical Channel is metallic walls, thermally contacts with the heat-storage agent in heat storage can；The bottom of Vertical Channel is heat-preservation bottom, and this heat-preservation bottom is provided with faucet；The top of described Vertical Channel is then stamped can the insulation upper cover of folding；It is thus possible to add cold water in described Vertical Channel, so as to become domestic hot-water after the heat absorbed in heat-storage agent, and release either directly through described faucet from the bottom of heat storage can, be extremely easy to life and use.

As preferably, the conductive fluid circulating device in described air-conditioning internal machine is by air-conditioning internal machine fan, fan electromotor, and described interior machine heat exchanger itself is constituted；Described interior machine heat exchanger is made up of one section of heat exchange screwed pipe in straight screwed pipe shape, and described heat exchange screwed pipe is located at inside interior machine fan, and is relatively fixed with interior machine fan；The two ends of interior machine fan are stretched out at the two ends of described heat exchange screwed pipe, and are connected to described output copper pipe by sealing union joint axle；And the end of described heat exchange screwed pipe or interior machine fan is fixed with driven gear, this driven gear is coupled in described fan electromotor；According to the program, described heat exchange screwed pipe is in following the process that interior machine fan rotates, internal conductive fluid is formed axial compressive force by the volute wall of heat exchange screwed pipe, conductive fluid is made to circulate along the output loop at heat exchange screwed pipe place, thus the heat in heat storage can is exported continuously, eliminate circulating pump, simplify structure；And due to the continuous rotation of heat exchange screwed pipe, on the fan electromotor basis of Same Efficieney, making the relative velocity of interior machine heat exchanger and air fully improve, heat exchange efficiency is improved significantly, makes heating effect better.

The beneficial effects of the present invention is: this low-noise energy-saving air conditioner is in use, owing to the wall side of leaning on of described outer machine heat exchanger is fixed with thermal-insulation baffle plate, cause that air-conditioning is when heating, outer machine heat exchanger is owing to absorbing amount of heat in a large number, make the air themperature rapid decrease at outer machine heat exchanger place, and thermal-insulation baffle plate is slower by the air themperature decline of wall side, when the temperature difference reaches setting value, illustrating that outer machine heat exchanger has absorbed relatively-high temperature heat more in its local environment, air-conditioning heating efficiency has started to be decreased obviously；Now described compressor quits work, and after heat is supplemented in the air residing for outer machine heat exchanger, restarts compressor, so that air-conditioning heating efficiency remains higher level；Especially, under having wind weather conditions, owing to outer machine heat exchanger local environment air free convection is rapid, the heat in outer machine heat exchanger local environment can obtain supplementing rapidly continuously, therefore, under the situation saving outer machine fan, still can realize rapidly, immediately heat；On the other hand, although in order to ensure heating efficiency, the discontinuous work of compressor, but due to the described heat storage can cushioning effect to heat, the heat being transported to interior machine heat exchanger is remained and good stability makes air-conditioning internal machine can produce continuous and soft warm braw.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of this low-noise energy-saving air conditioner embodiment one.

Fig. 2 is in this low-noise energy-saving air conditioner embodiment two, the structural representation of the conductive fluid circulating device of air-conditioning internal machine.

Fig. 3 is an embodiment schematic diagram of the heat storage can in this low-noise energy-saving air conditioner.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described:

Embodiment one:

In the embodiment one shown in Fig. 1, this low-noise energy-saving air conditioner includes the outer machine heat exchanger 1 being exposed to the external world；Described outer machine heat exchanger 1 is concatenated with heat storage exchanger 2 phase being arranged in a heat storage can 3 by heat exchange copper tube, forms a heat-exchanging loop 12；It is filled with cold-producing medium in described heat-exchanging loop 12, heat-exchanging loop is also serially connected with compressor 121, expansion valve 122.

Above-mentioned air-conditioning, specifically, described outer machine heat exchanger 1 includes snakelike heat exchange copper tube, and is fixed on the heat exchange fin (not shown) on this snakelike heat exchange copper tube.

It is full of heat-storage agent in described heat storage can 3, and it is provided with output heat exchanger 4, described output heat exchanger 4 concatenates by exporting copper pipe mutually with the interior machine heat exchanger 5 in air-conditioning internal machine, form an output loop 45, described output loop 45 is filled with conductive fluid, and output loop 45 is provided with conductive fluid circulating device；In the present embodiment one, this conductive fluid circulating device is a circulating pump 411.Machine fan 9 in after described interior machine heat exchanger 5 coupling；Heat storage exchanger 2 and output heat exchanger 4 in described heat storage can 3 can be all metal dish pipe.

Above-mentioned air-conditioning, the wall side of leaning on of described outer machine heat exchanger 1 is fixed with thermal-insulation baffle plate 6；Lean on wall side and the outer machine heat exchanger side of described thermal-insulation baffle plate 6 are respectively equipped with interior temperature sensor 71, outer temperature sensor 72, it is provided with heat accumulation temperature sensor 73 in described heat storage can 3, and described inside and outside, heat accumulation temperature sensor 71,72 is coupled in common to compressor control module 8, described compressor control module 8 at the sensing temperature of described heat accumulation temperature sensor 73 lower than setting value, and the temperature difference of described inside and outside temperature sensor 71,72 less than setting value time, make described compressor 121 maintenance work, otherwise make compressor 121 quit work.

It addition, described heat storage can 3 should arrange relief valve, cause expansion or blasting phenomena to prevent temperature in heat storage can 3 too high.

Above-mentioned low-noise energy-saving air conditioner is in use, owing to the wall side of leaning on of described outer machine heat exchanger 1 is fixed with thermal-insulation baffle plate 6, cause that air-conditioning is when heating, outer machine heat exchanger 1 is owing to absorbing amount of heat in a large number, make the air themperature rapid decrease at outer machine heat exchanger 1 place, and thermal-insulation baffle plate 6 is relatively slow by the air themperature decline of wall side, when the temperature difference reaches setting value, illustrating that outer machine heat exchanger 1 has absorbed relatively-high temperature heat more in its local environment, air-conditioning heating efficiency has started to be decreased obviously；Now described compressor 121 quits work, and after heat is supplemented in the air residing for outer machine heat exchanger 1, restarts compressor 121, so that air-conditioning heating efficiency remains higher level；Especially, under having wind weather conditions, owing to outer machine heat exchanger 1 local environment air free convection is rapid, the heat in outer machine heat exchanger 1 local environment can obtain supplementing rapidly continuously, therefore, under the situation saving outer machine fan, still can realize rapidly, immediately heat；On the other hand, although in order to ensure heating efficiency, the discontinuous work of compressor 121, but due to the described heat storage can 3 cushioning effect to heat, the heat being transported to interior machine heat exchanger 5 is remained and good stability makes air-conditioning internal machine can produce continuous and soft warm braw.

Embodiment two:

For the embodiment two of this low-noise energy-saving air conditioner, it is different in that with embodiment one: the conductive fluid circulating device in described air-conditioning internal machine is as in figure 2 it is shown, it is by air-conditioning internal machine fan 9, fan electromotor 91, and described interior machine heat exchanger 5 itself is constituted；Now, described interior machine heat exchanger 5 is made up of one section of heat exchange screwed pipe in straight screwed pipe shape, and it is internal that described heat exchange screwed pipe is located at interior machine fan 9, and is relatively fixed with interior machine fan 9；The two ends of interior machine fan are stretched out at the two ends of described heat exchange screwed pipe, and are connected in output loop 45 by sealing union joint 50 axle；And the end of described heat exchange screwed pipe is fixed with driven gear, this driven gear is coupled in described fan electromotor 91；According to the program, described heat exchange screwed pipe (interior machine heat exchanger 5) is in following the process that interior machine fan 9 rotates, internal conductive fluid is formed axial compressive force by the volute wall of heat exchange screwed pipe, conductive fluid is made to circulate along the output loop at heat exchange screwed pipe place, thus the heat in heat storage can 3 is exported continuously, eliminate circulating pump, simplify structure；And due to the continuous rotation of heat exchange screwed pipe, on the fan electromotor basis of Same Efficieney, making the relative velocity of interior machine heat exchanger 5 and air fully improve, heat exchange efficiency is improved significantly, makes heating effect better.

Except both examples above, especially, for described heat storage can, one preferred embodiment is as it is shown on figure 3, described heat storage can 3 is located at indoor, and this heat storage can is cylindrical, and outer wrap has heat-insulation layer；And this heat storage can 3 offers a Vertical Channel 30 along axis, the perisporium of described Vertical Channel 30 is metallic walls, thermally contacts with the heat-storage agent in heat storage can 3；The bottom of Vertical Channel 30 is heat-preservation bottom 31, and this heat-preservation bottom 31 is provided with faucet 310；The top of described Vertical Channel 30 is then stamped can the insulation upper cover 32 of folding；It is thus possible to add cold water in described Vertical Channel 30, so as to become domestic hot-water after the heat absorbed in heat-storage agent, and release either directly through described faucet 310 from the bottom of heat storage can 3, be extremely easy to life and use.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all any amendment of making, equivalent replace within the spirit and principles in the present invention, should be included within protection scope of the present invention.

Claims (6)

1. a low-noise energy-saving air conditioner, including the outer machine heat exchanger (1) being exposed to the external world；It is characterized in that: described outer machine heat exchanger (1) is concatenated with the heat storage exchanger (2) being arranged in a heat storage can (3) mutually by heat exchange copper tube, form a heat-exchanging loop (12)；It is filled with cold-producing medium in described heat-exchanging loop, heat-exchanging loop (12) is also serially connected with compressor (121), expansion valve (122)；Heat-storage agent it is full of in described heat storage can (3), and it is provided with output heat exchanger (4), described output heat exchanger (4) concatenates by exporting copper pipe mutually with the interior machine heat exchanger (5) in air-conditioning internal machine, form an output loop (45), described output loop (45) is filled with conductive fluid, and output loop (45) is provided with conductive fluid circulating device；The wall side of leaning on of described outer machine heat exchanger (1) is fixed with thermal-insulation baffle plate (6)；Lean on wall side and outer machine heat exchanger (1) side of described thermal-insulation baffle plate (6) are respectively equipped with interior temperature sensor (71), outer temperature sensor (72), heat accumulation temperature sensor (73) it is provided with in described heat storage can (3), and in described, outward, heat accumulation temperature sensor is coupled in common to compressor control module (8), described compressor control module (8) at the sensing temperature of described heat accumulation temperature sensor (73) lower than setting value, and in described, outer temperature sensor (71, 72) when the temperature difference is less than setting value, make described compressor (121) maintenance work, compressor is otherwise made to quit work.

2. low-noise energy-saving air conditioner according to claim 1, it is characterised in that: described outer machine heat exchanger (1) includes snakelike heat exchange copper tube, and is fixed on the heat exchange fin on this snakelike heat exchange copper tube.

3. low-noise energy-saving air conditioner according to claim 1, it is characterised in that: described heat storage can (3) is equipped with relief valve.

4. low-noise energy-saving air conditioner as claimed in any of claims 1 to 3, it is characterised in that: described heat storage can (3) is located at indoor, and this heat storage can is cylindrical, and outer wrap has heat-insulation layer；And this heat storage can (3) offers a Vertical Channel (30) along axis, the perisporium of described Vertical Channel (30) is metallic walls, thermally contacts with the heat-storage agent in heat storage can；The bottom of Vertical Channel is heat-preservation bottom (31), and this heat-preservation bottom is provided with faucet (310)；The top of described Vertical Channel (30) is then stamped can the insulation upper cover (32) of folding.

5. low-noise energy-saving air conditioner as claimed in any of claims 1 to 3, it is characterised in that: the conductive fluid circulating device in described air-conditioning internal machine is by air-conditioning internal machine fan (9), fan electromotor (91), and described interior machine heat exchanger (5) itself is constituted；Described interior machine heat exchanger (5) is made up of one section of heat exchange screwed pipe in straight screwed pipe shape, and it is internal that described heat exchange screwed pipe is located at interior machine fan (9), and is relatively fixed with interior machine fan；The two ends of interior machine fan are stretched out at the two ends of described heat exchange screwed pipe, and are connected to described output copper pipe by sealing union joint (50) axle；And the end of described heat exchange screwed pipe or interior machine fan is fixed with driven gear, this driven gear is coupled in described fan electromotor (91).

6. the low-noise energy-saving air conditioner according to any one in claim 4, it is characterised in that: the conductive fluid circulating device in described air-conditioning internal machine is by air-conditioning internal machine fan (9), fan electromotor (91), and described interior machine heat exchanger (5) itself is constituted；Described interior machine heat exchanger (5) is made up of one section of heat exchange screwed pipe in straight screwed pipe shape, and it is internal that described heat exchange screwed pipe is located at interior machine fan (9), and is relatively fixed with interior machine fan；The two ends of interior machine fan are stretched out at the two ends of described heat exchange screwed pipe, and are connected to described output copper pipe by sealing union joint (50) axle；And the end of described heat exchange screwed pipe or interior machine fan is fixed with driven gear, this driven gear is coupled in described fan electromotor (91).