CN109869882A

CN109869882A - Energy resource system, the control method and device of energy resource system, storage medium

Info

Publication number: CN109869882A
Application number: CN201910018792.8A
Authority: CN
Inventors: 于洋
Original assignee: Qingdao Haier Air Conditioner Gen Corp Ltd
Current assignee: Qingdao Haier Air Conditioner Gen Corp Ltd
Priority date: 2019-01-09
Filing date: 2019-01-09
Publication date: 2019-06-11

Abstract

The invention discloses a kind of energy resource system, the energy resource system includes: a temperature-adjusting device, heat exchanger in one first, heat exchanger and two or more terminal heat exchangers in one second；Heat exchanger includes a first energy inlet and two or more the first energy release ends in described first；Heat exchanger includes a second energy inlet and two or more the second energy release ends in described second；Alternatively, two or more temperature-adjusting devices, heat exchanger in one first, heat exchanger and a terminal heat exchanger in one second；Heat exchanger includes two or more the first energy inlets and a first energy release end in described first；Heat exchanger includes two or more the second energy inlets and a second energy release end in described second.The invention also discloses a kind of control method and device of energy resource system, storage medium.

Description

Energy resource system, the control method and device of energy resource system, storage medium

Technical field

The present invention relates to technical field of energy utilization, in particular to a kind of energy resource system, energy resource system control method and Device, storage medium.

Background technique

In home environment, a plurality of types of household electrical appliance are related to the conversion of heat, often different because having the function of, relate to And heat conversion process it is different.Such as: domestic air conditioning needs cooling capacity in process of refrigerastion to reduce the temperature of indoor environment Degree, while heat can be dissipated in outdoor；Domestic air conditioning needs heat in heating operations to improve the temperature of indoor environment Degree, while cooling capacity can be dissipated in outdoor；Refrigerator needs cooling capacity in booting operational process to reduce the indoor temperature of freezing Degree, and heat is discharged.Therefore, in household electrical appliance operational process, along with great energy waste.In addition, in air-conditioning In operational process, the temperature of heat exchanger surface and the temperature difference of air-conditioner air outlet are larger in air conditioning chamber, air-conditioning indoor heat exchanger Surface is in air conditioner casing, and speed air flow is slow, and heat exchange efficiency is slow, further causes energy waste.

Summary of the invention

The embodiment of the present invention is intended to provide a kind of energy resource system, to improve energy utilization rate.For the embodiment to disclosure Some aspects have a basic understanding, simple summary is shown below.The summarized section is not extensive overview, nor It determines key/critical component or describes the protection scope of these embodiments.Its sole purpose is to be in simple form Existing some concepts, in this, as the preamble of following detailed description.

According to a first aspect of the embodiments of the present invention, a kind of energy resource system is provided, the energy resource system includes: a temperature Spend regulating device, heat exchanger in one first, heat exchanger and two or more terminal heat exchangers in one second；Institute Stating heat exchanger in first includes a first energy inlet and two or more the first energy release ends；Described second Middle heat exchanger includes a second energy inlet and two or more the second energy release ends；

Alternatively, two or more temperature-adjusting devices, heat exchanger in one first, heat exchanger in one second With a terminal heat exchanger；Heat exchanger includes two or more the first energy inlets and one first in described first Energy release end；Heat exchanger includes that two or more the second energy inlets and second energy are released in described second Put end；

Heat exchanger is connected by the first energy inlet and the thermostatic condenser in described first It connects；Heat exchanger is connect by the first energy release end with the terminal heat exchanger in described first；

Heat exchanger is connected by the second energy inlet and the thermostatic evaporator in described second It connects；Heat exchanger is connect by the second energy release end with the terminal heat exchanger in described second；

The terminal heat exchanger setting is on bed board or on mattress；The terminal heat exchanger is used to adjust using the temperature The energy that the condenser and evaporator of device generate is to adjust the temperature of bed board or mattress.

In a kind of optional embodiment, in each described first heat exchanger include: the first energy import valve and First energy release valve；Heat exchanger includes: that the second energy imports valve and the second energy relief valve in each described second Door；

First energy imports valve, imports for controlling the first energy inlet from the temperature-adjusting device Heat；

The first energy release valve is discharged for controlling the first energy release end to the terminal heat exchanger Heat；

Second energy imports valve, imports for controlling the second energy inlet from the temperature-adjusting device Cooling capacity；

The second energy release valve is discharged for controlling the second energy release end to the terminal heat exchanger Cooling capacity.

According to a second aspect of the embodiments of the present invention, a kind of control method of energy resource system is provided, comprising:

Obtain the measurement temperature of thermostatic condenser temperature, evaporator temperature and terminal heat exchanger；

Determine that the first energy imports the total aperture of valve and the first energy according to the condenser temperature and the measurement temperature The total aperture of release valve, and according to the evaporator temperature and the measurement temperature determine the second energy import the total aperture of valve and The second total aperture of energy release valve；

The aperture that each first energy of the total aperture regulation of valve imports valve is imported according to first energy；And/or root According to the aperture of each first energy release valve of the total aperture regulation of the first energy release valve；

The aperture that each second energy of the total aperture regulation of valve imports valve is imported according to second energy；And/or root According to the aperture of each second energy release valve of the total aperture regulation of the second energy release valve.

In an alternative embodiment, described that each first energy of the total aperture regulation of valve is imported according to first energy Amount imports the aperture of valve, comprising:

When there is a temperature-adjusting device, the aperture that the first energy of control imports valve is that first energy imports valve The total aperture of door；When there are two or when more than two temperature-adjusting device, according to each thermostatic condenser temperature Degree and first energy import the aperture that each first energy of the total aperture regulation of valve imports valve；

It is described that the aperture that each second energy of the total aperture regulation of valve imports valve, packet are imported according to second energy It includes:

When there is a temperature-adjusting device, the aperture that the second energy of control imports valve is that second energy imports valve The total aperture of door；When there are two or when more than two temperature-adjusting device, according to each thermostatic evaporator temperature Degree and second energy import the aperture that each second energy of the total aperture regulation of valve imports valve.

In an alternative embodiment, described according to each first energy of the total aperture regulation of the first energy release valve Measure the aperture of release valve, comprising:

When there is a terminal heat exchanger, the aperture of the first energy release valve of control is the first energy release valve Total aperture；When there are two or when more than two terminal heat exchanger, according to the measurement temperature of each terminal heat exchanger and described The aperture of the first each first energy release valve of the total aperture regulation of energy release valve；

The aperture according to each second energy release valve of the total aperture regulation of the second energy release valve, packet It includes:

When there is a terminal heat exchanger, the aperture of the second energy release valve of control is the second energy release valve Total aperture；When there are two or when more than two terminal heat exchanger, according to the measurement temperature of each terminal heat exchanger and described The aperture of the second each second energy release valve of the total aperture regulation of energy release valve.

According to a third aspect of the embodiments of the present invention, a kind of control device of energy resource system is provided, comprising: first obtains Unit, for obtaining thermostatic condenser temperature；

Second acquisition unit, for obtaining thermostatic evaporator temperature；

Third acquiring unit, for obtaining the measurement temperature of terminal heat exchanger；

Determination unit, for determining that the first energy imports valve and always opens according to the condenser temperature and the measurement temperature Degree and the first total aperture of energy release valve, and determine that the second energy imports according to the evaporator temperature and the measurement temperature The total aperture of valve and the second total aperture of energy release valve；

Control unit imports valve for importing each first energy of the total aperture regulation of valve according to first energy Aperture；And/or the aperture according to each first energy release valve of the total aperture regulation of the first energy release valve；

In an alternative embodiment, described control unit, for controlling first when there is a temperature-adjusting device The aperture that energy imports valve is that first energy imports the total aperture of valve；When there are two or more than two temperature-adjusting device When, the total aperture regulation of valve each the is imported according to each thermostatic condenser temperature and first energy The aperture of one energy importing valve；When there is a temperature-adjusting device, it is described that the second energy of control, which imports the aperture of valve, Second energy imports the total aperture of valve；When there are two or when more than two temperature-adjusting device, adjusted according to each temperature The condenser temperature of device and second energy import the aperture that each second energy of the total aperture regulation of valve imports valve.

In an alternative embodiment, described control unit, for controlling the first energy when there is a terminal heat exchanger The aperture for measuring release valve is the total aperture of the first energy release valve；When there are two or when more than two terminal heat exchanger, According to the measurement temperature of each terminal heat exchanger and each first energy of the total aperture regulation of the first energy release valve The aperture of release valve；When there is a terminal heat exchanger, the aperture of the second energy release valve of control is second energy The total aperture of release valve；When there are two or when more than two terminal heat exchanger, according to the measurement temperature of each terminal heat exchanger The aperture of degree and each second energy release valve of the total aperture regulation of the second energy release valve.

According to a fourth aspect of the embodiments of the present invention, a kind of energy resource system is provided, the energy resource system includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

According to a fifth aspect of the embodiments of the present invention, a kind of computer readable storage medium is provided, meter is stored thereon with The step of calculation machine instruction, which realizes any one of aforementioned the method when being executed by processor.

The beneficial effect of the embodiment of the present invention is: energy resource system includes temperature-adjusting device and terminal heat exchanger, and terminal is changed Hot device setting is on bed board or on mattress, and terminal heat exchanger can use the thermostatic condenser and evaporator produces Raw energy utilizes temperature tune in the case where meeting temperature-adjusting device normal work with the temperature for adjusting bed board or mattress The temperature of energy adjustment bed board or mattress that regulating device generates, it is energy saving.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not It can the limitation present invention.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention Example, and be used to explain the principle of the present invention together with specification.

Fig. 1 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 2 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 3 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 4 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 5 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 6 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 7 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 8 is a kind of structural schematic diagram of middle heat exchanger shown according to an exemplary embodiment；

Fig. 9 is a kind of structural schematic diagram of medium distributive mixing device shown according to an exemplary embodiment；

Figure 10 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Figure 11 is a kind of structural block diagram of the control device of energy resource system shown according to an exemplary embodiment；

Figure 12 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Figure 13 is a kind of structural block diagram of the control device of energy resource system shown according to an exemplary embodiment；

Figure 14 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Figure 15 is a kind of structural block diagram of the control device of energy resource system shown according to an exemplary embodiment；

Figure 16 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Figure 17 is a kind of structural block diagram of the control device of energy resource system shown according to an exemplary embodiment；

Figure 18 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Figure 19 is a kind of structural block diagram of the control device of energy resource system shown according to an exemplary embodiment；

Figure 20 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Figure 21 is a kind of structural block diagram of the control device of energy resource system shown according to an exemplary embodiment.

Specific embodiment

The following description and drawings fully show specific embodiments of the present invention, to enable those skilled in the art to Practice them.The part of some embodiments and feature can be included in or replace part and the feature of other embodiments. The range of embodiment of the present invention include claims entire scope and claims it is all obtainable etc. Jljl.Herein, relational terms such as first and second and the like are used only for an entity or structure and another Entity or structure distinguish, and without requiring or implying, there are any actual relationships or suitable between these entities or structure Sequence.Each embodiment herein is described in a progressive manner, the highlights of each of the examples are with other embodiments Difference, the same or similar parts in each embodiment may refer to each other.

In the description of the present invention, it is to be understood that, term " longitudinal direction ", " transverse direction ", "upper", "lower", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached drawing institute The orientation or positional relationship shown, is merely for convenience of description of the present invention and simplification of the description, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to limit of the invention System.In the description of the present invention, unless otherwise specified and limited, it should be noted that term " installation ", " connected ", " connection " It shall be understood in a broad sense, for example, it may be mechanical connection or electrical connection, the connection being also possible to inside two elements, can be straight Connect it is connected, can also indirectly connected through an intermediary, for the ordinary skill in the art, can be according to specific feelings Condition understands the concrete meaning of above-mentioned term.

In home environment, a plurality of types of household electrical appliance are related to the conversion of heat, often different because having the function of, relate to And heat conversion process it is different.In the embodiment of the present invention, temperature-adjusting device is to be related to the household electrical appliance of the conversion of heat, Specifically, temperature-adjusting device can be domestic air conditioning or refrigerator.It is often adjoint in the course of work of domestic air conditioning and refrigerator The loss of energy, the effective energy using domestic air conditioning and refrigerator can reduce thermal loss, improve the utilization rate of the energy, Meet environmentally protective theory.In embodiments of the present invention, when being related to the conversion of energy, need to use middle heat exchanger and Medium distributive mixing device.

It is the structural schematic diagram of the middle heat exchanger provided according to an exemplary embodiment referring to Fig. 1 to Fig. 6.Wherein, Heat exchanger 20 in one, comprising:

Heat absorbing end 201, for being connected to 10/ temperature equipment of energy stores station (e.g., the first temperature equipment 1111 or the 4th Temperature equipment 1221)；With,

Release end of heat 202, for being connected to temperature equipment (e.g., the second temperature equipment 1121 or third temperature equipment 1211)/energy stores station 10.

Heat exchanger 20 in the first of the embodiment of the present invention accesses between energy stores station 10 and temperature equipment, to energy Energy between storage sites 10 and multiple temperature equipments has converted transfer effect.In practical application, the quantity of temperature equipment is not It is fixed, it can be one, it is also possible to it is two, it is even more；And energy stores station 10 also can have one or more, because This, the heat absorbing end 201 of the middle heat exchanger of the embodiment of the present invention is one or more, and release end of heat 202 is also one or more, real Now turn multichannel all the way, multichannel turns all the way or multichannel turns multichannel, can facilitate and adjust energy stores station 10 and temperature equipment (suction Receiving end temperature equipment 1011 or release end temperature equipment 1021) between energy stores and release, and access is easy to control, According to actual conditions, part of access can be connected and carry out energy exchange.It can also enough simplifying energy stores station and adjusting Connecting pipeline between warm equipment facilitates the layout of pipeline, reduces cost.

As shown in Figure 1, the first transfer heat exchanger I, heat absorbing end 201 is one, has a connecting pipeline group；Release end of heat 202 is multiple, and the connecting pipeline group of multiple release end of heat 202 is independently arranged.That is, the pipeline of heat absorbing end 201 and release end of heat 202 is independent Setting.Turn multichannel all the way.

As shown in Fig. 2, the first transfer heat exchanger II, heat absorbing end 201 is one, has a connecting pipeline group；Release end of heat 202 be one, and a release end of heat 202 has multiple connecting pipeline groups being independently arranged.That is, heat absorbing end 201 and release end of heat 202 Pipeline is independently arranged.Turn multichannel all the way.

As shown in figure 3, heat exchanger III in first, heat absorbing end 201 is one, and a heat absorbing end 201 has multiple independences The connecting pipeline group of setting；Release end of heat 202 is one, has a connecting pipeline group.That is, heat absorbing end 201 and release end of heat 202 Pipeline is independently arranged.Multichannel turns all the way.

As shown in figure 4, heat exchanger V in first, heat absorbing end 201 be it is multiple, multiple heat absorbing ends 201 are interconnected by one Group communicating pipe group is connected to the heat-exchanger rig of energy stores station 10 (or absorption edge temperature equipment 1011) side；Release end of heat 202 is Multiple, the connecting pipeline group of multiple release end of heat 202 is independently arranged.That is, the pipeline of multiple heat absorbing ends 201 is interconnected, Duo Gefang The pipeline in hot end 202 is independently arranged.Turn multichannel all the way.

As shown in figure 5, heat exchanger IV in first, heat absorbing end 201 is one, and a heat absorbing end 201 has multiple independences The connecting pipeline group of setting；Release end of heat 202 is one, and a release end of heat 202 has multiple connecting pipeline groups being independently arranged. That is, the pipeline of heat absorbing end 201 and release end of heat 202 is independently arranged.Multichannel turns multichannel.

As shown in fig. 6, heat exchanger VI in first, heat absorbing end 201 is one, has a connecting pipeline group；Release end of heat 202 be one, has a connecting pipeline group.That is, the pipeline of heat absorbing end 201 and release end of heat 202 is independently arranged.Turn one all the way Road.

Certainly, the structure of heat exchanger is not limited to above-mentioned six kinds in the first of the embodiment of the present invention, wherein 201 He of heat absorbing end The structure of release end of heat 202 can be interchanged, can also be in any combination.It is connected to the heat exchange of side (energy stores station side and temperature equipment side) The quantity of the connecting pipeline group of device determines the structure of the middle heat exchanger of adaptation.In addition, in first heat exchanger suction When the connecting pipeline group in hot end 201 (or release end of heat 202) is multiple groups, number is not limited, the energy storage according to required access Stand 10 or temperature equipment number determine.

In the first of the embodiment of the present invention in heat exchanger 20, the heat exchange of the heat-exchanger rig and release end of heat 202 of heat absorbing end 201 Device can be separately provided, and e.g., when using plate heat exchanger, the two is oppositely arranged and (can contact or do not contact), guarantee heat-transfer surface Product maximizes；When using heat exchange coil, makes the interlaced setting of the coil portions of the two (can contact or do not contact), guarantee have Effect heat exchange.Alternatively, the heat-exchanger rig design of the heat-exchanger rig and release end of heat 202 of heat absorbing end 201 is integrated.Set-up mode is unlimited Fixed, as long as realizing, the heat-exchanger rig of heat absorbing end 201 and the heat-exchanger rig of release end of heat 202 are able to carry out heat transmitting.Such as Fig. 1 To shown in Fig. 6, being the heat-exchanger rig structure being oppositely arranged of heat absorbing end 201 and release end of heat 202 using contactless type, certainly originally Heat exchanger is not limited to structure given by attached drawing in the first of inventive embodiments.

In an alternative embodiment, heat exchanger 20 in first further includes the valve 231 that absorbs heat, and is arranged in series in suction On the pipeline in hot end 201；And/or heat release valve 232, it is arranged in series on the pipeline of release end of heat 202.The purpose of valve is set It is to control opening or closing for heat absorbing end 201 and release end of heat 202.In specific embodiment, (each changed in each heat absorbing end 201 Thermal) inlet tube and outlet tube on be respectively provided with heat absorption valve 231, in each release end of heat 202 (each heat-exchanger rig) Heat release valve 232 is respectively provided on inlet tube and outlet tube.By the control to each valve, realized respectively to heat exchanger in first The folding control of 20 release end of heat 202 and each connecting pipeline of heat absorbing end 201, adjusts the transmitting of energy, can be according to practical feelings Condition, control energy storage station 10 carry out energy release to part temperature equipment, also can control the part temperature equipment case energy and deposit 10 storage energies of storage station.

Referring to figs. 7 and 8, in the embodiment of the present invention, a kind of middle heat exchanger, heat exchanger in second are also provided 30, comprising:

Heat absorbing end 301, for being connected to 10/ temperature equipment of energy stores station (e.g., the first temperature equipment 1111 or the 4th Temperature equipment 1221)；

Release end of heat 302, for being connected to temperature equipment (e.g., the second temperature equipment 1121 or third temperature equipment 1211)/energy stores station 10；With,

The both ends of undirectional thermal conducting 31 are arranged in undirectional thermal conducting 31, heat absorbing end 301 and release end of heat 302.

Heat exchanger 30 in the second of the embodiment of the present invention, can be at energy stores station by increasing undirectional thermal conducting 31 When releasing energy to release end temperature equipment, accurately energy is provided for temperature equipment.In addition, applying also for when energy stores station It cannot be carried out by the direction of setting between 10 and temperature equipment (absorption edge temperature equipment 1011 or release end temperature equipment 1021) The case where energy transmission.When general progress heat transmitting, the low one end of temperature can only be transmitted to from the high one end of temperature, if heat is deposited Temperature itself in storage station is higher than the medium temp of temperature equipment output, and at this point, heat storage sites are deposited there are many more heating load The capacity of storage then can not carry out heat storage by direction initialization to heat storage sites at this time, will cause heat storage sites instead Heat losses play opposite effect.When heat storage sites carry out heat release, and identical problem can be encountered.Therefore originally Inventive embodiments provide the heat exchanger 30 in second, using undirectional thermal conducting 31 to (cold from temperature equipment guiding heat Amount) storage sites medium temp, and be adjusted from the medium temp of heat (cooling capacity) storage sites guide device, can There is provided accurate energy to release end temperature equipment, or make energy storage sites 10 and temperature equipment by direction initialization normally into Row heat transfer.

Heat exchanger 30 in the second of the embodiment of the present invention, on the basis of being heat exchanger 20 in above-mentioned first, Undirectional thermal conducting 31 is increased between heat absorbing end and release end of heat.Therefore, the absorption edge 301 of heat exchanger 30 and heat release in second The structure setting at end 302 and role are identical as the heat absorbing end 201 of heat exchanger 20 in first and release end of heat 202, It can refer to foregoing teachings, details are not described herein.

Therefore, it is absorbing heat according to the first transfer heat exchanger I as described in Fig. 1 to Fig. 6 to VI structure of heat exchanger in first Increase undirectional thermal conducting 31 can successively obtain heat absorbing end between end and release end of heat and release end of heat corresponds to consistent second transfer Heat exchanger I is to heat exchanger VI in second.Second transfer heat exchanger II 30 as shown in Figure 7 is in the first transfer heat exchanger II Increase what undirectional thermal conducting 31 obtained on the basis of 20, heat exchanger VI 30 is in first in as shown in Figure 8 second Increase what undirectional thermal conducting 31 obtained on the basis of heat exchanger VI 20.

Heat exchanger 30 in the second of the embodiment of the present invention, undirectional thermal conducting 31 are realized the heat (pressure) of heat absorbing end It exchanges to release end of heat.Refrigerant heat exchanger or semiconductor temperature adjustor can specifically be used.

In an alternative embodiment, refrigerant heat exchanger includes evaporator 311, compressor (not shown), condenser 312 Heat-exchanging loop is connected and composed with expansion valve (not shown), four.Heat exchanger 30 includes two adiabatic heat-insulation settings in second Absorb heat chamber 303 and heat release chamber 304；The heat absorbing end 301 of heat exchanger 30 is oppositely arranged in evaporator 311 and second, and is set It sets in heat absorption chamber 303；The release end of heat 302 of heat exchanger 30 is oppositely arranged in condenser 312 and second, and is arranged in heat release In chamber 304.

In an alternative embodiment, semiconductor temperature adjustor, including semiconductor chilling plate, setting are in semiconductor The first end heat exchanger of the first end of cooling piece and the second end heat exchanger and power supply unit of second end.Power supply unit is used for Electric energy is provided for semiconductor chilling plate.By controlling the direction of supply current, the first end and second of semiconductor chilling plate can be made It holds and is switched under the cold both of which of heat production and production.For example, first end is cold end under forward current, second end is heat End；Behind switching electric current direction, first end is switched to hot end, and second end is switched to cold end.Heat exchanger 30 includes two in second The heat absorption chamber 303 and heat release chamber 304 of adiabatic heat-insulation setting；The heat absorbing end of heat exchanger 30 in first end heat exchanger and second 301 are oppositely arranged, and are arranged in heat absorption chamber 303；302 phase of release end of heat of heat exchanger 30 in second end heat exchanger and second To setting, and it is arranged in heat release chamber 304.Determine that first end heat exchanger is hot end (or cold end) and the according to actual conditions Two end heat exchangers are cold end (or hot end).

When needing to provide accurate energy to release end temperature equipment, alternatively, energy stores station 10 and temperature equipment it Between when cannot carry out heat transmitting by direction initialization, start undirectional thermal conducting 31, force exchange to putting the heat of heat absorbing end 301 Hot end 302, then energy stores station 10 (perhaps absorption edge temperature equipment 1011 or release are transferred heat to by release end of heat 302 Hold temperature equipment 1021).

It is the structural schematic diagram of the medium distributive mixing device provided according to an exemplary embodiment as shown in Figure 9.Medium Distributive mixing device 40, comprising:

Heat exchanger 20 in multiple first, heat exchanger 20 has the first energy input end 201 and first in each first Energy output end 202；And

One or more mixed cells 41, each mixed cell 41 have multiple second input terminals 411；

Flow control valve 42 is arranged on the pipeline of the first energy output end 202 of heat exchanger 20 in first.

Wherein, heat exchanger 20 is used to deposit with one or more energy by the first energy input end 201 in each first 10 connection of storage station；Each mixed cell 41 by multiple second input terminals 411 respectively with each first in heat exchanger 20 one A first energy output end 202 is connected to.

The second output terminal 412 of mixed cell 41 is used for the heat exchange with temperature equipment (release end temperature equipment 1011) side and fills It sets and is connected to.

In the medium distributive mixing device 40 of the embodiment of the present invention, heat exchanger 20 is for will be from energy stores station in first The energy of 10 releases is shunted, and mixed cell is set after neutralizing the energy that heat exchanger 20 distributes in multiple first Then energy is exported energy is set to the temperature equipment side to match with the setting energy by mixed cell.It can be accurately Matched energy is provided to the release end temperature equipment of the energy release end 102 with energy stores station 10.Specifically, it is possible to provide The medium for the temperature matched.

In an alternative embodiment, heat exchanger 20 can be replaced heat exchanger 30 in second in first.In second Heat exchanger 30 on the basis of being heat exchanger 20 in above-mentioned first, exports at the first energy input end and the first energy Undirectional thermal conducting 31 is increased between end.Therefore, the first energy input end I 301 of heat exchanger 30 and the first energy in second Measure output end I 302 structure setting and role with first in heat exchanger 20 the first energy input end 201 It is identical with the first energy output end 202, it can refer to foregoing teachings, details are not described herein.

Wherein, energy stores station 10 further includes multiple volume control devices 13, and multiple volume control devices 13 are respectively set On the energy absorption end 101 at energy stores station 10 and the pipeline of energy release end 102.Volume control device, which has, adjusts flow Effect, including power effect and throttling action.Wherein, power effect is for increasing flow, and throttling action is for reducing flow. In the embodiment for carrying out energy exchange using liquid mediums, volume control device can be kinetic pump and solenoid valve, alternatively, swollen Swollen valve etc..

According to embodiments of the present invention, a kind of energy resource system is provided, the energy resource system includes: temperature-adjusting device and terminal Heat exchanger.

Wherein, temperature-adjusting device is air-conditioning or refrigerator, include: in the building block of air-conditioning and refrigerator condenser and Evaporator, during the work time, by refrigerant, generating state variation is absorbed or is released energy with reality in condenser and evaporator Now freeze or heats, the temperature in regulation room or in refrigerator.

In an alternative embodiment, each thermostatic condenser passes through transition heat in one first Device is connected in thermo-conducting manner with the corresponding terminal heat exchanger, and each thermostatic evaporator passes through one Heat exchanger is connected in thermo-conducting manner with the corresponding terminal heat exchanger in a second.Wherein, terminal heat exchanger is simultaneously The energy for connecting with condenser and evaporator, while being wasted using condenser and evaporator is improved the utilization rate of the energy, and improved To the accuracy that the temperature of bed board or mattress is adjusted, user experience is improved.

In an alternative embodiment, heat exchanger includes: the first thermally conductive valve in first.The first thermally conductive valve Door, for controlling the opening and closing of heat transfer between the terminal heat exchanger and the condenser.

Heat exchanger includes: the second thermally conductive valve in described second.The second thermally conductive valve, for controlling the terminal The opening and closing of heat transfer between heat exchanger and the evaporator.When improving the temperature of bed board or mattress, terminal is avoided to change Hot device absorbs excessive energy, causes too high or too low for temperature, the reduction user experience of bed board or mattress.

In an alternative embodiment, the aperture of the described first thermally conductive valve is adjustable, and the first thermally conductive valve is used for Adjust the heat conducted between the terminal heat exchanger and the condenser.The aperture of the second thermally conductive valve is adjustable, described Second thermally conductive valve, for adjusting the cooling capacity conducted between the terminal heat exchanger and the evaporator.The aperture of thermally conductive valve The temperature of the adjustable degree of regulation improved to terminal heat exchanger, guarantee bed board or mattress reduces close to the ideal temperature of user Temperature fluctuation improves user experience.

It as shown in Figure 10, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control method of system.This method, comprising:

Step S1001 obtains the measurement temperature of thermostatic condenser temperature, evaporator temperature and terminal heat exchanger Degree.

It is thermally conductive to control the terminal heat exchanger first according to the condenser temperature and the measurement temperature by step S1002 The aperture of valve；And/or the thermally conductive valve of the terminal heat exchanger second is controlled according to the evaporator temperature and the measurement temperature The aperture of door.

In embodiments of the present invention, energy resource system includes temperature-adjusting device and terminal heat exchanger, the setting of terminal heat exchanger On bed board or on mattress, terminal heat exchanger can use the energy that the thermostatic condenser and evaporator generate To adjust the temperature of bed board or mattress, in the case where meeting temperature-adjusting device normal work, produced using temperature-adjusting device The temperature of raw energy adjustment bed board or mattress, it is energy saving.

Wherein, in an alternative embodiment, in step S1002, according to the condenser temperature and measurement temperature The aperture of the degree control thermally conductive valve of the terminal heat exchanger first, comprising: when the condenser temperature subtracts the measurement temperature Difference when being less than set temperature value, close the first thermally conductive valve.In step S1002, according to the evaporator temperature and The measurement temperature controls the aperture of the thermally conductive valve of the terminal heat exchanger second, comprising: described in subtracting when the measurement temperature When the difference of evaporator temperature is less than set temperature value, the second thermally conductive valve is closed.

In the energy generated using temperature-adjusting device, thermostatic effective operation should be taken into account.When the end Heat exchanger is held to utilize the energy of temperature-adjusting device condenser, and condenser temperature subtracts the difference of the measurement temperature of terminal heat exchanger When value is less than set temperature value, condenser can not effectively improve the temperature of terminal heat exchanger, at this point, closing the first thermally conductive valve Door, the heat exchange between temperature-adjusting device condenser and terminal heat exchanger stop.With thermostatic operation, temperature tune Regulating device condenser temperature increases, when the difference that condenser temperature subtracts the measurement temperature is greater than set temperature value, again Open the first thermally conductive valve.

When the terminal heat exchanger utilizes the energy of temperature-adjusting device evaporator, and the measurement temperature of terminal heat exchanger subtracts When the difference of devaporation device temperature is less than set temperature value, evaporator can not effectively reduce the temperature of terminal heat exchanger, at this point, The second thermally conductive valve is closed, the heat exchange between temperature-adjusting device evaporator and terminal heat exchanger stops.It is filled as temperature is adjusted The operation set, temperature-adjusting device evaporator temperature reduces, when the measurement temperature of terminal heat exchanger subtracts the difference of evaporator temperature When value is greater than set temperature value, it is again turned on the second thermally conductive valve.

In an alternative embodiment, to improve the rate and accuracy that adjust to terminal heat exchanger, first is being adjusted When the aperture of thermally conductive valve, further includes: control the terminal heat exchanger the according to the evaporator temperature and the measurement temperature The aperture of two thermally conductive valves.When adjusting the aperture of the second thermally conductive valve, further includes: according to the condenser temperature and the survey Amount temperature controls the aperture of the thermally conductive valve of the terminal heat exchanger first.

Specifically, reducing the first thermally conductive valve when the measurement temperature subtracts the target temperature greater than the first setting temperature difference The aperture of door closes the first thermally conductive valve, if the measurement temperature subtracts the evaporator temperature and is greater than the second set temperature, It opens the second thermally conductive valve or increases the aperture of the second thermally conductive valve.Wherein, the measurement temperature subtracts the target temperature and gets over Greatly, the aperture of the described second thermally conductive valve is bigger.

Wherein, the first setting temperature difference is greater than the second setting temperature difference.The target temperature be user according to demand Setting, in daily life, target temperature are less than or equal to user's body temperature, and target temperature is too low or excessively high will affect sleeping for user Dormancy comfort level reduces the experience of user.Optionally, the target temperature is 25 DEG C~35 DEG C.Preferably, the target temperature is 25 DEG C, 27 DEG C, 30 DEG C, 32 DEG C or 35 DEG C.

When the measurement temperature subtracts the target temperature greater than the first setting temperature difference, the temperature of bed board or mattress is higher than The ideal temperature of user needs to reduce the temperature of bed board or mattress, and therefore, the aperture for reducing thermally conductive valve slows down condenser and end The heat exchange rate of heat exchanger is held, alternatively, closing the heat exchange that thermally conductive valve interrupts condenser and terminal heat exchanger.

When the measurement temperature subtracts the target temperature less than or equal to the second setting temperature difference, the temperature of bed board or mattress Degree is lower than the ideal temperature of user, needs to improve the temperature of bed board or mattress, at this point, to meet terminal heat exchanger from the condensation Device obtains heat, and condenser temperature should be greater than the measurement temperature of terminal heat exchanger.Therefore, when the condenser temperature subtracts institute When stating the difference of measurement temperature more than or equal to set temperature value, increase thermally conductive valve.

When the measurement temperature subtracts the target temperature less than or equal to the second setting temperature difference, the condenser temperature subtracts When the difference of the measurement temperature being gone to be less than set temperature value, if maintaining the aperture of thermally conductive valve constant, it is unable to satisfy raising The temperature of bed board or mattress, or even will appear the temperature of bed board or mattress and reduce, at this point, the aperture for reducing thermally conductive valve slow down it is cold The heat exchange rate of condenser and terminal heat exchanger, alternatively, the heat exchange that thermally conductive valve interrupts condenser and terminal heat exchanger is closed, with Thermostatic operation, condenser temperature increase, when meet condenser temperature subtract measurement temperature difference be greater than or When equal to set temperature value, increase thermally conductive valve.

In an alternative embodiment, this method further include: according to the condenser temperature, the measurement temperature and institute State the working frequency that target temperature controls the temperature-adjusting device compressor.

Specifically, reducing temperature when the measurement temperature subtracts the target temperature greater than the first setting temperature difference and adjusting The working frequency of device compressor；When the measurement temperature subtracts the target temperature less than or equal to the second setting temperature difference, Improve the working frequency of temperature-adjusting device compressor.

When the measurement temperature subtracts the target temperature greater than the first setting temperature difference, the temperature of bed board or mattress is higher than The ideal temperature of user needs to reduce the temperature of bed board or mattress, therefore, reduces the work frequency of temperature-adjusting device compressor Rate slows down the heat exchange rate of condenser Yu terminal heat exchanger to reduce the temperature of temperature-adjusting device condenser.

When the measurement temperature subtracts the target temperature less than or equal to the second setting temperature difference, the temperature of bed board or mattress Degree is lower than the ideal temperature of user, needs to improve the temperature of bed board or mattress, therefore, improves the work of temperature-adjusting device compressor Working frequency accelerates the heat exchange rate of condenser and terminal heat exchanger to improve the temperature of temperature-adjusting device condenser.

It as shown in figure 11, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control device of system.The device, comprising: first acquisition unit 1101, second acquisition unit 1102,1103 and of third acquiring unit Control unit 1104.

Wherein, first acquisition unit 1101, for obtaining thermostatic condenser temperature；

Second acquisition unit 1102, for obtaining thermostatic evaporator temperature；

Third acquiring unit 1103, for obtaining the measurement temperature of terminal heat exchanger；

Control unit 1104, for according to the condenser temperature and the measurement temperature control terminal heat exchanger the The aperture of one thermally conductive valve；And/or the terminal heat exchanger second is controlled according to the evaporator temperature and the measurement temperature The aperture of thermally conductive valve.

In an alternative embodiment, control unit 1104, for subtracting the measurement temperature when the condenser temperature When the difference of degree is less than set temperature value, closes the first thermally conductive valve or open the second thermally conductive valve；When the survey When the difference that amount temperature subtracts the evaporator temperature is less than set temperature value, close described in the second thermally conductive valve or unlatching First thermally conductive valve.

In an alternative embodiment, control unit 1104 are also used to according to the evaporator temperature and the measurement Temperature controls the aperture of the thermally conductive valve of the terminal heat exchanger first；And/or according to the condenser temperature and measurement temperature The aperture of the degree control thermally conductive valve of the terminal heat exchanger second.

In an alternative embodiment, the device further include: the 4th acquiring unit, for obtaining the terminal heat exchanger Target temperature.

Control unit 1104, for according to the condenser temperature, the evaporator temperature, the measurement temperature and described Target temperature controls the aperture of the thermally conductive valve of terminal heat exchanger.

A kind of energy resource system is additionally provided according to embodiments of the present invention, and the energy resource system includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

The aperture of the thermally conductive valve of the terminal heat exchanger first is controlled according to the condenser temperature and the measurement temperature； And/or the aperture of the thermally conductive valve of the terminal heat exchanger second is controlled according to the evaporator temperature and the measurement temperature.

A kind of computer readable storage medium is additionally provided according to embodiments of the present invention, it is real when which is executed by processor The step of method that an incumbent previous embodiment provides.

Different according to household electrical appliance quantity in family, in an alternative embodiment, energy resource system includes: a temperature tune Regulating device, heat exchanger in one first, heat exchanger and two or more terminal heat exchangers in one second.

Wherein, heat exchanger includes a first energy inlet and two or more first energy in described first Release end；Heat exchanger includes that a second energy inlet and two or more second energy discharge in described second End；

In an alternative embodiment, heat exchanger includes: that the first energy imports valve and the in each described first One energy release valve；Heat exchanger includes: that the second energy imports valve and the second energy release valve in each described second；

It as shown in figure 12, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control method of system.This method, comprising:

Step S1201 obtains the measurement temperature of thermostatic condenser temperature, evaporator temperature and terminal heat exchanger Degree.

Step S1202 determines that the first energy imports the total aperture of valve according to the condenser temperature and the measurement temperature With the first total aperture of energy release valve, and according to the evaporator temperature and the measurement temperature determine the second energy import valve The total aperture of door and the second total aperture of energy release valve.

Step S1203 imports each first energy of the total aperture regulation of valve according to first energy and imports opening for valve Degree；And/or the aperture according to each first energy release valve of the total aperture regulation of the first energy release valve；

Wherein, in an alternative embodiment, in step S1203, the total aperture of valve is imported according to first energy Adjust the aperture that each first energy imports valve, comprising:

When there is a temperature-adjusting device, the aperture that the first energy of control imports valve is that first energy imports valve The total aperture of door；When there are two or when more than two temperature-adjusting device, according to each thermostatic condenser temperature Degree and first energy import the aperture that each first energy of the total aperture regulation of valve imports valve.

Wherein, in an alternative embodiment, described total according to the first energy release valve in step S1203 The aperture of each first energy release valve of aperture regulation, comprising:

It as shown in figure 13, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control device of system.The device, comprising: first acquisition unit 1301, second acquisition unit 1302, third acquiring unit 1303, Determination unit 1304 and control unit 1305.

Wherein, first acquisition unit 1301, for obtaining thermostatic condenser temperature；

Second acquisition unit 1302, for obtaining thermostatic evaporator temperature；

Third acquiring unit 1303, for obtaining the measurement temperature of terminal heat exchanger；

Determination unit 1304, for determining that the first energy imports valve according to the condenser temperature and the measurement temperature Total aperture and the first total aperture of energy release valve, and the second energy is determined according to the evaporator temperature and the measurement temperature Import the total aperture of valve and the second total aperture of energy release valve；

Control unit 1305 imports valve for importing each first energy of the total aperture regulation of valve according to first energy The aperture of door；And/or the aperture according to each first energy release valve of the total aperture regulation of the first energy release valve；

In an alternative embodiment, control unit 1305, for controlling first when there is a temperature-adjusting device The aperture that energy imports valve is that first energy imports the total aperture of valve；When there are two or more than two temperature-adjusting device When, the total aperture regulation of valve each the is imported according to each thermostatic condenser temperature and first energy The aperture of one energy importing valve；When there is a temperature-adjusting device, it is described that the second energy of control, which imports the aperture of valve, Second energy imports the total aperture of valve；When there are two or when more than two temperature-adjusting device, adjusted according to each temperature The condenser temperature of device and second energy import the aperture that each second energy of the total aperture regulation of valve imports valve.

In an alternative embodiment, control unit 1305, for controlling the first energy when there is a terminal heat exchanger The aperture for measuring release valve is the total aperture of the first energy release valve；When there are two or when more than two terminal heat exchanger, According to the measurement temperature of each terminal heat exchanger and each first energy of the total aperture regulation of the first energy release valve The aperture of release valve；When there is a terminal heat exchanger, the aperture of the second energy release valve of control is second energy The total aperture of release valve；When there are two or when more than two terminal heat exchanger, according to the measurement temperature of each terminal heat exchanger The aperture of degree and each second energy release valve of the total aperture regulation of the second energy release valve.

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

Different according to household electrical appliance quantity in family, in an alternative embodiment, two or more temperature are adjusted Device, two or more heat exchangers in first, two or more in second heat exchanger and two or two with Upper terminal heat exchanger；Heat exchanger is connect with one or more thermostatic condensers in each described first；Each Heat exchanger is connect with one or more thermostatic evaporators in described second；Heat exchanger in each described first It is connect with one or more terminal heat exchangers；Heat exchanger is connect with one or more terminal heat exchangers in each described second； Heat exchanger includes one or more first energy inlets and one or more first energy release ends in each described first； Heat exchanger includes one or more second energy inlets and one or more second energy release ends in each described second；

Heat exchanger is connected by the first energy inlet and the thermostatic condenser in described first It connects；Heat exchanger is connect by the first energy release end with the condenser of the terminal heat exchanger in described first；It is described Heat exchanger is connect by the second energy inlet with the thermostatic evaporator in second；In described second Heat exchanger is connect by the second energy release end with the condenser of the terminal heat exchanger；

First energy imports valve, condenses for controlling the first energy inlet from the temperature-adjusting device The heat that device imports；The first energy release valve is discharged to the terminal for controlling the first energy release end and is changed The heat of hot device；

Second energy imports valve, evaporates for controlling the second energy inlet from the temperature-adjusting device The cooling capacity that device imports；The second energy release valve is discharged to the terminal for controlling the second energy release end and is changed The cooling capacity of hot device.

It as shown in figure 14, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control method of system.This method, comprising:

Step S1401 obtains the measurement temperature of thermostatic condenser temperature, evaporator temperature and terminal heat exchanger Degree.

Step S1402 determines that the first energy imports the total aperture of valve according to the condenser temperature and the measurement temperature With the first total aperture of energy release valve, and according to the evaporator temperature and the measurement temperature determine the second energy import valve The total aperture of door and the second total aperture of energy release valve.

Step S1403 imports each first energy of the total aperture regulation of valve according to first energy and imports opening for valve Degree；And/or the aperture according to each first energy release valve of the total aperture regulation of the first energy release valve；

Wherein, in an alternative embodiment, described total according to first energy importing valve in step S1403 Each first energy of aperture regulation imports the aperture of valve, comprising:

When the temperature-adjusting device quantity that heat exchanger is connect in described first is one, first transfer is controlled The aperture that first energy of heat exchanger imports valve is that first energy imports the total aperture of valve；It converts in described first When the temperature-adjusting device quantity of hot device connection is two or more, according to each thermostatic condenser Temperature and first energy import the aperture that each first energy of the total aperture regulation of valve imports valve；

When the temperature-adjusting device quantity that heat exchanger is connect in described second is one, second transfer is controlled The aperture that second energy of heat exchanger imports valve is that second energy imports the total aperture of valve；It converts in described second When the temperature-adjusting device quantity of hot device connection is two or more, according to each thermostatic evaporator Temperature and second energy import the aperture that each second energy of the total aperture regulation of valve imports valve.

Wherein, the thermostatic condenser temperature is higher, and corresponding first heat imports opening for valve It spends bigger.

In an alternative embodiment, described according to the total aperture tune of the first energy release valve in step S1403 Save the aperture of each first energy release valve, comprising:

Wherein, the measurement temperature of the terminal heat exchanger is higher, and the aperture of the corresponding first heat release valve is got over It is small.

It as shown in figure 15, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control device of system.The device, comprising: first acquisition unit 1501, second acquisition unit 1502, third acquiring unit 1503, Determination unit 1504 and control unit 1505.

Wherein, first acquisition unit 1501, for obtaining thermostatic condenser temperature；

Second acquisition unit 1502, for obtaining thermostatic evaporator temperature；

Third acquiring unit 1503, for obtaining the measurement temperature of terminal heat exchanger；

Determination unit 1504 imports valve for importing each first energy of the total aperture regulation of valve according to first energy The aperture of door；And/or the aperture according to each first energy release valve of the total aperture regulation of the first energy release valve；

Control unit 1505 imports valve for importing each second energy of the total aperture regulation of valve according to second energy The aperture of door；And/or the aperture according to each second energy release valve of the total aperture regulation of the second energy release valve.

In an alternative embodiment, described control unit 1505 are connect for working as with heat exchanger in described first Temperature-adjusting device quantity be one when, control described first in heat exchanger the first energy import valve aperture be institute It states the first energy and imports the total aperture of valve；The temperature-adjusting device quantity that heat exchanger is connect in described first be two or When more than two, the total aperture tune of valve is imported according to each thermostatic condenser temperature and first energy Save the aperture that each first energy imports valve；

In an alternative embodiment, described control unit 1505, for when there is a terminal heat exchanger, control the The aperture of one energy release valve is the total aperture of the first energy release valve；When there are two or more than two terminal heat exchanger When, according to the measurement temperature of each terminal heat exchanger and each first energy of the total aperture regulation of the first energy release valve Measure the aperture of release valve；

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

The aperture that each second energy of the total aperture regulation of valve imports valve is imported according to second energy；And/or root According to the aperture of each second energy release valve of the total aperture regulation of the second energy release valve

Different according to household electrical appliance quantity in family, in an alternative embodiment, energy resource system includes: two or two Temperatures above regulating device, two or more terminal heat exchangers and medium distribute buffer storage；The temperature-adjusting device Condenser and evaporator distribute buffer storage by the medium and be connected in thermo-conducting manner with the terminal heat exchanger；Institute The setting of terminal heat exchanger is stated on bed board or on mattress；The terminal heat exchanger is used to utilize the thermostatic condensation The energy that device and evaporator generate is to adjust the temperature of bed board or mattress.

In an alternative embodiment, the energy resource system further include: two or more heat exchangers in first With two or more heat exchangers in second；

The temperature-adjusting device passes through heat exchanger and the medium in corresponding described first and distributes buffer storage company It connects；

The terminal heat exchanger passes through heat exchanger in corresponding described second and connect with medium distribution buffer storage.

In an alternative embodiment, heat exchanger in described first further include: the first thermally conductive valve and second thermally conductive Valve, the first thermally conductive valve are used to control the temperature-adjusting device condenser and import the medium distribution buffer storage Energy；The second thermally conductive valve is used to control the temperature-adjusting device evaporator and imports the medium distribution buffer storage Energy；

Heat exchanger further includes the thermally conductive valve of third in described second, for controlling the terminal heat exchanger from the medium Distribute the energy that buffer storage imports.

It as shown in figure 16, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control method of system.This method, comprising:

Step S1601 obtains the measurement temperature of thermostatic condenser temperature, evaporator temperature, terminal heat exchanger The Current Temperatures of degree and medium distribution buffer storage；

Step S1602 adjusts the aperture of the first thermally conductive valve according to the condenser temperature and the Current Temperatures；With/ Or the aperture of the second thermally conductive valve is adjusted according to the evaporator temperature and the Current Temperatures；

Step 1603, the aperture of the thermally conductive valve of third is adjusted according to the measurement temperature and the Current Temperatures.

In an alternative embodiment, it in step S1602, is adjusted according to the condenser temperature and the Current Temperatures The aperture of first thermally conductive valve, comprising:

When the condenser temperature is less than the first set temperature, the first thermally conductive valve is closed；When the condenser Temperature is greater than or equal to the first set temperature, and the temperature of medium distribution buffer storage is greater than or equal to the second set temperature When, close the first thermally conductive valve.

In an alternative embodiment, in step S1602, according to the temperature of the evaporator and the Current Temperatures tune Save the aperture of the second thermally conductive valve, comprising:

When the temperature of the evaporator is greater than third set temperature, the second thermally conductive valve is closed；When the condensation The temperature of device is less than or equal to third set temperature, and the temperature of medium distribution buffer storage is greater than or equal to the second setting When temperature, the second thermally conductive valve is closed.

In an alternative embodiment, described according to the measurement temperature and the Current Temperatures tune in step S1603 Save the aperture of the thermally conductive valve of third, comprising:

When the temperature of medium distribution buffer storage is less than five set temperatures, the second thermally conductive valve is closed； When the temperature of medium distribution buffer storage is greater than or equal to the 5th set temperature, and the measurement temperature is more than or equal to the When four set temperatures, the second thermally conductive valve is closed.

It as shown in figure 17, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control device of system.The device, comprising: first acquisition unit 1701, second acquisition unit 1702, third acquiring unit 1703, 4th acquiring unit 1704 and control unit 1705.

Wherein, first acquisition unit 1701, for obtaining thermostatic condenser temperature；

Second acquisition unit 1702, for obtaining thermostatic evaporator temperature；

Third acquiring unit 1703, for obtaining the measurement temperature of terminal heat exchanger；

4th acquiring unit 1704, for obtaining the Current Temperatures of medium distribution buffer storage；

Control unit 1705 adjusts the aperture of the first thermally conductive valve according to the condenser temperature and the Current Temperatures； And/or the aperture of the second thermally conductive valve is adjusted according to the evaporator temperature and the Current Temperatures；And according to the measurement temperature Degree and the Current Temperatures adjust the aperture of the thermally conductive valve of third.

In embodiments of the present invention, energy resource system includes temperature-adjusting device, terminal heat exchanger and medium distribution caching dress It sets, terminal heat exchanger is arranged on bed board or on mattress, and terminal heat exchanger can use the thermostatic condenser The heat generated with evaporator is to adjust the temperature of bed board or mattress, in the case where meeting temperature-adjusting device and working normally, Medium distributes buffer storage and is used for the multiple thermostatic refrigerants of integrated dispatch, with the energy generated using temperature-adjusting device Amount adjusts the temperature of bed board or mattress, energy saving, and the operational efficiency of energy resource system is high.

In an alternative embodiment, control unit 1705, for when the condenser temperature is less than the first setting temperature When spending, the first thermally conductive valve is closed；When the condenser temperature is greater than or equal to the first set temperature, and the medium point When temperature with buffer storage is greater than or equal to the second set temperature, the first thermally conductive valve is closed.

In an alternative embodiment, control unit 1705, the temperature for distributing buffer storage when the medium are small When five set temperatures, the second thermally conductive valve is closed；When the temperature of medium distribution buffer storage is greater than or equal to 5th set temperature, and when the measurement temperature is greater than or equal to four set temperatures, close the second thermally conductive valve.

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

Obtain thermostatic condenser temperature, evaporator temperature, the measurement temperature of terminal heat exchanger and medium point Current Temperatures with buffer storage；

The aperture of the first thermally conductive valve is adjusted according to the condenser temperature and the Current Temperatures；And/or according to described Evaporator temperature and the Current Temperatures adjust the aperture of the second thermally conductive valve；

The aperture of the thermally conductive valve of third is adjusted according to the measurement temperature and the Current Temperatures.

It as shown in figure 18, is a kind of control method for energy resource system shown according to an exemplary embodiment.The energy Source system includes: temperature-adjusting device and terminal heat exchanger.The thermostatic condenser and evaporator pass through transfer Heat exchanger is connected in thermo-conducting manner with the terminal heat exchanger；The terminal heat exchanger setting is on bed board or on mattress； The energy that the terminal heat exchanger is used to generate using the thermostatic condenser and evaporator with adjust bed board or The temperature of mattress.The described method includes:

Step S1801 obtains the temperature set of energy resource system；The temperature set includes: environment temperature, the temperature tune The target temperature of regulating device, the thermostatic condenser temperature, the thermostatic evaporator temperature, institute State the measurement temperature of terminal heat exchanger and the target temperature of the terminal heat exchanger.

Step S1802 adjusts the working frequency of the thermostatic compressor according to the temperature set.

In embodiments of the present invention, energy resource system includes temperature-adjusting device and terminal heat exchanger, the setting of terminal heat exchanger On bed board or on mattress, terminal heat exchanger can use the heat of the thermostatic condenser generation to adjust bed The temperature of plate or mattress, integrated temperature set carry out comprehensive adjustment to energy resource system, improve energy system operation efficiency, guarantee In the case where meeting temperature-adjusting device and working normally, the energy adjustment bed board or mattress that are generated using temperature-adjusting device Temperature, it is energy saving.

In an alternative embodiment, the temperature-adjusting device is air-conditioning or refrigerator.

In an alternative embodiment, when the temperature-adjusting device is refrigerator, the environment temperature is that refrigerator is cold Hide the temperature of room；The working frequency that the thermostatic compressor is adjusted according to the temperature set, comprising:

When the measurement temperature of the terminal heat exchanger subtracts the target temperature of the terminal heat exchanger less than the first setting temperature When angle value, the working frequency of the thermostatic compressor is improved；

When the target temperature that the measurement temperature of the terminal heat exchanger subtracts the terminal heat exchanger is greater than or equal to second Set temperature value, and the temperature of the cold compartment of refrigerator subtracts the thermostatic target temperature less than third setting temperature When spending, the working frequency of the thermostatic compressor is reduced.

In an alternative embodiment, when the temperature-adjusting device is air-conditioning, the environment temperature is Indoor Temperature Degree；The working frequency that the thermostatic compressor is adjusted according to the temperature set, comprising:

When the measurement temperature of the terminal heat exchanger subtracts the target temperature of the terminal heat exchanger less than the first setting temperature When angle value, and when the thermostatic condenser temperature is less than setting condenser temperature, improves the temperature and adjust dress The working frequency for the compressor set；

When the target temperature that the measurement temperature of the terminal heat exchanger subtracts the terminal heat exchanger is greater than or equal to second Set temperature value, and in cooling mode, the room temperature subtracts the thermostatic target temperature less than third When set temperature, alternatively, when the terminal heat exchanger measurement temperature subtract the terminal heat exchanger target temperature be greater than or Equal to the second set temperature value, and in a heating mode, the room temperature subtracts the thermostatic target temperature When more than or equal to third set temperature, the working frequency of the thermostatic compressor is reduced.

It as shown in figure 19, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control device of system.The device, comprising: acquiring unit 1901 and adjusting unit 1902.

Wherein, acquiring unit 1901, for obtaining the temperature set of energy resource system；The temperature set includes: environment temperature Degree, thermostatic target temperature, the thermostatic condenser temperature, the thermostatic evaporation The target temperature of device temperature, the measurement temperature of terminal heat exchanger and the terminal heat exchanger；

Unit 1902 is adjusted, for adjusting the work frequency of the thermostatic compressor according to the temperature set Rate.

In an alternative embodiment, when the temperature-adjusting device is refrigerator, the environment temperature is that refrigerator is cold Hide the temperature of room.

Unit 1902 is adjusted, the target temperature of the terminal heat exchanger is subtracted for the measurement temperature when the terminal heat exchanger When degree is less than the first set temperature value, the working frequency of the thermostatic compressor is improved；

In an alternative embodiment, when the temperature-adjusting device is air-conditioning, the environment temperature is Indoor Temperature Degree.

Unit 1902 is adjusted, the target temperature of the terminal heat exchanger is subtracted for the measurement temperature when the terminal heat exchanger Degree less than the first set temperature value when, and the thermostatic condenser temperature be less than setting condenser temperature when, mention The working frequency of the high thermostatic compressor；It is changed when the measurement temperature of the terminal heat exchanger subtracts the terminal The target temperature of hot device is greater than or equal to the second set temperature value, and in cooling mode, the room temperature subtracts the temperature When spending the target temperature of regulating device less than third set temperature, alternatively, the measurement temperature when the terminal heat exchanger subtracts institute The target temperature for stating terminal heat exchanger is greater than or equal to the second set temperature value, and in a heating mode, the room temperature subtracts When the thermostatic target temperature being gone to be greater than or equal to third set temperature, the thermostatic pressure is reduced The working frequency of contracting machine.

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

Obtain the temperature set of energy resource system；The temperature set includes: environment temperature, the thermostatic mesh Mark temperature, the thermostatic condenser temperature, the thermostatic evaporator temperature, terminal heat exchange The target temperature of the measurement temperature of device and the terminal heat exchanger；

The working frequency of the thermostatic compressor is adjusted according to the temperature set.

It as shown in figure 20, is a kind of control method for energy resource system shown according to an exemplary embodiment.It is described Energy resource system includes: temperature-adjusting device and terminal heat exchanger.Temperature-adjusting device and terminal heat exchanger；The temperature adjusts dress The condenser and evaporator set are connected to by middle heat exchanger with the terminal heat exchanger in thermo-conducting manner；The terminal is changed Hot device setting is on bed board or on mattress；The terminal heat exchanger is used to utilize the thermostatic condenser and evaporation The energy that device generates is to adjust the temperature of bed board or mattress；The middle heat exchanger includes: thermally conductive valve, for controlling the end The heat for holding heat exchanger to generate using the thermostatic condenser；

The described method includes:

Step S2001, which comprises obtain the temperature set of energy resource system；The temperature set includes: environment temperature It is degree, the thermostatic target temperature, the thermostatic condenser temperature, described thermostatic The target temperature of evaporator temperature, the measurement temperature of the terminal heat exchanger and the terminal heat exchanger.

Step S2002 adjusts the aperture of the thermally conductive valve according to the temperature set.

In an alternative embodiment, when the temperature-adjusting device is refrigerator, the environment temperature is that refrigerator is cold Hide the temperature of room.Step S2002 adjusts the aperture of the thermally conductive valve according to the temperature set, comprising:

When the measurement temperature of the terminal heat exchanger subtracts the target temperature of the terminal heat exchanger less than the first setting temperature When angle value, and the temperature of the cold compartment of refrigerator subtracts the thermostatic target temperature less than third set temperature When, increase the aperture of the thermally conductive valve；When the measurement temperature of the terminal heat exchanger subtracts the target of the terminal heat exchanger Temperature is greater than or equal to the second set temperature value, reduces the aperture of the thermally conductive valve.

In an alternative embodiment, when the temperature-adjusting device is air-conditioning, the environment temperature is Indoor Temperature Degree.Step S2002 adjusts the aperture of the thermally conductive valve according to the temperature set, comprising:

When the target temperature that the measurement temperature of the terminal heat exchanger subtracts the terminal heat exchanger is greater than or equal to second Set temperature value reduces the aperture of the thermally conductive valve；

When the measurement temperature of the terminal heat exchanger subtracts the target temperature of the terminal heat exchanger less than the first setting temperature Angle value, and in cooling mode, the room temperature subtracts the thermostatic target temperature less than third setting temperature When spending, increase the aperture of the thermally conductive valve；When the measurement temperature of the terminal heat exchanger subtracts the mesh of the terminal heat exchanger Temperature is marked less than the first set temperature value, and in a heating mode, the room temperature subtracts the thermostatic mesh When marking temperature more than or equal to third set temperature, increase the aperture of the thermally conductive valve.

It as shown in figure 21, is a kind of energy system for being provided in previous embodiment shown according to an exemplary embodiment The control device of system.The device, comprising: first acquisition unit 2101 and adjusting unit 2102.

Wherein, acquiring unit 2101, for obtaining the temperature set of energy resource system；The temperature set includes: environment temperature Degree, thermostatic target temperature, the thermostatic condenser temperature, terminal heat exchanger measurement temperature and The target temperature of the terminal heat exchanger.

Unit 2102 is adjusted, for adjusting the aperture of thermally conductive valve according to the temperature set.

The adjusting unit 2102 subtracts the mesh of the terminal heat exchanger for the measurement temperature when the terminal heat exchanger When marking temperature less than the first set temperature value, and the temperature of the cold compartment of refrigerator subtracts the thermostatic target temperature When degree is less than third set temperature, increase the aperture of the thermally conductive valve；When the measurement temperature of the terminal heat exchanger subtracts institute The target temperature for stating terminal heat exchanger is greater than or equal to the second set temperature value, reduces the aperture of the thermally conductive valve.

The adjusting unit 2102 subtracts the mesh of the terminal heat exchanger for the measurement temperature when the terminal heat exchanger It marks temperature and is greater than or equal to the second set temperature value, reduce the aperture of the thermally conductive valve；

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

Obtain the temperature set of energy resource system；The temperature set includes: environment temperature, thermostatic target temperature The measurement of degree, the thermostatic condenser temperature, the thermostatic evaporator temperature, terminal heat exchanger The target temperature of temperature and the terminal heat exchanger；

The aperture that the temperature adjusts thermally conductive valve is adjusted according to the temperature set.

It should be understood that the invention is not limited to the process and structure that are described above and are shown in the accompanying drawings, And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is only limited by the attached claims System.

Claims

1. a kind of energy resource system, which is characterized in that the energy resource system includes: a temperature-adjusting device, first transfer Heat exchanger, heat exchanger and two or more terminal heat exchangers in one second；Heat exchanger includes one in described first A first energy inlet and two or more the first energy release ends；Heat exchanger includes one second in described second Energy inlet and two or more the second energy release ends；

Alternatively, two or more temperature-adjusting devices, heat exchanger in one first, heat exchanger and one in one second A terminal heat exchanger；Heat exchanger includes two or more the first energy inlets and first energy in described first Release end；Heat exchanger includes two or more the second energy inlets and the second energy release in described second End；

Heat exchanger is connect by the first energy inlet with the thermostatic condenser in described first；Institute Heat exchanger in first is stated to connect by the first energy release end with the terminal heat exchanger；

Heat exchanger is connect by the second energy inlet with the thermostatic evaporator in described second；Institute Heat exchanger in second is stated to connect by the second energy release end with the terminal heat exchanger；

The terminal heat exchanger setting is on bed board or on mattress；The terminal heat exchanger is used to utilize the temperature-adjusting device Condenser and the energy that generates of evaporator to adjust the temperature of bed board or mattress.

2. energy resource system according to claim 1, which is characterized in that heat exchanger includes: first in each described first Energy imports valve and the first energy release valve；In each described second heat exchanger include: the second energy import valve and Second energy release valve；

First energy imports valve, the heat imported for controlling the first energy inlet from the temperature-adjusting device Amount；

The first energy release valve is discharged for controlling the first energy release end to the heat of the terminal heat exchanger Amount；

Second energy imports valve, imports for controlling the second energy inlet from the temperature-adjusting device cold Amount；

The second energy release valve, for control the second energy release end discharge it is cold to the terminal heat exchanger Amount.

3. a kind of control method for energy resource system characterized by comprising

Determine that the first energy imports the total aperture of valve and the release of the first energy according to the condenser temperature and the measurement temperature The total aperture of valve, and determine that the second energy imports the total aperture of valve and second according to the evaporator temperature and the measurement temperature The total aperture of energy release valve；

The aperture that each first energy of the total aperture regulation of valve imports valve is imported according to first energy；And/or according to institute State the aperture of the first each first energy release valve of the total aperture regulation of energy release valve；

The aperture that each second energy of the total aperture regulation of valve imports valve is imported according to second energy；And/or according to institute State the aperture of the second each second energy release valve of the total aperture regulation of energy release valve.

4. according to the method described in claim 3, it is characterized in that, described import the total aperture tune of valve according to first energy Save the aperture that each first energy imports valve, comprising:

When there is a temperature-adjusting device, the aperture that the first energy of control imports valve is that first energy importing valve is total Aperture；When there are two or when more than two temperature-adjusting device, according to each thermostatic condenser temperature and First energy imports the aperture that each first energy of the total aperture regulation of valve imports valve；

It is described that the aperture that each second energy of the total aperture regulation of valve imports valve is imported according to second energy, comprising:

When there is a temperature-adjusting device, the aperture that the second energy of control imports valve is that second energy importing valve is total Aperture；When there are two or when more than two temperature-adjusting device, according to each thermostatic evaporator temperature and Second energy imports the aperture that each second energy of the total aperture regulation of valve imports valve.

5. according to the method described in claim 3, it is characterized in that, described according to the total aperture tune of the first energy release valve Save the aperture of each first energy release valve, comprising:

When there is a terminal heat exchanger, the aperture of the first energy release valve of control is that the first energy release valve is always opened Degree；When there are two or when more than two terminal heat exchanger, according to the measurement temperature and described first of each terminal heat exchanger The aperture of each first energy release valve of the total aperture regulation of energy release valve；

The aperture according to each second energy release valve of the total aperture regulation of the second energy release valve, comprising:

When there is a terminal heat exchanger, the aperture of the second energy release valve of control is that the second energy release valve is always opened Degree；When there are two or when more than two terminal heat exchanger, according to the measurement temperature and described second of each terminal heat exchanger The aperture of each second energy release valve of the total aperture regulation of energy release valve.

6. a kind of control device for energy resource system, which is characterized in that

First acquisition unit, for obtaining thermostatic condenser temperature；

Second acquisition unit, for obtaining thermostatic evaporator temperature；

Determination unit, for according to the condenser temperature and the measurement temperature determine the first energy import the total aperture of valve and The first total aperture of energy release valve, and determine that the second energy imports valve according to the evaporator temperature and the measurement temperature Total aperture and the second total aperture of energy release valve；

Control unit imports opening for valve for importing each first energy of the total aperture regulation of valve according to first energy Degree；And/or the aperture according to each first energy release valve of the total aperture regulation of the first energy release valve；

7. device according to claim 6, which is characterized in that described control unit has a temperature to adjust dress for working as When setting, the aperture that the first energy of control imports valve is that first energy imports the total aperture of valve；When there are two or two with When upper temperature-adjusting device, it is total that valve is imported according to each thermostatic condenser temperature and first energy Each first energy of aperture regulation imports the aperture of valve；When there is a temperature-adjusting device, the second energy of control imports valve The aperture of door is that second energy imports the total aperture of valve；When there are two or when more than two temperature-adjusting device, according to every A thermostatic condenser temperature and second energy import each second energy of the total aperture regulation of valve and lead Enter the aperture of valve.

8. device according to claim 6, which is characterized in that described control unit has a terminal heat exchanger for working as When, the aperture of the first energy release valve of control is the total aperture of the first energy release valve；When there are two or it is more than two When terminal heat exchanger, according to the measurement temperature of each terminal heat exchanger and the total aperture regulation of the first energy release valve The aperture of each first energy release valve；When there is a terminal heat exchanger, the aperture of the second energy release valve of control is The total aperture of second energy release valve；When there are two or when more than two terminal heat exchanger, changed according to each terminal The aperture of the measurement temperature of hot device and each second energy release valve of the total aperture regulation of the second energy release valve.

9. a kind of energy resource system, which is characterized in that the energy resource system includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

10. a kind of computer readable storage medium, is stored thereon with computer instruction, which is characterized in that the instruction is by processor The step of any one of claim 3 to 5 the method is realized when execution.