CN208475518U - Air conditioner - Google Patents

Abstract

The utility model discloses a kind of air conditioners, air conditioner includes: compressor, First Heat Exchanger, energy storage component, throttling set, cabinet, cabinet has the first air port and the second air port, compressor, First Heat Exchanger, energy storage component, being at least partially arranged in cabinet in throttling set, energy storage component includes: packaging container, energy-accumulating medium is filled in packaging container, and the roof of packaging container is equipped with the sensor towards energy-accumulating medium upper surface, sensor is used to detect the volume of energy-accumulating medium；Built-in heat exchanger, built-in heat exchanger are located in packaging container to exchange heat with energy-accumulating medium.The air conditioner of the utility model, the heat discharged in refrigeration to outdoor environment is few, and the cooling capacity discharged in heating to outdoor environment is few, and is capable of the volume of real-time monitoring energy-accumulating medium.

Description

Air conditioner

Technical field

The utility model belongs to air conditioner manufacturing technology field, in particular to a kind of air conditioner.

Background technique

Air-conditioning generallys use the split type structure including indoor unit and outdoor unit, not only occupies certain exterior space, And seperated arrangement is needed, assembly process is complicated.Meanwhile air-conditioning in the related technology is providing cooling capacity or heat to the interior space When, the temperature of surrounding can be influenced to outdoor heat extraction or cold.

Utility model content

The utility model proposes a kind of air conditioners.

According to the air conditioner of the utility model embodiment, comprising: compressor, First Heat Exchanger, energy storage component, throttling dress It sets, cabinet, the first port of the First Heat Exchanger is connected with the exhaust outlet of the compressor, the first end of the energy storage component Mouth is connected with the air entry of the compressor or the exhaust outlet phase of the first port of the energy storage component and the compressor Even, the first port of the First Heat Exchanger is connected with the air entry of the compressor, and the throttling set is located at described first Between the second port of heat exchanger and the second port of the energy storage component, the cabinet has the first air port and the second air port, The compressor, the energy storage component, is at least partially arranged in the cabinet in the throttling set at the First Heat Exchanger Interior, the energy storage component includes: packaging container, and energy-accumulating medium, and the top of the packaging container are filled in the packaging container Wall is equipped with the sensor towards the energy-accumulating medium upper surface, and the sensor is used to detect the volume of the energy-accumulating medium；It is interior Heat exchanger is set, the built-in heat exchanger is located in the packaging container to exchange heat with the energy-accumulating medium.

According to the air conditioner of the utility model embodiment, the heat discharged in refrigeration to outdoor environment is few, in heating The cooling capacity discharged to outdoor environment is few, and being capable of energy-accumulating medium volume in real-time monitoring energy storage component.

According to the air conditioner of the utility model one embodiment, further includes: reversing unit, the reversing unit include first Interface, second interface, third interface and the 4th interface, the compressor have air entry and exhaust outlet, the exhaust outlet and institute It states first interface to be connected, the air entry is connected with the third interface, the first port of the First Heat Exchanger and described the Two interfaces are connected, and pass through the throttling set phase between one end of the energy storage component and the second port of the First Heat Exchanger Even, the other end of the energy storage component is connected with the 4th interface.

According to the air conditioner of the utility model one embodiment, the packaging container includes: shell, the upper end of the shell It opens wide, the built-in heat exchanger is installed in the shell；Upper cover, the upper cover closes the shell, and the sensor is pacified Lower surface loaded on the upper cover.

According to the air conditioner of the utility model one embodiment, the sensor passes through threaded fastener and the top cap It connects.

According to the air conditioner of the utility model one embodiment, the sensor is multiple, and is spaced from each other and is distributed in The upper cover.

According to the air conditioner of the utility model one embodiment, the upper cover is rectangle, four in multiple sensors A quadrangle for being distributed in the upper cover, another sensor are installed on the middle part of the upper cover.

According to the air conditioner of the utility model one embodiment, the sensor is infrared distance sensor, supersonic sounding Sensor.

According to the air conditioner of the utility model one embodiment, further includes: control module, the control module and the biography Sensor is connected to detect the volume of the energy-accumulating medium.

According to the air conditioner of the utility model one embodiment, further includes: alarm, the alarm and the control mould Block, which is connected when reaching predetermined value with the volume in the energy-accumulating medium, to be sounded an alarm.

According to the air conditioner of the utility model one embodiment, further includes: display, the display and the control mould Block is connected to show the volume of the energy-accumulating medium.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the structural schematic diagram according to the air conditioner of the utility model embodiment；

Fig. 2 is the structural schematic diagram according to the energy storage component of the utility model embodiment；

Fig. 3 is the structural schematic diagram that upper cover is installed on according to the sensor of the utility model embodiment；

Fig. 4 is the schematic diagram according to the air conditioner of the utility model embodiment.

Appended drawing reference:

Energy storage component 1, packaging container 11, shell 111, upper cover 112, energy-accumulating medium 12, sensor 13,

Compressor 2, air entry 21, exhaust outlet 22, First Heat Exchanger 31,

Reversing unit 4, first interface 41, second interface 42, third interface 43, the 4th interface 44,

Cabinet 5, box body 51, top cover 52, the first air port 54, the second air port 55,

First check valve 61, the first device for drying and filtering 62, first throttle element 63, third check valve 67, third is dried Filter 68, third restricting element 69.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is orientation based on the figure Or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning or Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limit to the utility model System.In addition, defining " first ", the feature of " second " can explicitly or implicitly include one or more of the features. In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Below with reference to Fig. 1-Fig. 4 description according to the air conditioner of the utility model embodiment, air conditioner can be used for kitchen etc. Indoor environment.

It as Figure 1-Figure 4, include: compressor 2, First Heat Exchanger according to the air conditioner of the utility model one embodiment 31, energy storage component 1, throttling set and cabinet 5.

Compressor 2, First Heat Exchanger 31, energy storage component 1, being at least partially arranged in cabinet 5 in throttling set, preferably Ground, compressor 2, First Heat Exchanger 31, energy storage component 1, throttling set are mounted on cabinet 5, to realize unitary design, refrigeration System pipeline is layed in cabinet 5.That is, air conditioner has integral structure, overall structure is more compact, without setting up Indoor unit outdoor unit, it is easy for installation.

Compressor 2, energy storage component 1, throttling set, First Heat Exchanger 31 are connected to form refrigerant circulation loop, compressor 2, energy storage component 1, throttling set, can be connected to by copper pipe between First Heat Exchanger 31.

Cabinet 5 has the first air port 54 and the second air port 55, and one in the first air port 54 and the second air port 55 is for sending Wind, another is used for return air, for example the first air port 54 can be air outlet, and the second air port 55 can be return air inlet, the first heat exchange Device 31 is located between the first air port 54 and the second air port 55, and during the work time, air passes through the second air port 55 and the first air port 54 disengaging cabinets 5, and exchange heat with First Heat Exchanger 31, to realize indoor air temperature modification.For example First Heat Exchanger 31 can Think air cooling heat exchanger, the blower of air cooling heat exchanger by extraneous air be pumped into cabinet 5 and with the refrigeration in First Heat Exchanger 31 Interior is blown to from the first air port 54 after agent heat exchange.

Compressor 2 has exhaust outlet 22 and air entry 21, and the refrigerant after heat exchange can enter compressor 2 from air entry 21 Interior, refrigerant can be discharged after being compressed by compressor 2 from exhaust outlet 22, it should be noted that structure and work about compressor 2 Principle is by as it is known to those skilled in the art that be no longer described in detail herein.

As shown in Fig. 2, energy storage component 1 includes: packaging container, sensor 13, energy-accumulating medium 12 and built-in heat exchanger (in figure It is not shown), it is filled with energy-accumulating medium 12 in packaging container, energy-accumulating medium can be by the energy stores after heat exchange, and energy-accumulating medium can be with For phase-change thermal storage medium, the materials such as including wax are realized by the change of itself phase after phase-change thermal storage medium neither endothermic nor exothermic The storage and release of heat can be absorbed or discharge amount of heat in phase transition process, and certainly, heat-storage medium can also be other Type, such as fused salt etc..

Built-in heat exchanger is located in packaging container to exchange heat with energy-accumulating medium 12, and the roof of packaging container is equipped with towards storage The sensor 13 of the upper surface of energy medium 12, sensor 13 is used to detect the volume of energy-accumulating medium 12, for example the sensor 13 can Think that range sensor, range sensor detect the top surface of energy-accumulating medium 12 at a distance from sensor 13, which can characterize The height (volume) of energy-accumulating medium 12, sensor 13 can be infrared distance sensor, ultrasonic range finder sensor etc..

It is understood that energy-accumulating medium 12 becomes at branch when built-in heat exchanger and energy-accumulating medium 12 exchange heat Change, for example energy-accumulating medium 12 includes solid phase and liquid phase in Fig. 2, solid phase is different with the density of energy-accumulating medium 12 under liquid phase, causes to store up The total volume of energy medium 12 changes, i.e. the height of energy-accumulating medium 12 changes, and passes through sensor 13 and detects energy-accumulating medium 12 volume change can characterize every content of energy-accumulating medium 12.

Preferably, as shown in Fig. 2, packaging container 11 includes: shell 111 and upper cover 112.The open upper end of shell 111, it is interior It sets heat exchanger to be installed in shell 111, energy-accumulating medium 12 is filled in shell 111, so that built-in heat exchanger is by heat transferring medium packet It covers, upper cover 112 closes shell 111, and sensor 13 is installed on the lower surface of upper cover 112, for example sensor 13 can pass through spiral shell Line fastener is connect with upper cover 112.Sensor 13 can be multiple, and multiple sensors 13 are spaced from each other and are distributed in upper cover 112, the height of the multiple regions of the top surface by detecting heat transferring medium, to reduce measurement error, specifically, with reference to Fig. 3, upper cover 112 be rectangle, and four in multiple sensors 13 are distributed in the quadrangle of upper cover 112, another sensor 13 is installed on upper cover 112 Middle part.

Such as air conditioner can also include: control module, alarm and display, control module be connected with sensor 13 with The content of energy-accumulating medium 12 is detected, alarm is connected with control module to be reached with the phase content or volume in energy-accumulating medium 12 It is sounded an alarm when predetermined value, display is connected to show the volume of energy-accumulating medium 12, or display energy-accumulating medium with control module A 12 at least phase content.The elevation information for the energy-accumulating medium 12 that controller is detected for receiving sensor 13, and by its turn The content of liquid and solid energy storage medium 12 is turned to, each phase content of energy-accumulating medium 12 represents the time that air conditioner can also be run. Such as in summer, display can show the solid concentration of energy-accumulating medium 12, reach predetermined in the solid concentration of energy-accumulating medium 12 Value alarm device sounds an alarm, and to prompt user, alarm can be buzzer etc..

The refrigerant circulation loop of air conditioner is described below with reference to Fig. 4.Specifically, the first port of First Heat Exchanger 31 One of them in the first port (for example, upper end shown in Fig. 4) of (for example, left end shown in Fig. 4) and energy storage component 1 It can be connected with exhaust outlet 22, another and suction in the first port of First Heat Exchanger 31 and the first port of energy storage component 1 Port 21 is connected, and the first port of First Heat Exchanger 31 is connected with the exhaust outlet 22 of compressor 2, the first port of energy storage component 1 It is connected with the air entry 21 of compressor 2 or the first port of energy storage component is connected with the exhaust outlet 22 of compressor 2, first changes The first port of hot device 31 is connected with the air entry 21 of compressor 2, and throttling set can be located at the second end of First Heat Exchanger 31 Between mouth (for example, right end shown in Fig. 4) and the second port (for example, lower end shown in Fig. 4) of energy storage component 1.I.e. The second port of one heat exchanger 31 and the second port of energy storage component 1 can be connected with the both ends of throttling set respectively.It needs Bright, being connected between two components can be connected directly or intermediate be connected by other component.

It exchanges heat when refrigerant flows through First Heat Exchanger 31 with air, achievees the purpose that refrigeration or heating.Refrigerant Into after energy storage component 1, it can exchange heat with the energy-accumulating medium 12 in energy storage component 1, pass through after 12 neither endothermic nor exothermic of energy-accumulating medium The change of itself phase realizes the storage and release of heat, and refrigerant exchange heat in energy storage component 1 after substantially without with ring Border carries out heat exchange or only carries out a small amount of heat exchange with environment, this discharges air conditioner to outdoor environment in refrigeration Heat is few, and the cooling capacity discharged in heating to outdoor environment is few, and then the integral structure of air conditioner may be implemented, and has broken biography The routine for air conditioner split type structure of uniting.

For example, when air entry 21 is connected with the first port of First Heat Exchanger 31, the first of exhaust outlet 22 and energy storage component 1 When port is connected, air conditioner can provide cooling capacity for user.The gaseous refrigerant for the high temperature and pressure being discharged from exhaust outlet 22 can Flow first to energy storage component 1, refrigerant forms liquid refrigerant and from energy storage after exchanging heat in energy storage component 1 with energy-accumulating medium 12 Component 1 flows to throttling set, and refrigerant forms the liquid refrigerant of low-temp low-pressure after throttling set reducing pressure by regulating flow and flows to One heat exchanger 31, refrigerant is in First Heat Exchanger 31 and air heat-exchange is to provide cooling capacity to user and form gaseous refrigerant Agent, subsequent refrigerant return to compressor 2 from air entry 21.

Correspondingly, when air entry 21 is connected with the first port of energy storage component 1, the of exhaust outlet 22 and First Heat Exchanger 31 When Single port is connected, air conditioner can provide heat for user.

According to the air conditioner of the utility model embodiment, the heat discharged in refrigeration to outdoor environment is few, in heating The cooling capacity discharged to outdoor environment is few, realizes unitary design, and be capable of the heat accumulation or heat release energy of real-time monitoring energy storage component Power.

As shown in Figure 1 and Figure 4, according to the air conditioner of some preferred embodiments of the utility model further include: reversing unit 4, Reversing unit 4 includes first interface 41, second interface 42, third interface 43 and the 4th interface 44, and compressor 2 has air entry 21 With exhaust outlet 22, exhaust outlet 22 is connected with first interface 41, and air entry 21 is connected with third interface 43, and the of First Heat Exchanger 31 Single port is connected with second interface 42, the second port of one end of the built-in heat exchanger of energy storage component 1 and First Heat Exchanger 31 it Between by throttling set be connected, the other end of the built-in heat exchanger of energy storage component 1 is connected with the 4th interface 44.

Wherein, first interface 41 can be connected to one of commutation in second interface 42 and the 4th interface 44, third Interface 43 can commutate with another in second interface 42 and the 4th interface 44 and be connected.For example, working as first interface 41 and second When interface 42 is connected to, third interface 43 is connected to the 4th interface 44；When first interface 41 is connected to the 4th interface 44, third is connect Mouth 43 is connected to second interface 42.Thus, it is possible to switch air conditioner between refrigeration mode and heating mode.Reversing unit 4 can realize commutation function with the combination of valve for four-way valve or switch.

Specifically, when air conditioner, which is run, to freeze, the first interface 41 of reversing unit 4 is connected to the 4th interface 44, third Interface 43 is connected to second interface 42.Refrigerant successively pass through the exhaust outlet 22 of compressor 2, reversing unit 4 first interface 41, 4th interface 44, the built-in heat exchanger of energy storage component 1, throttling set, First Heat Exchanger 31,4 second interface 42 of reversing unit, Three interfaces 43 finally return to compressor 2 from the air entry 21 of compressor 2, so recycle.First Heat Exchanger 31 is evaporation at this time Device, the built-in heat exchanger of energy storage component 1 are condenser.Refrigerant is situated between when flowing through the built-in heat exchanger of energy storage component 1 with energy storage Matter 12 exchanges heat, and the heat that refrigerant is released is absorbed and stored by energy-accumulating medium 12, and the state of energy-accumulating medium 12 occurs Variation, such as can be liquid by Solid State Transformation.It exchanges heat, absorbs empty with air when refrigerant flows through First Heat Exchanger 31 Heat in gas achievees the purpose that refrigeration with this.

When air conditioner, which is run, to be heated, the switching to refrigerant flow direction, reversing unit 4 may be implemented by reversing unit 4 First interface 41 be connected to second interface 42, third interface 43 is connected to the 4th interface 44.Refrigerant successively passes through during being somebody's turn to do The exhaust outlet 22 of overcompression machine 2, the first interface 41 of reversing unit 4, second interface 42, First Heat Exchanger 31, throttling set, storage Can the built-in heat exchanger of component 1, reversing unit 4 the 4th interface 44, third interface 43, finally from the air entry 21 of compressor 2 Compressor 2 is returned to, is so recycled.The built-in heat exchanger of energy storage component 1 is evaporator at this time, and First Heat Exchanger 31 is condenser. Refrigerant exchanges heat when flowing through the built-in heat exchanger of energy storage component 1 with energy-accumulating medium 12, refrigerant suction energy-accumulating medium 12 The state of the heat of middle storage, energy-accumulating medium 12 changes, such as is changed into solid-state by liquid.Refrigerant flows through the first heat exchange It exchanges heat when device 31 with air, heat is discharged into air, heating is achieved the purpose that with this.

Wherein, during air-conditioning device runs and freezes, since energy-accumulating medium 12 absorbs and stores condensation heat, shape State is liquid by Solid State Transformation.When energy-accumulating medium 12 is completely reformed into liquid, heat storage capacity reaches the upper limit, and air-conditioning fills at this time Setting cannot continue to freeze, and air-conditioning device, which need to start the first regenerative process, makes energy-accumulating medium 12 restore heat storage capacity, certainly, in energy storage When medium 12 is not fully converted to liquid, if do not use, the first regenerative process can also be started, so that the storage of energy-accumulating medium 12 Thermal energy power reaches maximum.The process charges similar to battery, and energy-accumulating medium 12 can be made to be completely reformed into a short time by liquid Solid-state, restores the ability of heat accumulation again, and such air-conditioning device can continue to freeze.The realization of 12 first regenerative process of energy-accumulating medium After mode is the refrigeration cycle for stopping air-conditioning device, starts the heating circulation of air-conditioning device, make refrigerant suction energy-accumulating medium 12 The heat of storage, energy-accumulating medium 12 are changed into solid-state by liquid, restore heat storage capacity.The regenerative process can air-conditioning device not Starting when needing to freeze, such as can start in the period at night.It, need to will be empty since hot wind can be sent into the first regenerative process The door and window that space where adjusting device is connected to interior is closed, and heat is avoided to enter the room other spaces.For example it should be connected to outdoor Window it is openable, so as to air circulation, outdoor air simultaneously can take away heat in the space.Certainly, air conditioner is portable When formula air-conditioning, the above process can be placed on outdoor progress, and the hot wind to avoid air conditioner blowout impacts indoor air conditions.

During air-conditioning device runs and freezes, display can show the solid concentration of energy-accumulating medium 12, in energy storage The solid concentration of medium 12 reaches predetermined value alarm device and sounds an alarm, and to prompt user, alarm can be buzzer etc..

Likewise, during air-conditioning device runs and heats, since refrigerant absorbs heat from energy-accumulating medium 12, storage Energy medium 12 is changed into solid-state by liquid.When energy-accumulating medium 12 is completely reformed into solid-state, emission capacity reaches the upper limit, at this time Air-conditioning system component cannot continue to heat, and air-conditioning system component, which need to start the second regenerative process, makes energy-accumulating medium 12 restore exothermic Ability when energy-accumulating medium 12 is not fully converted to solid-state, if do not use, can also start the second regenerative process certainly, with The emission capacity of energy-accumulating medium 12 is set to reach maximum.Second regenerative process and above-mentioned first regenerative process are on the contrary, can make energy storage Medium 12 is completely reformed into liquid by solid-state in a short time, restores exothermic ability again, and such air-conditioning device can continue Heating.Its implementation is the heating circulation for stopping air-conditioning device, starts air-conditioning device refrigeration cycle, energy storage is situated between during being somebody's turn to do Matter 12 absorbs and stores condensation heat, is liquid by Solid State Transformation, thus restores emission capacity.Second regenerative process is usually in sky Starting when device being adjusted not need heating.It, need to be by the space where air conditioner since cold wind can be sent into the second regenerative process It is closed with the indoor door and window being connected to, cold wind is avoided to enter the room other spaces.The window that space where air conditioner is connected to outdoor Family is openable, so as to air circulation.Certainly, when air conditioner is portable air-conditioning, the above process can be placed on outdoor progress, to avoid The cold wind of air conditioner blowout impacts indoor air conditions.

During air-conditioning device runs and heats, display can show the liquid content of energy-accumulating medium 12, in energy storage The liquid content of medium 12 reaches predetermined value alarm device and sounds an alarm, and to prompt user, alarm can be buzzer etc..

As a result, by setting reversing unit 4, switch the mode of air conditioner with can be convenient, so as to lead to as needed It crosses air conditioner and cooling capacity or heat is provided.Meanwhile regeneration function can be realized by switching the mode of air conditioner, make energy-accumulating medium 12 Again restore heat accumulation and exothermic ability.

Some embodiments according to the present utility model, referring to Fig.1 and Fig. 4, throttling set include 63 He of first throttle element Third restricting element 69.Air conditioner further comprises: first throttle branch and third throttling branch.First throttle branch road is equipped with First check valve 61, third throttling branch road are equipped with third check valve 67.

Specifically, one end (for example, in figure 6 left end) of first throttle branch is connected with First Heat Exchanger 31, first segment The other end (for example, right end in Fig. 4) of stream branch is connected with the built-in heat exchanger of energy storage component 1.First throttle element 63 with First check valve 61 is connected in series in first throttle branch road, and the first check valve 61 is located at the neighbouring energy storage of first throttle element 63 One end of the built-in heat exchanger of component 1 is so that refrigerant flow direction first throttle element 63 in the built-in heat exchanger of energy storage component 1. The first device for drying and filtering 62 can be also equipped between first throttle element 63 and the first check valve 61, the first device for drying and filtering 62 is used for Absorb the moisture in refrigerant.

Third throttle branch and first throttle branch circuit parallel connection the built-in heat exchanger of First Heat Exchanger 31 and energy storage component 1 it Between, third restricting element 69 and third check valve 67 are connected on third throttling branch road, and third check valve 67 is located at third throttling The first port of the neighbouring First Heat Exchanger 31 of element 69 is so that refrigerant flow direction third restricting element in First Heat Exchanger 31 69.Third device for drying and filtering 68, third device for drying and filtering 68 can be also equipped between third restricting element 69 and third check valve 67 For absorbing the moisture in refrigerant.

Thus, it is possible to carry out reducing pressure by regulating flow to the refrigerant in process of refrigerastion by first throttle element 63, pass through third Restricting element 69 carries out reducing pressure by regulating flow to the refrigerant in heating operations, so as to select different restricting elements respectively to system Refrigerant in cold process and heating operations carries out reducing pressure by regulating flow, ensure that reducing pressure by regulating flow effect, improves air-conditioning system component Refrigeration and heating performance.

Optionally, first throttle element 63 and third restricting element 69 can be with capillary, heating power expansion valve or electronic expansions Valve etc..

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (10)

1. a kind of air conditioner characterized by comprising compressor, First Heat Exchanger, energy storage component, throttling set, cabinet, institute The first port for stating First Heat Exchanger is connected with the exhaust outlet of the compressor, the first port of the energy storage component and the pressure The air entry of contracting machine is connected or the first port of the energy storage component is connected with the exhaust outlet of the compressor, and described first The first port of heat exchanger is connected with the air entry of the compressor, and the throttling set is located at the second of the First Heat Exchanger Between port and the second port of the energy storage component, the cabinet has the first air port and the second air port, the compressor, institute State First Heat Exchanger, the energy storage component, being at least partially arranged in the cabinet in the throttling set, the energy storage group Part includes:

Packaging container, the packaging container is interior to be filled with energy-accumulating medium, and the roof of the packaging container is equipped with towards the storage The sensor of energy medium upper surface, the sensor are used to detect the volume of the energy-accumulating medium；

Built-in heat exchanger, the built-in heat exchanger are located in the packaging container to exchange heat with the energy-accumulating medium.

2. air conditioner according to claim 1, which is characterized in that further include: reversing unit, the reversing unit include the One interface, second interface, third interface and the 4th interface, the compressor have air entry and exhaust outlet, the exhaust outlet with The first interface be connected, the air entry is connected with the third interface, the first port of the First Heat Exchanger with it is described Second interface is connected, and passes through the throttling set between one end of the energy storage component and the second port of the First Heat Exchanger It is connected, the other end of the energy storage component is connected with the 4th interface.

3. air conditioner according to claim 1, which is characterized in that the packaging container includes:

Shell, the open upper end of the shell, the built-in heat exchanger are installed in the shell；

Upper cover, the upper cover closes the shell, and the sensor is installed on the lower surface of the upper cover.

4. air conditioner according to claim 3, which is characterized in that the sensor passes through threaded fastener and the upper cover Connection.

5. air conditioner according to claim 3, which is characterized in that the sensor is multiple, and the distribution that is spaced from each other In the upper cover.

6. air conditioner according to claim 5, which is characterized in that the upper cover is rectangle, in multiple sensors Four are distributed in the quadrangle of the upper cover, another sensor is installed on the middle part of the upper cover.

7. air conditioner according to claim 1, which is characterized in that the sensor is infrared distance sensor, ultrasound survey Away from sensor.

8. air conditioner described in any one of -7 according to claim 1, which is characterized in that further include: control module, the control Module is connected to detect the volume of the energy-accumulating medium with the sensor.

9. air conditioner according to claim 8, which is characterized in that further include: alarm, the alarm and the control Module, which is connected when reaching predetermined value with the volume in the energy-accumulating medium, to be sounded an alarm.

10. air conditioner according to claim 8, which is characterized in that further include: display, the display and the control Molding block is connected to show the volume of the energy-accumulating medium.