CN109764394A - A kind of control method and control device of energy resource system - Google Patents

Abstract

The invention discloses a kind of control method of energy resource system and control devices, belong to energy field.This method comprises: determining the aperture of the first thermally conductive valve and the second thermally conductive valve；According to the aperture of the first thermally conductive valve, the first thermally conductive valve is controlled；According to the aperture of the second thermally conductive valve, the second thermally conductive valve is controlled.The device comprises determining that module, for determining the aperture of the first thermally conductive valve and the second thermally conductive valve；First control module controls the first thermally conductive valve for the aperture according to the first thermally conductive valve；Second control module controls the second thermally conductive valve for the aperture according to the second thermally conductive valve.Wherein, the aperture of the first thermally conductive valve and the second thermally conductive valve each depends on mattress surface temperature and set temperature, by the control of mattress surface temperature in the set temperature of user, can heat and can freeze, realize the flexible modulation to mattress surface temperature.Meanwhile the heat of household electrical appliance discharge and cooling capacity being recycled, energy conservation and environmental protection.

Description

A kind of control method and control device of energy resource system

Technical field

The present invention relates to energy technology field, in particular to the control method and control device of a kind of energy resource system.

Background technique

In general home environment, there can be a variety of household electrical appliance, and a plurality of types of household electrical appliance often have difference Function, and all refer to the conversion of heat.It, can be to outdoor discharge heat, when refrigeration for refrigerator for example, air-conditioning is in cooling mode Also heat is had to be expelled in environment, the discharged heat in this part is not utilized, great energy waste is caused, and Exacerbate global warming.Equally, a variety of household electrical appliance also have cooling capacity discharge in the process of running, if air-conditioning is in heating mould It, can be to outdoor discharge cooling capacity under formula.

When temperature is low, user's sleep can use electric blanket, and electric blanket not only power consumption can also generate electromagnetic radiation, and have Some potential safety problems；And common electric blanket can only realize heating, when temperature is high, not can be carried out refrigeration, cannot according to The demand at family adjusts temperature.

Summary of the invention

The embodiment of the invention provides a kind of control method of energy resource system and control devices.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 control method of energy resource system, the energy resource system are provided Including heat storage sites and cooling capacity storage sites, the heat storage sites pass through heat exchanger and temperature control mattress in first and exchange heat, institute The junction for stating heat exchanger in temperature control mattress and described first is provided with the first thermally conductive valve；The cooling capacity storage sites pass through the Heat exchanger and the temperature control mattress exchange heat in two, and the junction of heat exchanger is provided in the temperature control mattress and described second Second thermally conductive valve；The control method comprises determining that the aperture of the described first thermally conductive valve and the second thermally conductive valve；Root According to the aperture of the described first thermally conductive valve, the first thermally conductive valve is controlled；According to the aperture of the described second thermally conductive valve, control The second thermally conductive valve；Wherein, the aperture of the described first thermally conductive valve and the second thermally conductive valve each depends on mattress table Face temperature and set temperature.

The heat that household electrical appliance are discharged can be collected and store and by the middle heat exchanger by the heat storage sites Heat is provided for the temperature control mattress, the cooling capacity that household electrical appliance are discharged can be collected and store and pass through by the cooling capacity storage sites The middle heat exchanger provides cooling capacity for the temperature control mattress.The middle heat exchanger can be to from heat storage sites or described The medium temp that cooling capacity storage sites are oriented to the temperature control mattress is adjusted, and makes the heat or described cold in the heat storage sites Cooling capacity in amount storage sites can be normally transferred to the temperature control mattress, carry out heat supply or cooling supply to the temperature control mattress, lead to It crosses and the described first thermally conductive valve and the second thermally conductive valve is adjusted, it can be to the mattress surface temperature of the temperature control mattress Neatly adjusted.

Optionally, when mattress surface temperature is less than set temperature, the aperture of the second thermally conductive valve is zero；Described The aperture of one thermally conductive valve and the difference of the mattress surface temperature and the set temperature are positively correlated.

When mattress surface temperature is less than set temperature, only need to carry out the temperature control mattress heat supply at this time, described the The aperture of two thermally conductive valves is zero, and the second thermally conductive valve is closed；The difference of the mattress surface temperature and the set temperature Value is bigger, and the aperture of the first thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is less than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the first thermally conductive valve is V₁；When the difference of mattress surface temperature and set temperature is T₂When, described first leads The aperture of thermal valve door is V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the first thermally conductive valve is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is less than set temperature, the difference of mattress surface temperature and set temperature is bigger, and described first The aperture of thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, the aperture of the first thermally conductive valve is zero；Described The aperture of two thermally conductive valves and the difference of the mattress surface temperature and the set temperature are positively correlated.

When mattress surface temperature is greater than set temperature, only need to carry out the temperature control mattress cooling supply at this time, described the The aperture of one thermally conductive valve is zero, and the first thermally conductive valve is closed；The difference of the mattress surface temperature and the set temperature Value is bigger, and the aperture of the second thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the second thermally conductive valve is V₁；When the difference of mattress surface temperature and set temperature is T₂When, described second leads The aperture of thermal valve door is V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the second thermally conductive valve is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is greater than set temperature, the difference of mattress surface temperature and set temperature is bigger, and described second The aperture of thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is equal to set temperature, the first thermally conductive valve and the second thermally conductive valve The aperture of door is zero, i.e., the described first thermally conductive valve and the second thermally conductive valve are in closed state.Work as mattress surface When temperature is again less than set temperature, the aperture and the mattress surface temperature and the set temperature of the first thermally conductive valve Difference be positively correlated.When mattress surface temperature is greater than set temperature again, the aperture of the second thermally conductive valve with it is described The difference of mattress surface temperature and the set temperature is positively correlated.

Optionally, T₁Value be greater than or equal to 11 DEG C, when the difference of mattress surface temperature and set temperature is greater than or waits When 11 DEG C, the aperture of the first thermally conductive valve or the second thermally conductive valve is V₁, so that the mattress surface temperature is fast Speed reaches the set temperature of user, to user with comfortable temperature.

Optionally, T₂Value be 4 DEG C~10 DEG C, when the difference of mattress surface temperature and set temperature be 4 DEG C~10 DEG C When, the aperture of the first thermally conductive valve or the second thermally conductive valve is V₂, V₂Less than V₁, on effectively regulating mattress surface While temperature, energy consumption is reduced.

Optionally, T₃Value be 1 DEG C~3 DEG C, when the difference of mattress surface temperature and set temperature be 1 DEG C~3 DEG C when, The aperture of the first thermally conductive valve or the second thermally conductive valve is V₃, V₃Less than V₂, in effectively regulating mattress surface temperature While, reduce energy consumption.

Optionally, V₁For the described first thermally conductive valve or the maximum opening of the second thermally conductive valve, when mattress surface temperature The difference of degree and set temperature is T₁When, the aperture of the described first thermally conductive valve or the second thermally conductive valve is adjusted to maximum and is opened Degree, so that the mattress surface temperature is rapidly achieved the set temperature of user.

According to a second aspect of the embodiments of the present invention, a kind of control device of energy resource system is provided, comprising: determining module, For determining the aperture of the first thermally conductive valve and the second thermally conductive valve；First control module, for according to the described first thermally conductive valve The aperture of door controls the first thermally conductive valve；Second control module, for the aperture according to the described second thermally conductive valve, control Make the described second thermally conductive valve；Wherein, the aperture of the described first thermally conductive valve and the second thermally conductive valve each depends on mattress Mattress surface temperature is controlled the set temperature in user by surface temperature and set temperature.

The energy resource system includes heat storage sites and cooling capacity storage sites, and the heat storage sites pass through transition heat in first Device and temperature control mattress exchange heat, and the junction of heat exchanger is provided with the first thermally conductive valve in the temperature control mattress and described first； The cooling capacity storage sites pass through heat exchanger and the temperature control mattress in second and exchange heat, the temperature control mattress and second transfer The junction of heat exchanger is provided with the second thermally conductive valve.

The heat that household electrical appliance are discharged can be collected and store and by the middle heat exchanger by the heat storage sites Heat is provided for the temperature control mattress, the cooling capacity that household electrical appliance are discharged can be collected and store and pass through by the cooling capacity storage sites The middle heat exchanger provides cooling capacity for the temperature control mattress.The middle heat exchanger can be to from heat storage sites or described The medium temp that cooling capacity storage sites are oriented to the temperature control mattress is adjusted, and makes the heat or described cold in the heat storage sites Cooling capacity in amount storage sites can be normally transferred to the temperature control mattress, carry out heat supply or cooling supply to the temperature control mattress, lead to It crosses and the described first thermally conductive valve and the second thermally conductive valve is adjusted, it can be to the mattress surface temperature of the temperature control mattress Neatly adjusted.

Optionally, when mattress surface temperature is less than set temperature, the aperture of the second thermally conductive valve is zero；Described The aperture of one thermally conductive valve and the difference of the mattress surface temperature and the set temperature are positively correlated.

When mattress surface temperature is less than set temperature, only need to carry out the temperature control mattress heat supply at this time, described the The aperture of two thermally conductive valves is zero, and the second thermally conductive valve is closed；The difference of the mattress surface temperature and the set temperature Value is bigger, and the aperture of the first thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is less than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the first thermally conductive valve is V₁；When the difference of mattress surface temperature and set temperature is T₂When, described first leads The aperture of thermal valve door is V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the first thermally conductive valve is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is less than set temperature, the difference of mattress surface temperature and set temperature is bigger, and described first The aperture of thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, the aperture of the first thermally conductive valve is zero；Described The aperture of two thermally conductive valves and the difference of the mattress surface temperature and the set temperature are positively correlated.

When mattress surface temperature is greater than set temperature, only need to carry out the temperature control mattress cooling supply at this time, described the The aperture of one thermally conductive valve is zero, and the first thermally conductive valve is closed；The difference of the mattress surface temperature and the set temperature Value is bigger, and the aperture of the second thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the second thermally conductive valve is V₁；When the difference of mattress surface temperature and set temperature is T₂When, described second leads The aperture of thermal valve door is V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the second thermally conductive valve is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is greater than set temperature, the difference of mattress surface temperature and set temperature is bigger, and described second The aperture of thermally conductive valve is bigger, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is equal to set temperature, the first thermally conductive valve and the second thermally conductive valve The aperture of door is zero, i.e., the described first thermally conductive valve and the second thermally conductive valve are in closed state.Work as mattress surface When temperature is again less than set temperature, the aperture and the mattress surface temperature and the set temperature of the first thermally conductive valve Difference be positively correlated.When mattress surface temperature is greater than set temperature again, the aperture of the second thermally conductive valve with it is described The difference of mattress surface temperature and the set temperature is positively correlated.

Optionally, T₁Value be greater than or equal to 11 DEG C, when the difference of mattress surface temperature and set temperature is greater than or waits When 11 DEG C, the aperture of the first thermally conductive valve or the second thermally conductive valve is V₁, so that the mattress surface temperature is fast Speed reaches the set temperature of user, to user with comfortable temperature.

Optionally, T₂Value be 4 DEG C~10 DEG C, when the difference of mattress surface temperature and set temperature be 4 DEG C~10 DEG C When, the aperture of the first thermally conductive valve or the second thermally conductive valve is V₂, V₂Less than V₁, on effectively regulating mattress surface While temperature, energy consumption is reduced.

Optionally, T₃Value be 1 DEG C~3 DEG C, when the difference of mattress surface temperature and set temperature be 1 DEG C~3 DEG C when, The aperture of the first thermally conductive valve or the second thermally conductive valve is V₃, V₃Less than V₂, in effectively regulating mattress surface temperature While, reduce energy consumption.

Optionally, V₁For the described first thermally conductive valve or the maximum opening of the second thermally conductive valve, when mattress surface temperature The difference of degree and set temperature is T₁When, the aperture of the described first thermally conductive valve or the second thermally conductive valve is adjusted to maximum and is opened Degree, so that the mattress surface temperature is rapidly achieved the set temperature of user.

Technical solution provided in an embodiment of the present invention can include the following benefits:

In the embodiment of the present invention, the aperture of the first thermally conductive valve and the second thermally conductive valve be according to mattress surface temperature and What the set temperature of user determined, the first thermally conductive valve and the second thermally conductive valve are adjusted according to the aperture of the determination, from And the control of mattress surface temperature can be heated, and can freeze, be realized to mattress surface temperature in the set temperature of user Flexible modulation.Meanwhile being recycled the heat of household electrical appliance discharge and cooling capacity, the waste of the energy is reduced, energy conservation Environmental protection.

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 energy resource system shown according to an exemplary embodiment；

Fig. 2 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment；

Fig. 3 is a kind of block diagram of the control device of energy resource system shown according to an exemplary embodiment；

Description of symbols: 1- heat storage sites, 2- cooling capacity storage sites, heat exchanger in 3- first, 4- temperature control mattress, 5- First thermally conductive valve, heat exchanger in 6- second, the thermally conductive valve of 7- second, 8- thermal input, the first equipment of 9-, 10- thermal energy Output end, 11- intake line, 12- output pipe, 13- absorption edge, 14- release end.

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.Embodiment only represents possible variation.Unless explicitly requested, otherwise individual components and functionality is optional, and And the sequence of operation can change.The part of some embodiments and feature can be included in or replace other embodiments Part and feature.The range of embodiment of the present invention includes the entire scope of claims and the institute of claims There is obtainable equivalent.Herein, each embodiment can individually or generally be indicated that this is only with term " invention " It is merely for convenience, and if in fact disclosing the invention more than one, it is not meant to automatically limit the range of the application For any single invention or inventive concept.Herein, relational terms such as first and second and the like are used only for one Entity, which is perhaps operated, to be distinguished and exists without requiring or implying between these entities or operation with another entity or operation Any actual relationship or sequence.Moreover, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method or equipment not only include those elements, but also including Other elements that are not explicitly listed.Each embodiment herein is described in a progressive manner, and each embodiment stresses Be the difference from other embodiments, the same or similar parts in each embodiment may refer to each other.For implementing For structure, product etc. disclosed in example, since it is corresponding with part disclosed in embodiment, so being described relatively simple, phase Place is closed referring to method part illustration.

In addition, in description herein, " difference of mattress surface temperature and set temperature " refer to mattress surface temperature and The temperature absolute value of the difference of set temperature.

Fig. 1 is a kind of structural schematic diagram of energy resource system shown according to an exemplary embodiment.

As shown in Figure 1, energy resource system includes heat storage sites 1, the concrete form of heat storage sites 1 is not limited, main Function is storage heat, interior to have the energy-accumulation material that store heat, and guarantees 1 adiabatic heat-insulation of heat storage sites. Heat storage sites 1 can be the cabinet of an adiabatic heat-insulation, interior to fill energy-accumulation material.It is also possible to one dug on the ground The inner wall of storage pool is carried out adiabatic heat-insulation processing by a storage pool.

Energy resource system further includes cooling capacity storage sites 2, and the concrete form of cooling capacity storage sites 2 does not limit, and major function is to deposit Cooling capacity is stored up, it is interior that there is the energy-accumulation material that can store cooling capacity, and guarantee that cooling capacity storage sites 2 are kept the temperature.

Energy resource system includes heat storage sites 1 and cooling capacity storage sites 2, heat storage sites 1 by heat exchanger 3 in first with Temperature control mattress 4 exchanges heat, and the junction of heat exchanger 3 is provided with the first thermally conductive valve 5 in temperature control mattress 4 and first；Cooling capacity storage It stands and 2 is exchanged heat by heat exchanger 6 in second and temperature control mattress 4, the junction of heat exchanger 6 is arranged in temperature control mattress 4 and second There is the second thermally conductive valve 7.

Heat storage sites 1 include thermal input 8, for absorbing the heat that can generate the first equipment 9 of heat；Also wrap Heat energy output end 10 is included, for discharging heat to temperature control mattress 4.Herein, when the first equipment 9 can be refrigerator, air conditioner refrigerating Air-conditioner outdoor unit, air energy compressor, solar energy heating temperature equipment, mobile robot heat release charger etc..

Intake line 11 and output are provided with and communicated in heat energy output end 10 and first between the absorption edge 13 of heat exchanger 3 Pipeline 12, the release end 14 of heat exchanger 3 is connected with temperature control mattress 4 in first.Heat exchanger 3 includes absorption edge in first 13, for being connected to heat storage sites 1, and, release end 14, for being connected to temperature control mattress 4.3 pairs of heat of heat exchanger in first Energy between amount storage sites 1 and temperature control mattress 4 has converted transfer effect.

Absorption edge 13 specifically uses heat-exchanger rig, e.g., plate heat exchanger, evaporator or heat exchange coil etc..Release end 14 Specifically using heat-exchanger rig, e.g., plate heat exchanger, condenser, alternatively, heat exchange coil etc..

In the middle heat exchanger of the embodiment of the present invention, the heat-exchanger rig of the heat-exchanger rig of absorption edge 13 and release end 14 can be with It is separately provided, e.g., when using plate heat exchanger, the two is oppositely arranged and (can contact or do not contact), guarantees that heat exchange area maximizes； When using heat exchange coil, make the interlaced setting of the coil portions of the two (can contact or do not contact), guarantees effectively to exchange heat.Or Person, the heat-exchanger rig of absorption edge 13 and the heat-exchanger rig design of release end 14 are integrated.Set-up mode does not limit, as long as realizing, The heat-exchanger rig of absorption edge 13 and the heat-exchanger rig of release end 14 are able to carry out heat transmitting.

Fig. 2 is a kind of flow diagram of the control method of energy resource system shown according to an exemplary embodiment.

As shown in Fig. 2, energy resource system includes heat storage sites 1 the present invention provides a kind of control method of energy resource system With cooling capacity storage sites 2, heat storage sites 1 pass through heat exchanger 3 and temperature control mattress 4 in first and exchange heat, in temperature control mattress 4 and first The junction of heat exchanger 3 is provided with the first thermally conductive valve 5；Cooling capacity storage sites 2 pass through heat exchanger 6 and temperature control mattress in second 4 exchange heat, and the junction of heat exchanger 6 is provided with the second thermally conductive valve 7 in temperature control mattress 4 and second；Control method includes:

S101 determines the aperture of the first thermally conductive valve 5 and the second thermally conductive valve 7；

S102 controls the first thermally conductive valve 5 according to the aperture of the first thermally conductive valve 5；

S103 controls the second thermally conductive valve 7 according to the aperture of the second thermally conductive valve 7；

Wherein, the aperture of the first thermally conductive valve 5 and the second thermally conductive valve 7 each depends on mattress surface temperature and setting temperature Degree.

The heat that household electrical appliance are discharged can be collected by heat storage sites 1 to be stored and is temperature controlled bed by middle heat exchanger Pad 4 provides heat, and the cooling capacity that household electrical appliance are discharged can be collected by cooling capacity storage sites 2 to be stored and be temperature by middle heat exchanger It controls mattress 4 and cooling capacity is provided.Middle heat exchanger can be to the medium temperature for being oriented to temperature control mattress 4 from heat storage sites 1 or cooling capacity storage sites 2 Degree is adjusted, and the cooling capacity in heat or the cooling capacity storage sites 2 in heat storage sites 1 is enable to be normally transferred to temperature control mattress 4, heat supply is carried out to temperature control mattress 4 or cooling supply can be to temperature by the way that the first thermally conductive valve 5 and the second thermally conductive valve 7 are adjusted The mattress surface temperature of control mattress 4 is neatly adjusted.

Optionally, when mattress surface temperature is less than set temperature, the aperture of the second thermally conductive valve 7 is zero；First is thermally conductive The aperture of valve 5 and the difference of mattress surface temperature and set temperature are positively correlated.

When mattress surface temperature is less than set temperature, only need to carry out heat supply, the second thermally conductive valve to temperature control mattress 4 at this time The aperture of door 7 is zero, and the second thermally conductive valve 7 is closed；The difference of mattress surface temperature and set temperature is bigger, the first thermally conductive valve 5 aperture is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is less than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the first thermally conductive valve 5 is V₁；When the difference of mattress surface temperature and set temperature is T₂When, the first thermally conductive valve 5 Aperture be V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the first thermally conductive valve 5 is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is less than set temperature, the difference of mattress surface temperature and set temperature is bigger, and first is thermally conductive The aperture of valve 5 is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, the aperture of the first thermally conductive valve 5 is zero；Second is thermally conductive The aperture of valve 7 and the difference of mattress surface temperature and set temperature are positively correlated.

When mattress surface temperature is greater than set temperature, only need to carry out cooling supply, the first thermally conductive valve to temperature control mattress 4 at this time The aperture of door 5 is zero, and the first thermally conductive valve 5 is closed；The difference of mattress surface temperature and set temperature is bigger, the second thermally conductive valve 7 aperture is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the second thermally conductive valve 7 is V₁；When the difference of mattress surface temperature and set temperature is T₂When, the second thermally conductive valve 7 Aperture be V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the second thermally conductive valve 7 is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is greater than set temperature, the difference of mattress surface temperature and set temperature is bigger, and second is thermally conductive The aperture of valve 7 is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is equal to set temperature, the first thermally conductive valve 5 and the second thermally conductive valve 7 are opened Degree is zero, i.e., the first thermally conductive valve 5 and the second thermally conductive valve 7 are in closed state.When mattress surface temperature again less than When set temperature, the difference of the aperture and mattress surface temperature and set temperature of the first thermally conductive valve 5 is positively correlated.When mattress table When face temperature is greater than set temperature again, the difference of the aperture of the second thermally conductive valve 7 and mattress surface temperature and set temperature at It is positively correlated.

Optionally, T₁Value be greater than or equal to 11 DEG C, when the difference of mattress surface temperature and set temperature is greater than or waits When 11 DEG C, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₁, so that mattress surface temperature is rapidly achieved user Set temperature, to user with comfortable temperature.More specifically, T₁Value be 11 DEG C or 15 DEG C or 20 DEG C or 25 DEG C, or At 30 DEG C or 35 DEG C or 40 DEG C, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₁, so that mattress surface temperature It is more rapidly achieved the set temperature of user, to user with comfortable temperature.

Optionally, T₂Value be 4 DEG C~10 DEG C, when the difference of mattress surface temperature and set temperature be 4 DEG C~10 DEG C When, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₂, V₂Less than V₁, in effectively regulating mattress surface temperature Meanwhile reducing energy consumption.More specifically, T₂Value be 4 DEG C or 6 DEG C or 8 DEG C or 10 DEG C when, the first thermally conductive valve 5 or the second The aperture of thermally conductive valve 7 is V₂, V₂Less than V₁, while effectively regulating mattress surface temperature, energy is reduced to the maximum extent Consumption.

Optionally, T₃Value be 1 DEG C~3 DEG C, when the difference of mattress surface temperature and set temperature be 1 DEG C~3 DEG C when, The aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₃, V₃Less than V₂, in the same of effectively regulating mattress surface temperature When, reduce energy consumption.More specifically, T₃Value be 1 DEG C or 2 DEG C or 3 DEG C when, determine that the first thermally conductive valve 5 or the second is thermally conductive The aperture of valve 7 is V₃, V₃Less than V₂, while effectively regulating mattress surface temperature, energy consumption is reduced to the maximum extent.

Optionally, V₁For the maximum opening of the first thermally conductive valve 7 of thermally conductive valve 5 or the second, when mattress surface temperature with set The difference for determining temperature is T₁When, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is adjusted to maximum opening, so that mattress Surface temperature is rapidly achieved the set temperature of user.

Fig. 3 is a kind of block diagram of the control device of energy resource system shown according to an exemplary embodiment.

As shown in figure 3, the present invention also provides a kind of control devices 200 of energy resource system, comprising: determining module 210 is used for Determine the aperture of the first thermally conductive valve 5 and the second thermally conductive valve 7；First control module 220, for according to the first thermally conductive valve 5 Aperture, control the first thermally conductive valve 5；Second control module 230, for the aperture according to the second thermally conductive valve 7, control second Thermally conductive valve 7；Wherein, the aperture of the first thermally conductive valve 5 and the second thermally conductive valve 7 each depends on mattress surface temperature and setting temperature Mattress surface temperature is controlled the set temperature in user by degree.

The heat that household electrical appliance are discharged can be collected by heat storage sites 1 to be stored and is temperature controlled bed by middle heat exchanger Pad 4 provides heat, and the cooling capacity that household electrical appliance are discharged can be collected by cooling capacity storage sites 2 to be stored and be temperature by middle heat exchanger It controls mattress 4 and cooling capacity is provided.Middle heat exchanger can be to the medium temperature for being oriented to temperature control mattress 4 from heat storage sites 1 or cooling capacity storage sites 2 Degree is adjusted, and the cooling capacity in heat or the cooling capacity storage sites 2 in heat storage sites 1 is enable to be normally transferred to temperature control mattress 4, heat supply is carried out to temperature control mattress 4 or cooling supply can be to temperature by the way that the first thermally conductive valve 5 and the second thermally conductive valve 7 are adjusted The mattress surface temperature of control mattress 4 is neatly adjusted.

Optionally, when mattress surface temperature is less than set temperature, the aperture of the second thermally conductive valve 7 is zero；First is thermally conductive The aperture of valve 5 and the difference of mattress surface temperature and set temperature are positively correlated.

When mattress surface temperature is less than set temperature, only need to carry out heat supply, the second thermally conductive valve to temperature control mattress 4 at this time The aperture of door 7 is zero, and the second thermally conductive valve 7 is closed；The difference of mattress surface temperature and set temperature is bigger, the first thermally conductive valve 5 aperture is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is less than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the first thermally conductive valve 5 is V₁；When the difference of mattress surface temperature and set temperature is T₂When, the first thermally conductive valve 5 Aperture be V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the first thermally conductive valve 5 is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is less than set temperature, the difference of mattress surface temperature and set temperature is bigger, and first is thermally conductive The aperture of valve 5 is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, the aperture of the first thermally conductive valve 5 is zero；Second is thermally conductive The aperture of valve 7 and the difference of mattress surface temperature and set temperature are positively correlated.

When mattress surface temperature is greater than set temperature, only need to carry out cooling supply, the first thermally conductive valve to temperature control mattress 4 at this time The aperture of door 5 is zero, and the first thermally conductive valve 5 is closed；The difference of mattress surface temperature and set temperature is bigger, the second thermally conductive valve 7 aperture is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is greater than set temperature, when the difference of mattress surface temperature and set temperature is T₁ When, the aperture of the second thermally conductive valve 7 is V₁；When the difference of mattress surface temperature and set temperature is T₂When, the second thermally conductive valve 7 Aperture be V₂；When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the second thermally conductive valve 7 is V₃；Wherein, T₃< T₂< T₁；V₃< V₂< V₁。

When mattress surface temperature is greater than set temperature, the difference of mattress surface temperature and set temperature is bigger, and second is thermally conductive The aperture of valve 7 is bigger, so that mattress surface temperature is rapidly achieved the set temperature of user.

Optionally, when mattress surface temperature is equal to set temperature, the first thermally conductive valve 5 and the second thermally conductive valve 7 are opened Degree is zero, i.e., the first thermally conductive valve 5 and the second thermally conductive valve 7 are in closed state.When mattress surface temperature again less than When set temperature, the difference of the aperture and mattress surface temperature and set temperature of the first thermally conductive valve 5 is positively correlated.When mattress table When face temperature is greater than set temperature again, the difference of the aperture of the second thermally conductive valve 7 and mattress surface temperature and set temperature at It is positively correlated.

Optionally, T₁Value be greater than or equal to 11 DEG C, when the difference of mattress surface temperature and set temperature is greater than or waits When 11 DEG C, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₁, so that mattress surface temperature is rapidly achieved user Set temperature, to user with comfortable temperature.More specifically, T₁Value be 11 DEG C or 15 DEG C or 20 DEG C or 25 DEG C, or At 30 DEG C or 35 DEG C or 40 DEG C, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₁, so that mattress surface temperature It is more rapidly achieved the set temperature of user, to user with comfortable temperature.

Optionally, T₂Value be 4 DEG C~10 DEG C, when the difference of mattress surface temperature and set temperature be 4 DEG C~10 DEG C When, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₂, V₂Less than V₁, in effectively regulating mattress surface temperature Meanwhile reducing energy consumption.More specifically, T₂Value be 4 DEG C or 6 DEG C or 8 DEG C or 10 DEG C when, the first thermally conductive valve 5 or the second The aperture of thermally conductive valve 7 is V₂, V₂Less than V₁, while effectively regulating mattress surface temperature, energy is reduced to the maximum extent Consumption.

Optionally, T₃Value be 1 DEG C~3 DEG C, when the difference of mattress surface temperature and set temperature be 1 DEG C~3 DEG C when, The aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is V₃, V₃Less than V₂, in the same of effectively regulating mattress surface temperature When, reduce energy consumption.More specifically, T₃Value be 1 DEG C or 2 DEG C or 3 DEG C when, determine that the first thermally conductive valve 5 or the second is thermally conductive The aperture of valve 7 is V₃,

V₃Less than V₂, while effectively regulating mattress surface temperature, energy consumption is reduced to the maximum extent.

Optionally, V₁For the maximum opening of the first thermally conductive valve 7 of thermally conductive valve 5 or the second, when mattress surface temperature with set The difference for determining temperature is T₁When, the aperture of the first thermally conductive valve 7 of thermally conductive valve 5 or the second is adjusted to maximum opening, so that mattress Surface temperature is rapidly achieved the set temperature of user.

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.

Term as used herein is merely to describe specific embodiment, and be not intended to be limited to the present invention.As used herein, Singular " one ", "one" and "the" are also intended to including plural form, unless the context clearly indicates otherwise.It will also reason Solution, when used in the instructions, term " includes " and/or "comprising" indicate there are the feature, entirety, step, operation, Element and/or component, but do not preclude the presence or addition of other one or more features, entirety, step, operation, element and/or group Part.

All devices or step in the appended claims add the corresponding construction of function element, material, operate and wait Valence object, it is intended to including in conjunction with other elements claimed such as special requirement protection come any of function as described in executing Structure, material or operation.It is the effect in order to show and describe that explanation of the invention, which is presented, but is not exhaustive or sends out this It is bright to be limited to disclosed form.Many modifications and variations are it will be evident that and not departing from for those of ordinary skills The scope of the present invention.Selection and description embodiment are the principle of the present invention and practical application in order to most preferably explain, and make this Field those of ordinary skill can understand the present invention for the various embodiments with various modifications of the special-purpose suitable for considering.

The flow chart and block diagram in the drawings show the system of multiple embodiments according to the present invention, method and computer journeys The architecture, function and operation in the cards of sequence product.In this regard, each box in flowchart or block diagram can generation A part of one module, section or code of table, a part of the module, section or code include one or more use The executable instruction of the logic function as defined in realizing.It should also be noted that in some implementations as replacements, being marked in box The function of note can also occur in a different order than that indicated in the drawings.For example, two continuous boxes can actually base Originally it is performed in parallel, they can also be executed in the opposite order sometimes, and this depends on the function involved.It is also noted that It is the combination of each box in block diagram and or flow chart and the box in block diagram and or flow chart, can uses and execute rule The dedicated hardware based system of fixed function or movement is realized, or can use the group of specialized hardware and computer instruction It closes to realize.

Claims (10)

1. a kind of control method of energy resource system, the energy resource system includes heat storage sites and cooling capacity storage sites, the heat Storage sites pass through heat exchanger and temperature control mattress in first and exchange heat, the connection of heat exchanger in the temperature control mattress and described first Place is provided with the first thermally conductive valve；The cooling capacity storage sites pass through heat exchanger and the temperature control mattress in second and exchange heat, described The junction of heat exchanger is provided with the second thermally conductive valve in temperature control mattress and described second；It is characterized in that, the controlling party Method includes:

Determine the aperture of the described first thermally conductive valve and the second thermally conductive valve；

According to the aperture of the described first thermally conductive valve, the first thermally conductive valve is controlled；

According to the aperture of the described second thermally conductive valve, the second thermally conductive valve is controlled；

Wherein, the aperture of the described first thermally conductive valve and the second thermally conductive valve each depends on mattress surface temperature and setting temperature Degree.

2. control method according to claim 1, which is characterized in that when mattress surface temperature is less than set temperature, institute The aperture for stating the second thermally conductive valve is zero；The aperture and the mattress surface temperature of the first thermally conductive valve and setting temperature The difference of degree is positively correlated.

3. control method according to claim 2, which is characterized in that when the difference of mattress surface temperature and set temperature is T₁When, the aperture of the first thermally conductive valve is V₁；

When the difference of mattress surface temperature and set temperature is T₂When, the aperture of the first thermally conductive valve is V₂；

When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the first thermally conductive valve is V₃；Wherein, T₃< T₂ < T₁；V₃< V₂< V₁。

4. control method according to claim 1, which is characterized in that when mattress surface temperature is greater than set temperature, institute The aperture for stating the first thermally conductive valve is zero；The aperture and the mattress surface temperature of the second thermally conductive valve and setting temperature The difference of degree is positively correlated.

5. control method according to claim 4, which is characterized in that when the difference of mattress surface temperature and set temperature is T₁When, the aperture of the second thermally conductive valve is V₁；

When the difference of mattress surface temperature and set temperature is T₂When, the aperture of the second thermally conductive valve is V₂；

When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the second thermally conductive valve is V₃；Wherein, T₃< T₂ < T₁；V₃< V₂< V₁。

6. a kind of control device of energy resource system characterized by comprising

Determining module, for determining the aperture of the first thermally conductive valve and the second thermally conductive valve；

First control module controls the first thermally conductive valve for the aperture according to the described first thermally conductive valve；

Second control module controls the second thermally conductive valve for the aperture according to the described second thermally conductive valve；

Wherein, the aperture of the described first thermally conductive valve and the second thermally conductive valve each depends on mattress surface temperature and setting temperature Degree.

7. control device according to claim 6, which is characterized in that when mattress surface temperature is less than set temperature, institute The aperture for stating the second thermally conductive valve is zero；The aperture and the mattress surface temperature of the first thermally conductive valve and setting temperature The difference of degree is positively correlated.

8. control device according to claim 7, which is characterized in that when the difference of mattress surface temperature and set temperature is T₁When, the aperture of the first thermally conductive valve is V₁；

When the difference of mattress surface temperature and set temperature is T₂When, the aperture of the first thermally conductive valve is V₂；

When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the first thermally conductive valve is V₃；Wherein, T₃< T₂ < T₁；V₃< V₂< V₁。

9. control device according to claim 6, which is characterized in that when mattress surface temperature is greater than set temperature, institute The aperture for stating the first thermally conductive valve is zero；The aperture and the mattress surface temperature of the second thermally conductive valve and setting temperature The difference of degree is positively correlated.

10. control device according to claim 9, which is characterized in that when the difference of mattress surface temperature and set temperature For T₁When, the aperture of the second thermally conductive valve is V₁；

When the difference of mattress surface temperature and set temperature is T₂When, the aperture of the second thermally conductive valve is V₂；

When the difference of mattress surface temperature and set temperature is T₃When, the aperture of the second thermally conductive valve is V₃；Wherein, T₃< T₂ < T₁；V₃< V₂< V₁。