CN104089366A - Automatic mode switching method and temperature regulator - Google Patents

Abstract

The invention provides an automatic mode switching method and a temperature regulator and solves the technical problem that the prior temperature regulator fails to automatically switch operating modes. The automatic mode switching method includes the steps of when a current operating mode of the temperature regulator is a first operating mode of at least two operating modes, acquiring at least one parameter message used for judging whether to regulate the current operating mode or not; according to the at least one parameter message, judging whether to regulate the current operating mode or not so as to obtain a first judgment result; when the first judgment result is positive, performing controlling to switch the current operating mode to a second operating mode, in the at least two operating modes, different form the first operating mode. To be specific, in the first operating mode, first-mode first part of a first medium circulates in a second loop, and first-mode second part of the first medium circulates among a water heater transducer, at least one air conditioner indoor unit and an air conditioner outdoor unit.

Description

A kind of method of automatic switchover mode and temperature-adjusting device

Technical field

The present invention relates to electronic technology field, relate in particular to a kind of method and temperature-adjusting device of automatic switchover mode.

Background technology

Air-conditioning is a kind of for the unit of processing air temperature variations is provided to area of space (being generally airtight).Its function is that the parameters such as temperature, humidity, cleanliness factor and air velocity of the interior air in this room (or enclosure space, region) are regulated, to meet the requirement of the comfortable or technical process of human body.Water floor heating is that to take temperature be not heating agent higher than the hot water of 60 ℃, in the coil system under being secretly embedded in heating floor, circulate, heating floor, by ground equably to the heating system of indoor heat loss through radiation.And Indoor Thermal hydrophone is that domestic hot-water's common equipment is provided to user.

Ground all needs to absorb heat energy while warming up water heater working, so in the prior art, has occurred the temperature-adjusting device of air-conditioning, water heater and floor heating combination.Such temperature-adjusting device, compared with three's autonomous device, can be user-friendly to, and installs simple.During such device busy, have a plurality of mode of operations, in each mode of operation air-conditioning, water heater and floor heating, have at least one in running order.

But the temperature-adjusting device that prior art comprises air-conditioning, water heater and floor heating is to need button on the own pointing device of user or the button on remote controller carrying out that pattern switches, if user does not click, the temperature-adjusting device mode of operation that just can not automatically switch so, so if user forgets switching working mode, in use will be very inconvenient.

On the other hand, the temperature-adjusting device that comprises air-conditioning, water heater and floor heating of the prior art, the heat that the origin of heat obtaining due to water heater does not utilize in indoor apparatus of air conditioner, so heat is less, thus cause the hot water amount of supply also less.

Summary of the invention

The application provides a kind of method and temperature-adjusting device of automatic switchover mode, in order to solve can not the automatically switch technical problem of mode of operation of temperature-adjusting device of the prior art, has realized the technique effect of temperature-adjusting device automatic switchover mode of operation.

On the one hand, the application provides a kind of method of automatic switchover mode, be applied to a temperature-adjusting device, described temperature-adjusting device comprises air-conditioner outdoor unit, at least one indoor apparatus of air conditioner, hot water heat exchanger and floor heating heat exchange device, described at least one indoor apparatus of air conditioner is connected with described air-conditioner outdoor unit, formation can be for the first loop of the first medium circulation, described hot water heat exchanger is connected with described air-conditioner outdoor unit, formation can be for the second servo loop of described the first medium circulation, described floor heating heat exchange device is connected with described air-conditioner outdoor unit, formation can be for the tertiary circuit of described the first medium circulation, described hot water heat exchanger is all connected with described at least one indoor apparatus of air conditioner with described floor heating heat exchange device, described method comprises:

When described thermostatic work at present pattern is the first mode of operation at least two mode of operations, obtain for judging whether to adjust at least one parameter information of described work at present pattern;

Based on described at least one parameter information, judge whether to adjust described work at present pattern, obtain the first judged result;

Judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations;

Wherein, described the first mode of operation is specially: the first mode first medium of described the first medium circulates in described second servo loop, and first mode second portion medium circulates between described water heater transducer, described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit.

On the other hand, the application provides a kind of temperature-adjusting device, comprise air-conditioner outdoor unit, at least one indoor apparatus of air conditioner, hot water heat exchanger and floor heating heat exchange device, described at least one indoor apparatus of air conditioner is connected with described air-conditioner outdoor unit, formation can be for the first loop of the first medium circulation, described hot water heat exchanger is connected with described air-conditioner outdoor unit, formation can be for the second servo loop of described the first medium circulation, described floor heating heat exchange device is connected with described air-conditioner outdoor unit, formation can be for the tertiary circuit of described the first medium circulation, described hot water heat exchanger is all connected with described at least one indoor apparatus of air conditioner with described floor heating heat exchange device, described temperature-adjusting device also comprises:

Obtain unit, during for first mode of operation that be at least two mode of operations in described thermostatic work at present pattern, obtain at least one parameter information that is used for judging whether to adjust described work at present pattern;

Judging unit, for based on described at least one parameter information, judges whether to adjust described work at present pattern, obtains the first judged result;

Switch unit, for judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations;

Wherein, described the first mode of operation is specially: the first mode first medium of described the first medium circulates in described second servo loop, and first mode second portion medium circulates between described water heater transducer, described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit.

Above-mentioned one or more technical schemes in the embodiment of the present application, at least have following one or more technique effects:

1, in the application's technical scheme, when described thermostatic work at present pattern is the first mode of operation at least two mode of operations, first obtain for judging whether to adjust at least one parameter information of described work at present pattern, then based on described at least one parameter information, judge whether to adjust described work at present pattern, obtain the first judged result, judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations, wherein, described the first mode of operation is specially: the first mode first medium of described the first medium circulates in described second servo loop, first mode second portion medium is at described water heater transducer, between described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit, circulate, solved can not the automatically switch technical problem of mode of operation of temperature-adjusting device of the prior art, realized temperature-adjusting device according to the technique effect of at least one the parameter information automatic switchover mode of operation obtaining.

2, in the application's technique effect, the first mode of operation is specially: the first mode first medium of described the first medium circulates in described second servo loop, first mode second portion medium is at described water heater transducer, between described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit, circulate, after the first medium is by such circulation, solve prior art and comprised air-conditioning, the temperature-adjusting device of water heater warms up on ground, the heat energy that water heater obtains is limited, the few technical problem of hot water amount providing, realized and made water heater obtain sufficient heat energy, relatively large hot water is provided, the technique effect that can also freeze when the first medium is by least one indoor apparatus of air conditioner simultaneously.

Accompanying drawing explanation

Fig. 1 is the method flow diagram of the automatic switchover mode in the embodiment of the present application one;

Fig. 2 is the temperature-adjusting device structural representation in the embodiment of the present application one;

Fig. 3 is that the first mode of operation the first media flow in the embodiment of the present application one is to schematic diagram;

Fig. 4 is that the second mode of operation the first media flow in the embodiment of the present application one is to schematic diagram;

Fig. 5 is that the third mode of operation first media flow in the embodiment of the present application one is to schematic diagram;

Fig. 6 is that the 4th kind of mode of operation the first media flow in the embodiment of the present application one is to schematic diagram;

Fig. 7 is that the 5th kind of mode of operation the first media flow in the embodiment of the present application one is to schematic diagram;

Fig. 8 is that the 6th kind of mode of operation the first media flow in the embodiment of the present application one is to schematic diagram.

The specific embodiment

The application provides a kind of method and temperature-adjusting device of automatic switchover mode, in order to solve can not the automatically switch technical problem of mode of operation of temperature-adjusting device of the prior art, has realized the technique effect of temperature-adjusting device automatic switchover mode of operation.

In order better to understand the application's technical scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

First, before introducing the application's method, the temperature-adjusting device of the method application in paper the application, as described in Figure 2, temperature-adjusting device in the embodiment of the present application comprises air-conditioner outdoor unit 1, at least one indoor apparatus of air conditioner 2, hot water heat exchanger 3 and floor heating heat exchange device 4, described at least one indoor apparatus of air conditioner 2 is connected with described air-conditioner outdoor unit 1, formation can be for the first loop of the first medium circulation, described hot water heat exchanger 3 is connected with described air-conditioner outdoor unit 1, formation can be for the second servo loop of described the first medium circulation, described floor heating heat exchange device 4 is connected with described air-conditioner outdoor unit 1, formation can be for the tertiary circuit of described the first medium circulation, described hot water heat exchanger 3 is all connected with described at least one indoor apparatus of air conditioner 2 with described floor heating heat exchange device 4, described temperature-adjusting device also comprises:

Obtain unit 5, during for first mode of operation that be at least two mode of operations in described thermostatic work at present pattern, obtain at least one parameter information that is used for judging whether to adjust described work at present pattern;

Judging unit 6, for based on described at least one parameter information, judges whether to adjust described work at present pattern, obtains the first judged result;

Switch unit 7, for judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations.

Please refer to Fig. 1, in the embodiment of the present application, the method for automatic switchover mode comprises:

S1: when described thermostatic work at present pattern is the first mode of operation at least two mode of operations, obtain for judging whether to adjust at least one parameter information of described work at present pattern.

S2: based on described at least one parameter information, judge whether to adjust described work at present pattern, obtain the first judged result.

S3: judgment result is that while being when described first, control described work at present pattern switch to described in first mode of operation different from described the second mode of operation at least two mode of operations.

Specifically, when thermostatic work at present pattern is the second mode of operation, first obtain for judging whether to adjust at least one parameter information of work at present pattern, in specific implementation process, at least one parameter information can be 1,2 or 10, this application is not restricted.

Wherein, parameter information can be many kinds of parameters information, such as time, temperature or flow etc., and under the application, technical staff can select according to actual needs, and the application does not do concrete restriction.By the specific implementation process of enumerating three kinds of parameter informations and obtaining at least one parameter information, in specific implementation process, include but not limited to following three kinds of parameters below.

(1) current time

Obtain thermostatic current time and judge whether the mode of operation that need to automatically switch.

(2) temperature of hot water heat exchanger and liquid level

When at least one parameter information is specially the Current Temperatures of hot water in hot water heat exchanger 3 and current liquid level, Current Temperatures and the current liquid level that by temperature sensor on hot water heat exchanger 3 and liquid level sensor are set, just can obtain hot water in hot water heat exchanger 3.

Specifically, in the embodiment of the present application, hot water heat exchanger 3 comprises heat exchanging part and storage tank, in order to obtain the Current Temperatures of the hot water of hot water heat exchanger 3, can be on the outer wall of storage tank set temperature sensor, in order to obtain parameter information more accurately, being arranged on the end on the inwall of storage tank or in water tank is better selection.

Liquid level sensor can be arranged on storage tank bottom, by measuring the pressure of water storage at the bottom of to case, obtain current liquid level, also can be arranged in hot water, as floating ball type liquid level sensor, just can be arranged on water medium, under the application, technical staff can select according to actual needs, and the application does not do concrete restriction.

(3) hot water flow

When at least one parameter information is specially the present flow rate of hot water outlet of hot water heat exchanger 3, can obtain by being arranged on flow sensor on hot water outlet the present flow rate of hot water outlet.

Next, obtained after at least one parameter information execution step S2.

S2: based on described at least one parameter information, judge whether to adjust described work at present pattern, obtain the first judged result.

Due at least one parameter information be specifically as follows multiple, so judge whether that the specific implementation process of adjusting work at present pattern also has multiple.How introduction is judged whether to adjust work at present pattern by current time, present flow rate and Current Temperatures and current liquid level below, in specific implementation process, include but not limited to following three kinds.

(1) current time

When at least one parameter is specially current time, judges whether to adjust work at present pattern and be just specifically:

Judge that described current time whether in Preset Time section, obtains described the first judged result.

Specifically, Preset Time section can be to give tacit consent in temperature-adjusting device, can be also that user needs according to self and hobby arranges, and this application is not restricted.For example, the possibility that user generally has a bath between 20:00-24:00 is at night very large, and evening outdoor temperature compared with declining to some extent daytime, so the refrigeration demand amount of air-conditioning is large less than daytime, the larger heat that so now just needs the hot water heat exchanger 3 in temperature-adjusting device to obtain, Preset Time just can be made as 20:00-24:00 so.

Current time is in Preset Time section time, and first when judgment result is that, current time is not when Preset Time section, and first the determination result is NO.Take Preset Time section as 20:00-24:00 be example, suppose that current reality is 20:01, first judgment result is that and be, suppose that current time is 19:30, first the determination result is NO.

(2) Current Temperatures and current liquid level

When at least one parameter is specially the Current Temperatures of hot water heat exchanger 3 and current liquid level, judges whether to adjust work at present pattern and be just specifically:

Judge that whether described Current Temperatures is lower than preset temperature, obtain the first sub-judged result;

When described the first son judgment result is that while being, judge that described current liquid level, whether lower than default liquid level, obtains described the first judged result.

Specifically, in the embodiment of the present application, preset temperature and default liquid level can be for what give tacit consent in temperature-adjusting device, can be also that user needs according to self and hobby arranges, and this application is not restricted.Preset temperature can be 30 degree, 45 degree or 48 degree, and default liquid level can be 5cm or 10cm etc., and under the application, technical staff can select according to actual needs, and the application does not do concrete restriction.

Further, judgement order also can, for first judging that whether current liquid level is lower than default liquid level, obtain the first sub-judged result; When described the first son judgment result is that while being, judge that whether Current Temperatures is lower than preset temperature, obtain described the first judged result.

For first judging temperature or liquid level, the application is not restricted.Take and first judge that whether Current Temperatures introduce as example lower than preset temperature.

Suppose that preset temperature is 30 degree, default liquid level is 8cm, and Current Temperatures is 28 degree, and 28 degree are less than 30 degree, and the first son judgment result is that and is so; Judge that more whether current liquid level is lower than default liquid level, suppose that current liquid level is 10cm, higher than default liquid level, first the determination result is NO so.Suppose that preset temperature is 35 degree, default liquid level is 8cm, and Current Temperatures is 28 degree, and 28 degree are less than 35 degree, and the first son judgment result is that and is so; Judge that more current liquid level is lower than default liquid level, suppose that current liquid level is 5cm, lower than default liquid level, first judgment result is that and be so.

(3) present flow rate

When at least one parameter is specially the present flow rate of hot water heat exchanger 3 hot water outlets, judges whether to adjust work at present pattern and be just specifically:

Judge that whether described present flow rate is higher than preset flow, obtain described the first judged result.

Specifically, in the embodiment of the present application, preset flow can be for what give tacit consent in temperature-adjusting device, can be also that user needs according to self and hobby arranges, and this application is not restricted.

For example preset flow is 9L/min, per minutely from delivery port, can flow through the hot water of 9 liters, and present flow rate is 10.5L/min, first judgment result is that and is so; Preset flow is 12L/min, and present flow rate is 10.5L/min, and first the determination result is NO so.

Next, execution step S3.

S3: judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations.

First, the thermostatic at least two kinds of mode of operations in the embodiment of the present application are introduced:

The first mode of operation:

Please refer to Fig. 3, the first mode of operation is that the first mode first medium of the first medium circulates in second servo loop, and first mode second portion medium circulates between hot water heat exchanger 3, at least one indoor apparatus of air conditioner 2 and air-conditioner outdoor unit 1.

Specifically, the first medium can be freon, CFCs etc., and under the application, technical staff can need to select based on cost, environmental protection etc., and the application does not do concrete restriction.The first medium has gaseous state and liquid two states at circulation time, thereby the first medium can be absorbed or release heat.The gas that first medium of discharging from air-conditioner outdoor unit 1 is HTHP can all enter hot water heat exchanger 3, so the heat that hot water heat exchanger 3 obtains is very sufficient, thereby can provide more hot water for user.After the first medium heat of the gas of hot water heat exchanger 3 absorption HTHPs, the first medium is converted to liquid.Then, first mode first medium, through second servo loop, directly flows back in air-conditioner outdoor unit 1 from hot water heat exchanger 3 flows out.First mode second portion, from hot water heat exchanger 3 flows out, flows at least one indoor apparatus of air conditioner 2, thereby evaporation endothermic is realized refrigeration, and indoor air temperature is reduced.Then first mode second portion medium flows in air-conditioner outdoor unit 1 again.

After the circulation of the first medium in above-mentioned the first mode of operation, hot water heat exchanger 3 obtains sufficient hot water, so user can access sufficient hot water.Meanwhile, at least one indoor apparatus of air conditioner 2 also can refrigerating operaton.

The second mode of operation:

Please refer to Fig. 4, the second pattern first that the second mode of operation is specially the first medium circulates in the first loop, and the second pattern first medium circulates between hot water heat exchanger 3, at least one indoor apparatus of air conditioner 2 and air-conditioner outdoor unit 1.

Specifically, the gas that first medium of discharging from air-conditioner outdoor unit 1 is HTHP is divided into two parts, the second pattern first medium is through the first loop, enter the heat that at least one indoor apparatus of air conditioner 2 absorbs room air, thereby reach the effect of refrigeration, be then circulated back in air-conditioner outdoor unit 1; And the second pattern second portion medium is from air-conditioner outdoor unit 1 flows out, flow in hot water heat exchanger 3, heat hot water, then flows at least one indoor apparatus of air conditioner 2, and the second last pattern second portion media flow is returned in air-conditioner outdoor unit 1 and is completed circulation.

Visible, under the second mode of operation, the heat that hot water heat exchanger 3 obtains is only a part for the heat of air-conditioner outdoor unit 1 discharge, so compare the first mode of operation, the heat that hot water heat exchanger 3 obtains is less, can be also just less for the hot water amount that user provides.

Further, in the embodiment of the present application, at least two kinds of mode of operations, except the first mode of operation and the second mode of operation, also comprise other mode of operations, get off that it is several to introduce, in specific implementation process, include but not limited to following several.

The 3rd mode of operation:

While please refer to Fig. 5 the 3rd mode of operation, San mode of operation first medium circulates in the first loop, and the 3rd mode of operation second portion medium circulates in second servo loop.

Specifically, the gas that first medium of discharging from air-conditioner outdoor unit 1 is HTHP is divided into two parts, three-mode first medium is through the first loop, enter the heat that at least one indoor apparatus of air conditioner 2 discharges in the first medium, thereby reach the effect heating, be then circulated back in air-conditioner outdoor unit 1; And three-mode second portion medium is from air-conditioner outdoor unit 1 flows out, flow in hot water heat exchanger 3, heat hot water, then the second pattern second portion media flow is returned in air-conditioner outdoor unit 1 and is completed circulation.

The 4th mode of operation:

Please refer to Fig. 6, during the 4th mode of operation, Si mode of operation first medium circulates in the first loop, and the 4th mode of operation second portion medium circulates in tertiary circuit.

Specifically, the gas that first medium of discharging from air-conditioner outdoor unit 1 is HTHP is divided into two parts, four-mode first medium is through the first loop, enter the heat that at least one indoor apparatus of air conditioner 2 discharges in the first medium, thereby reach the effect heating, be then circulated back in air-conditioner outdoor unit 1; And four-mode second portion medium is from air-conditioner outdoor unit 1 flows out, flow in floor heating heat exchanger 4, heating floor heating water, then four-mode second portion media flow is returned in air-conditioner outdoor unit 1 and is completed circulation.

The 5th mode of operation:

Please refer to Fig. 7, during the 5th mode of operation, Wu mode of operation first medium circulates in the first loop, and the 5th mode of operation second portion medium circulates in second servo loop, and the 5th mode of operation third part circulates in tertiary circuit.

Specifically, the gas that first medium of discharging from air-conditioner outdoor unit 1 is HTHP is divided into three parts, Wu pattern first medium is through the first loop, enter the heat that at least one indoor apparatus of air conditioner 2 discharges in the first medium, thereby reach the effect heating, be then circulated back in air-conditioner outdoor unit 1; And the 5th pattern second portion medium is from air-conditioner outdoor unit 1 flows out, flow in hot water heat exchanger 3, heat hot water, then the 5th pattern second portion media flow is returned and in air-conditioner outdoor unit 1, is completed circulation; And the 5th pattern third part medium is from air-conditioner outdoor unit 1 flows out, flow in floor heating heat exchanger 4, heating floor heating water, then the 5th pattern third part media flow is returned in air-conditioner outdoor unit 1 and is completed circulation.

The 6th mode of operation:

Please refer to Fig. 8, during the 6th mode of operation, Liu mode of operation first medium circulates in second servo loop, and the 6th mode of operation second portion medium circulates in tertiary circuit.

Specifically, the gas that first medium of discharging from air-conditioner outdoor unit 1 is HTHP is divided into three parts, Liu pattern first medium is from air-conditioner outdoor unit 1 flows out, flow in hot water heat exchanger 3, heat hot water, then Liu pattern first media flow is returned in air-conditioner outdoor unit 1 and is completed circulation; And the 5th pattern second portion medium is from air-conditioner outdoor unit 1 flows out, flow in floor heating heat exchanger 4, heating floor heating water, then the 6th pattern second portion media flow is returned in air-conditioner outdoor unit 1 and is completed circulation.

Further, in above-mentioned six, in mode of operation, at least one indoor apparatus of air conditioner 2, hot water heat exchanger 3, floor heating heat exchange device 4, have two equipment at least in running gear, can certainly only have an equipment isolated operation.During isolated operation, heat provides by air-conditioner outdoor unit 1, the first medium respectively in first and second or three loops circulation to realize heat mutual, detailed process is same as the prior art, has not again just repeated one by one.

To enumerate several object lessons and come the specific implementation process of description of step S3 below.

(1) suppose that current time is 21:00, and Preset Time section is 20:00-24:00, because conventionally within this time period, outdoor temperature declines to some extent compared with daytime, and user has a bath and tends to have a bath within this time period.Assumed temperature adjusting device works by day in the second mode of operation so, because day temperature is high, and user is very little to domestic hot-water's consumption, so should be operated in the second mode of operation daytime.So first judgment result is that it is so just to control temperature-adjusting device and be switched to the first mode of operation from the second mode of operation.

(2) suppose that preset temperature is 30 degree, default liquid level is 8cm, and Current Temperatures is 28 degree, current liquid level is 5cm, so the hot water amount in the storage tank of explanation hot water heat exchanger 3 seldom, and temperature is on the low side, if user has the needs of having a bath, so just may also not wash hot water and just used up, and temperature is very low, user is easy to catch a cold.Judgment result is that it is so just to control temperature-adjusting device and be switched to the first mode of operation from the second mode of operation due to first.

(3) suppose that preset flow is 9L/min, present flow rate is 10L/min, illustrates that present water consumption is larger, so first judgment result is that and be.In order to guarantee that user has enough hot water, so just control temperature-adjusting device and be switched to the first mode of operation from the second mode of operation.

Further, the temperature-adjusting device in the embodiment of the present application, when automatic switchover mode is, except being switched to the first mode of operation from above-mentioned the second mode of operation, can also switch between multiple-working mode.

For example: current time is 8:00 on January 12, so visible current in winter, suppose that Preset Time section is the annual 1-2 month and December, first judgment result is that and be so.Temperature-adjusting device can switch to mode of operation the pattern that floor heating heat exchange device 4 works independently, pattern, fourth, fifth or six mode of operations that at least one indoor apparatus of air conditioner 2 works independently so.

More example has just repeated no longer one by one.

Embodiment bis-:

The present embodiment provides a kind of temperature-adjusting device, please refer to Fig. 2, comprise: air-conditioner outdoor unit 1, at least one indoor apparatus of air conditioner 2, hot water heat exchanger 3 and floor heating heat exchange device 4, at least one indoor apparatus of air conditioner 2 is connected with air-conditioner outdoor unit 1, formation can be for the first loop of the first medium circulation, hot water heat exchanger 3 is connected with air-conditioner outdoor unit 1, formation can be for the second servo loop of the first medium circulation, floor heating heat exchange device 4 is connected with air-conditioner outdoor unit 1, formation can be for the tertiary circuit of the first medium circulation, hot water heat exchanger 3 is all connected with at least one indoor apparatus of air conditioner 2 with floor heating heat exchange device 4, temperature-adjusting device also comprises:

Obtain unit 5, during for first mode of operation that be at least two mode of operations in described thermostatic work at present pattern, obtain at least one parameter information that is used for judging whether to adjust described work at present pattern;

Judging unit 6, for based on described at least one parameter information, judges whether to adjust described work at present pattern, obtains the first judged result;

Switch unit 7, for judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations.

Specifically, in the embodiment of the present application, obtain unit 5 specifically for:

Obtain described thermostatic current time.

Now, judging unit 6 specifically for:

Judge that described current time whether in Preset Time section, obtains described the first judged result.

Or obtain unit 5 specifically for:

The Current Temperatures and the current liquid level that by being arranged on temperature sensor on described hot water heat exchanger and liquid level sensor, obtain described hot water heat exchanger.

Or obtain unit 5 specifically for:

By being arranged on flow sensor on the hot water outlet of described hot water heat exchanger, obtain the present flow rate of described hot water outlet.

Now, judging unit 6 specifically for:

Judge that whether described Current Temperatures is lower than preset temperature, obtain the first sub-judged result;

When described the first son judgment result is that while being, judge that described current liquid level, whether lower than default liquid level, obtains

Obtain described the first judged result; Or

Be used for judging that whether described present flow rate is higher than preset flow, obtain described the first judged result.

Due to the present embodiment two with embodiment mono-based on same inventive concept, therefore repeat part and just repeated no longer one by one.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (14)

1. the method for an automatic switchover mode, be applied to a temperature-adjusting device, described temperature-adjusting device comprises air-conditioner outdoor unit, at least one indoor apparatus of air conditioner, hot water heat exchanger and floor heating heat exchange device, it is characterized in that, described at least one indoor apparatus of air conditioner is connected with described air-conditioner outdoor unit, formation can be for the first loop of the first medium circulation, described hot water heat exchanger is connected with described air-conditioner outdoor unit, formation can be for the second servo loop of described the first medium circulation, described floor heating heat exchange device is connected with described air-conditioner outdoor unit, formation can be for the tertiary circuit of described the first medium circulation, described hot water heat exchanger is all connected with described at least one indoor apparatus of air conditioner with described floor heating heat exchange device, described method comprises:

When described thermostatic work at present pattern is the second mode of operation at least two mode of operations, obtain for judging whether to adjust at least one parameter information of described work at present pattern;

Based on described at least one parameter information, judge whether to adjust described work at present pattern, obtain the first judged result;

Judgment result is that while being when described first, control described work at present pattern switch to described in first mode of operation different from described the second mode of operation at least two mode of operations;

Wherein, described the first mode of operation is specially: the first mode first medium of described the first medium circulates in described second servo loop, and first mode second portion medium circulates between described water heater transducer, described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit.

2. the method for claim 1, is characterized in that, the second mode of operation in described at least two mode of operations is specially:

The second pattern first of described the first medium circulates in described the first loop, and the second pattern first medium circulates between described hot water heat exchanger, described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit.

3. the method for claim 1, is characterized in that, described acquisition, for judging whether to adjust at least one parameter information of described work at present pattern, is specially:

Obtain described thermostatic current time.

4. the method for claim 1, is characterized in that, described acquisition, for judging whether to adjust at least one parameter information of described work at present pattern, is specially:

The Current Temperatures and the current liquid level that by being arranged on temperature sensor on described hot water heat exchanger and liquid level sensor, obtain described hot water heat exchanger.

5. the method for claim 1, is characterized in that, described acquisition, for judging whether to adjust at least one parameter information of described work at present pattern, is specially:

By being arranged on flow sensor on the hot water outlet of described hot water heat exchanger, obtain the present flow rate of described hot water outlet.

6. method as claimed in claim 3, is characterized in that, described based on described at least one parameter information, judges whether to adjust described work at present pattern, obtains the first judged result, is specially:

Judge that described current time whether in Preset Time section, obtains described the first judged result.

7. the method as described in claim 4 or 5, is characterized in that, described based on described at least one parameter information, judges whether to adjust described work at present pattern, obtains the first judged result, is specially:

Judge that whether described Current Temperatures is lower than preset temperature, obtain the first sub-judged result;

When described the first son judgment result is that while being, judge that described current liquid level, whether lower than default liquid level, obtains described the first judged result; Or

Described based on described at least one parameter information, judge whether to adjust described work at present pattern, obtain the first judged result, be specially:

Judge that whether described present flow rate is higher than preset flow, obtain described the first judged result.

8. a temperature-adjusting device, comprise air-conditioner outdoor unit, at least one indoor apparatus of air conditioner, hot water heat exchanger and floor heating heat exchange device, it is characterized in that, described at least one indoor apparatus of air conditioner is connected with described air-conditioner outdoor unit, formation can be for the first loop of the first medium circulation, described hot water heat exchanger is connected with described air-conditioner outdoor unit, formation can be for the second servo loop of described the first medium circulation, described floor heating heat exchange device is connected with described air-conditioner outdoor unit, formation can be for the tertiary circuit of described the first medium circulation, described hot water heat exchanger is all connected with described at least one indoor apparatus of air conditioner with described floor heating heat exchange device, described temperature-adjusting device also comprises:

Obtain unit, during for first mode of operation that be at least two mode of operations in described thermostatic work at present pattern, obtain at least one parameter information that is used for judging whether to adjust described work at present pattern;

Judging unit, for based on described at least one parameter information, judges whether to adjust described work at present pattern, obtains the first judged result;

Switch unit, for judgment result is that while being when described first, control described work at present pattern switch to described in second mode of operation different from described the first mode of operation at least two mode of operations;

Wherein, described the first mode of operation is specially: the first mode first medium of described the first medium circulates in described second servo loop, and first mode second portion medium circulates between described water heater transducer, described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit.

9. temperature-adjusting device as claimed in claim 8, is characterized in that, the second mode of operation in described at least two mode of operations is specially:

The second pattern first of described the first medium circulates in described the first loop, and the second pattern first medium circulates between described hot water heat exchanger, described at least one indoor apparatus of air conditioner and described air-conditioner outdoor unit.

10. temperature-adjusting device as claimed in claim 9, is characterized in that, described acquisition unit specifically for:

Obtain described thermostatic current time.

11. temperature-adjusting devices as claimed in claim 9, is characterized in that, described acquisition unit specifically for:

The Current Temperatures and the current liquid level that by being arranged on temperature sensor on described hot water heat exchanger and liquid level sensor, obtain described hot water heat exchanger.

12. temperature-adjusting devices as claimed in claim 9, is characterized in that, described acquisition unit specifically for:

By being arranged on flow sensor on the hot water outlet of described hot water heat exchanger, obtain the present flow rate of described hot water outlet.

13. temperature-adjusting devices as claimed in claim 10, is characterized in that, described judging unit specifically for:

Judge that described current time whether in Preset Time section, obtains described the first judged result.

14. temperature-adjusting devices as described in claim 11 or 12, is characterized in that, described judging unit specifically for:

Judge that whether described Current Temperatures is lower than preset temperature, obtain the first sub-judged result;

When described the first son judgment result is that while being, judge that described current liquid level, whether lower than default liquid level, obtains described the first judged result; Or

Described judging unit specifically for:

Judge that whether described present flow rate is higher than preset flow, obtain described the first judged result.