CN108151323B - Method, controller, device and storage medium for intelligently adjusting water temperature - Google Patents

Abstract

The invention discloses a method, a controller, a device and a storage medium for intelligently adjusting water temperature, wherein when the water demand is detected, the stored water output by a first water storage part and a second water storage part is received through a preset water mixing part, and the received stored water is mixed by the water mixing part and then output, wherein the first water storage part is connected with a water heater, and the second water storage part is connected with a cold water pipe.

Description

Method, controller, device and storage medium for intelligently adjusting water temperature

Technical Field

The invention relates to the technical field of computers, in particular to a method, a controller, a device and a computer readable storage medium for intelligently adjusting water temperature.

Background

The existing household water heating equipment comprises an electric water heater, a solar water heater and a gas water heater, generally, only one water heating equipment is installed in each household, the installation positions of the water heating equipment and the water heating equipment are relatively fixed, if the electric water heater is generally installed in a washroom, the solar water heater is installed outdoors, the gas water heater is generally installed in a kitchen, and when water is used in a plurality of rooms, a pipeline is always in a long place, so that cold water is always discharged for a long time when hot water is needed, the waste is very high, and the use is inconvenient.

Disclosure of Invention

The invention provides a method, a controller, a device and a computer readable storage medium for intelligently adjusting water temperature, which aim to solve the problem of cold water waste caused by long pipeline between a water outlet end and a water heater in the prior art.

In one aspect, the present invention provides a method for intelligently adjusting water temperature, the method comprising: detecting a water demand; the water mixing device comprises a water mixing component, a water inlet pipe, a water outlet pipe, a water inlet pipe, a water outlet pipe and a water outlet pipe.

Further, before receiving the water storage of predetermineeing first water storage component and predetermined second water storage component output through predetermined muddy water part, include:

determining a third temperature of water stored in the water mixing component;

determining flow proportions of the first water storage component and the second water storage component for respectively outputting stored water according to preset reserved water temperature, first temperature, second temperature and third temperature;

the first temperature is the temperature of the water stored in the first water storage part, and the second temperature is the temperature of the water stored in the second water storage part.

Further, according to predetermined reservation temperature, first temperature, second temperature and third temperature, confirm the flow proportion that first water storage component and second water storage component exported the water storage respectively, specifically include:

when the water inlet temperature of the first water storage part is lower than the preset water temperature, the water inlet of the second water storage part is closed, the first water storage part is used for feeding water, the water with the first water quantity is discharged to the second water storage part, the water with the second water quantity is discharged to the water mixing part, the water mixing part is used for heating the stored water and then discharging the water, wherein the first water quantity is larger than the second water quantity;

when the water inlet temperature of the first water storage part is higher than the preset water temperature and the third water temperature of the water mixing part is lower than the preset water temperature, the water inlet of the second water storage part is closed, the water is fed into the first water storage part, the water is discharged from the first water storage part to the water mixing part, and the water is discharged after the water mixing part heats the stored water;

when the water inlet temperature of the first water storage part is higher than the preset water temperature and the third water temperature of the water mixing part is higher than the preset water temperature, the second water storage part and the first water storage part are opened simultaneously, and the second water storage part and the first water storage part discharge water proportionally according to the water temperatures;

when the water inlet temperature of the second water storage part is higher than or equal to the reserved water temperature, the water inlet of the first water storage part is closed, the water inlet and outlet amount of the second water storage part is adjusted according to the water storage amount, and water is discharged through the water mixing part.

Further, mix water component and go out water after heating the water storage, specifically include: the stored water in the water mixing part is heated by an electric heating wire in the water mixing part and then is discharged.

Further, the temperature of intaking when first water storage part is higher than reservation temperature, mixes the third temperature of water part and is higher than reservation temperature, then opens second water storage part and first water storage part simultaneously, and second water storage part and first water storage part go out water according to the temperature proportionality, specifically include:

when the water inlet temperature of the first water storage part is higher than the reserved water temperature, the third water temperature of the water mixing part is higher than the reserved water temperature, the second water storage part and the first water storage part are opened simultaneously, water is discharged from the second water storage part and the first water storage part proportionally according to the water temperature, the water yield of the second water storage part is smaller than or equal to that of the water mixing part, and the water inlet amount of the first water storage part is smaller than or equal to that of the first water storage part.

Further, the method further comprises: when the water demand is detected to stop, the water outlet of the second water storage component, the water inlet of the first water storage component and the water outlet of the water mixing component are closed, and the water outlet of the first water storage component is closed after the water outlet of the first water storage component is discharged to the water mixing component.

Further, the method further comprises: receiving the appointed water outlet time; receive the water storage of predetermined first water storage part and predetermined second water storage part output through predetermined muddy water part, specifically include: after the preset water outlet time is reached, the preset water mixing component receives the water stored by the preset first water storage component and the preset second water storage component.

In another aspect, the present invention further provides a controller, which includes a processor, a memory and a communication bus;

the communication bus is used for realizing connection communication between the processor and the memory;

the processor is configured to execute the computer instructions stored in the memory to implement any of the above-described methods for intelligently adjusting water temperature.

In another aspect, the invention further provides a device for intelligently adjusting water temperature, which includes the controller, and a first water storage component, a second water storage component and a water mixing component that are separately arranged, wherein a water inlet of the first water storage component is connected with a water heater, two water outlets of the first water storage component are respectively connected with the second water storage component and the water mixing component, two water inlets of the second water storage component are respectively connected with a cold water pipe and the first water storage component, two water inlets of the water mixing component are respectively connected with water inlets of the first water storage component and the second water storage component, and the controller is respectively connected with the first water storage component, the second water storage component and the mixing component, so as to implement any one of the above methods for intelligently adjusting water temperature.

In yet another aspect, the present invention also provides a computer readable storage medium storing one or more programs, which are executable by one or more processors to implement any one of the methods for intelligently adjusting water temperature provided by the present invention.

The invention has the following beneficial effects:

when the water demand is detected, the water mixing component receives the stored water output by the first water storage component and the second water storage component, and the water mixing component mixes the received stored water and outputs the mixed water, wherein the first water storage component is connected with the water heater, and the second water storage component is connected with the cold water pipe.

Drawings

FIG. 1 is a schematic flow chart of a method for intelligently adjusting water temperature according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an apparatus for intelligently adjusting water temperature according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a controller according to an embodiment of the present invention.

Detailed Description

In order to solve the problem of cold water waste caused by a long pipeline between a water outlet end and a water heater in the prior art, the invention provides the method for intelligently adjusting the water temperature. The present invention will be described in further detail below with reference to the drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

The embodiment of the invention provides a method for intelligently adjusting water temperature, and referring to fig. 1, the method comprises the following steps:

s101, detecting a water demand;

s102, receiving stored water output by a preset first water storage component and a preset second water storage component through a preset water mixing component, and controlling and adjusting the water storage amount of the first water storage component and the water storage amount of the second water storage component entering the water mixing component to enable the output water temperature to reach the preset water temperature after the stored water received by the water mixing component is mixed, wherein the first water storage component is connected with a water heater, and the second water storage component is connected with a cold water pipe.

That is to say, when the water demand is detected, the water mixing component receives the stored water output by the first water storage component and the second water storage component, and the water mixing component mixes the received stored water and outputs the mixed stored water, wherein the first water storage component is connected with the water heater, and the second water storage component is connected with the cold water pipe.

It should be noted that, in the embodiment of the present invention, the first water storage component may be set as a hot water tank, the second water storage component may be set as a cold water tank, and the water mixing component may be set as a water mixing tank.

Further, S101 in the embodiment of the present invention specifically includes: whether the user has water demand is detected by means of an induction probe and the like.

Further, before the preset water mixing component receives the water stored by the preset first water storage component and the preset second water storage component, the embodiment of the invention includes:

determining a third temperature of water stored in the water mixing component;

determining flow proportions of the first water storage component and the second water storage component for respectively outputting stored water according to preset reserved water temperature, first temperature, second temperature and third temperature;

the first temperature is the temperature of the water stored in the first water storage part, and the second temperature is the temperature of the water stored in the second water storage part.

That is, in the specific implementation, the user can set an appointed water temperature according to the actual requirement, for example, the appointed water temperature is set to 35 degrees, and the like.

Of course, in practice, one skilled in the art can set a time to reach the reserved water temperature, for example, set the time to reach the reserved water temperature to be 1 s.

It should be noted that, in order not to affect the normal use of the user, the time set by the embodiment of the present invention to reach the reserved water temperature is generally short, such as 2 seconds, and so on. That is, the time for the water heater of the present invention to reach the scheduled water temperature is as short as possible so as not to affect the user's use.

Namely, according to the control requirement of the user, the hot water work can be completed within the specified time, so that the outlet water temperature reaches the requirement of the user, the user experience is improved, and the problem of water resource waste caused by the fact that the water temperature does not reach the standard in the initial stage of outlet water is solved.

In addition, the method of the embodiment of the invention is simple to operate, and the user can obtain the required water temperature within the specified time only by inputting the required water temperature, namely, the reserved water temperature.

Further, the determining, according to the preset reserved water temperature, the first temperature, the second temperature, and the third temperature, flow rates of the first water storage component and the second water storage component, which output the stored water, respectively, specifically includes:

when the water inlet temperature of the first water storage part is lower than the preset water temperature, the water inlet of the second water storage part is closed, the first water storage part is used for feeding water, the water with the first water quantity is discharged to the second water storage part, the water with the second water quantity is discharged to the water mixing part, the water mixing part is used for heating the stored water and then discharging the water, wherein the first water quantity is larger than the second water quantity;

when the water inlet temperature of the first water storage part is higher than the preset water temperature and the third water temperature of the water mixing part is lower than the preset water temperature, the water inlet of the second water storage part is closed, the water is fed into the first water storage part, the water is discharged from the first water storage part to the water mixing part, and the water is discharged after the water mixing part heats the stored water;

when the water inlet temperature of the first water storage part is higher than the preset water temperature and the third water temperature of the water mixing part is higher than the preset water temperature, the second water storage part and the first water storage part are opened simultaneously, and the second water storage part and the first water storage part discharge water proportionally according to the water temperatures;

in detail, when the water outlet end is just opened, due to the pipeline, the water inlet temperature of the first water storage component is lower than the reserved water temperature, at the moment, the water inlet of the second water storage component is closed, the water inlet of the first water storage component is performed, the water with the first water quantity is discharged to the second water storage component, the water with the second water quantity is discharged to the water mixing component, namely, the cold water tank does not discharge water, the hot water tank discharges a large amount of water, the water is output to the cold water tank in a large amount, and the water is output to the water mixing tank in a small amount, so that the water in the pipeline is discharged as soon as possible;

when hot water in the water heater arrives, the water inlet temperature of the first water storage component is higher than the appointed water temperature, the third water temperature of the water mixing component is lower than the appointed water temperature, at the moment, the water inlet of the second water storage component is closed, the water inlet of the first water storage component is carried out, and the water outlet of the first water storage component reaches the water mixing component, namely, when the hot water arrives, the water temperature in the water mixing tank does not reach the appointed water temperature, at the moment, the cold water tank does not feed water, and only the hot water tank supplies water to the water mixing tank;

and then, when the water outlet temperature of the water mixing component is higher than the reserved water temperature, the cold water tank is opened to feed water, and the cold water and hot water are proportionally discharged according to the water temperature control of each component, namely, after the water temperature in the water mixing tank reaches the reserved water temperature, the cold water and hot water flow is regulated, so that the water temperature of the water outlet end is controlled to reach the user requirement.

When the water inlet temperature of the second water storage part is higher than or equal to the reserved water temperature, the water inlet of the first water storage part is closed, the water inlet and outlet amount of the second water storage part is adjusted according to the water storage amount, and water is discharged through the water mixing part.

Namely, when the temperature of the cold water is higher than the preset water temperature, the water inlet of the hot water tank is closed, and the water mixing tank is only supplied by the cold water tank.

The water mixing component provided by the embodiment of the invention is used for heating stored water and then discharging water, and specifically comprises the following steps: and the stored water in the water mixing component is heated by an electric heating wire in the water mixing component and then is discharged.

In addition, when the initial water temperature at the water outlet end is lower, for example, the hot water temperature is lower than the reserved temperature, in order not to affect the normal use of a user, the embodiment of the invention heats the water in the water mixing part through the electric heating wire, and finally the water outlet temperature at the water outlet end reaches the required water temperature, so that the waste of cold water is avoided.

That is to say, when the temperature of the reserved water temperature is relatively high and the temperature of the outlet water in the water mixing component is relatively low, the electric heating wire is required to heat and output the stored water, specifically, if the water temperature difference ratio between the reserved water temperature and the outlet water temperature is relatively high, the heating power of the electric heating wire is required to be relatively high, and otherwise, the heating power of the electric heating wire is required to be relatively low.

When the intelligent electric heating device is specifically implemented, a person skilled in the art can determine the relationship among the cold water temperature, the hot water temperature, the water temperature in the water mixing component, the reserved water temperature and the heating power of the electric heating wire according to a plurality of groups of experimental data, and the controller can perform an intelligent adjusting function.

Further, the method of the embodiment of the present invention further includes: and receiving the reserved water outlet time, and receiving the water storage output by the preset first water storage part and the preset second water storage part through the preset water mixing part after the reserved water outlet time is reached.

That is to say, the water heater of the embodiment of the invention can also set the water outlet time to be reserved, so that the water outlet temperature reaches the reserved water temperature after the time point is reached.

In specific implementation, a user inputs the preset water temperature and the use time (namely, the preset water outlet time) into the controller through modes such as display screen input and the like, and the controller controls the water outlet temperature to reach the preset water temperature when the preset water outlet time is reached.

For example, the user inputs the controller that the reserved water temperature is 38 degrees and the service time is 9 pm, and then the water heater can make the outlet water temperature reach 38 degrees at 9 pm and at the initial stage of water outlet, thereby greatly improving the user experience.

Fig. 2 is a schematic structural diagram of an apparatus for intelligently adjusting water temperature according to an embodiment of the present invention, and as shown in fig. 2, the embodiment of the present invention only uses a cold water tank, a hot water tank, and a water mixing tank as examples to explain and explain in detail a method for controlling water inflow and outflow in the cold water tank, the hot water tank, and the water mixing tank by a controller according to the present invention;

wherein, the cold water of the embodiment of the invention is stored in the cold water tank, and the cold water tank of the embodiment of the invention specifically comprises: a cold water inlet valve, a cold water outlet valve, a water level (water pressure) sensor and a water temperature sensor; the hot water of the embodiment of the present invention is stored in a hot water tank, the hot water tank of the present invention includes: the system comprises a hot water inlet valve, a hot water outlet valve, a cold water outlet valve, a water level sensor and a water temperature sensor; the water mixing tank of the embodiment of the invention comprises: the controller of the embodiment of the invention comprises a temperature setting device, a set temperature display device, a water outlet prompting device and a device for setting the scheduled water outlet time.

When specifically using, the user sets for behind the reservation temperature of needs (or the temperature of acquiescence settlement), when inductive probe detected user's water demand, opens hot water intaking valve earlier, detects hot water storage water tank, cold water storage water tank, muddy water tank, synthesizes three-party temperature control cold water tank and hot-water tank water proportion of going out, goes out water to mixing water tank, if three-party water tank temperature all is less than user's demand temperature, then opens electric heating wire and goes out water behind the heating of muddy water tank, otherwise directly goes out water behind the muddy water, concrete situation includes:

when the water outlet end is just opened, hot water does not arrive due to the problem of a pipeline, the water inlet temperature of the hot water tank is lower than the water temperature required by a user (namely the preset water temperature), at the moment, the cold water tank needs to be closed, a large amount of water enters the hot water tank, a large amount of water flows out of the hot water tank to the cold water tank, a small amount of water flows out of the hot water tank to the water mixing tank, and the water mixing tank waits for the heating wire to heat for;

the hot water in the water heater arrives along with the gradual outflow of the water in the hot water pipeline, at the moment, the water inlet temperature of the hot water tank is higher than the water temperature required by a user, the water temperature of the water mixing tank is lower than the water temperature required by the user, the cold water tank needs to be closed, a large amount of water enters the hot water tank, a large amount of water flows out to the water mixing tank, the heating wires continuously heat, and the water temperature of the water mixing tank quickly reaches the water temperature set by the;

after hot water reaches a certain time, the water temperature of inlet water of the hot water tank is higher than the water temperature required by a user, the water temperature of the mixed water tank also reaches the water temperature required by the user, the cold and hot water tanks discharge water proportionally according to the water temperature, the total quantity of the discharged water is less than or equal to the water discharge quantity of the mixed water tank so as to reduce the water storage quantity of the mixed water tank, and the water inlet quantity of the hot water tank is less than or equal to the water discharge quantity of the hot water tank so as to reduce the water;

when the water temperature of the cold water tank is not lower than the water temperature required by a user, the hot water tank closes water inlet, the cold water tank adjusts water inlet and outlet amount according to water storage amount, the water storage amount of the cold water tank is reduced, and the mixed water tank outputs cold water;

when the user stops using water, the water outlet of the cold water tank, the water inlet of the hot water tank and the water outlet of the water mixing tank are immediately closed, and the water of the hot water tank is discharged to the water mixing tank and then the water outlet of the hot water tank is closed.

In structural arrangement, the hot water tank is arranged higher than the cold water tank, and the cold water tank is arranged higher than the mixed water tank, namely, the hot water tank, the cold water tank and the mixed water tank are sequentially arranged from top to bottom, so that cold water is conveniently discharged from the hot water tank to the cold water tank, and cold and hot water tanks are conveniently discharged to the mixed water tank. The cold water tank needs to store cold water in the water pipe, the volume needs to be larger, the hot water tank and the mixed water tank are both used for transitional water, the volume does not need to be large, and in the specific implementation, a person skilled in the art can carry out specific setting according to actual needs.

Corresponding to fig. 1, as shown in fig. 3, an embodiment of the present invention further provides a controller, including: a processor, a memory, and a communication bus;

the communication bus is used for realizing connection communication between the processor and the memory;

the memory is used for storing computer instructions, and the processor is used for executing the computer instructions stored by the memory to realize the steps of any method for intelligently adjusting the water temperature in the method embodiment and achieve the corresponding technical effect.

Corresponding to fig. 1, the invention further provides a device for intelligently adjusting water temperature, which comprises any one of the controllers, a first water storage component, a second water storage component and a water mixing component, wherein the first water storage component is provided with a water inlet connected with a water heater, the second water storage component is provided with two water outlets connected with the second water storage component and the water mixing component respectively, the second water storage component is provided with two water inlets connected with a cold water pipe and the first water storage component respectively, the water mixing component is provided with two water inlets connected with the water outlets of the first water storage component and the second water storage component respectively, the controller is connected with the first water storage component, the second water storage component and the mixing component respectively, so as to realize any one of the methods for intelligently adjusting water temperature, and achieves the corresponding technical effect.

Specifically, the device of the present invention is arranged at any water outlet end, and the controller controls the water inlet and outlet of the first water storage component, the second water storage component and the water mixing component, so that when a user uses water, the water outlet is the hot water required by the user, thereby avoiding the waste of cold water, and effectively solving the problem of cold water waste caused by the long pipeline between the water outlet end and the water heater in the prior art.

Corresponding to fig. 1, an embodiment of the present invention further provides a computer-readable storage medium, where one or more programs are stored in the computer-readable storage medium, and the one or more programs can be executed by one or more processors to implement any one of the methods for intelligently adjusting water temperature provided in the foregoing embodiments, so that corresponding technical effects can also be achieved, and details are not described herein again.

It should be noted that the computer-readable storage medium and the storage medium according to the embodiments of the present invention are the same medium, and may be any storage medium capable of storing a computer software product, such as a ROM/RAM, a magnetic disk or an optical disk.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, and the scope of the invention should not be limited to the embodiments described above.

Claims (8)

1. A method of intelligently adjusting water temperature, comprising:

detecting a water demand;

the method comprises the steps that stored water output by a preset first water storage component and a preset second water storage component is received through a preset water mixing component, and the water storage amount of the first water storage component and the water storage amount of the second water storage component entering the water mixing component are controlled and adjusted, so that the output water temperature reaches the preset water temperature after the stored water received by the water mixing component is mixed, wherein the first water storage component is connected with a water heater, and the second water storage component is connected with a cold water pipe;

before the water storage of receiving predetermined first water storage component and predetermined second water storage component output through predetermined muddy water part, include:

determining a third temperature of water stored in the water mixing component;

determining flow proportions of stored water respectively output by the first water storage component and the second water storage component according to preset reserved water temperature, first temperature, second temperature and third temperature;

the first temperature is the temperature of water stored in the first water storage part, and the second temperature is the temperature of water stored in the second water storage part;

according to preset reservation temperature, first temperature, second temperature and the third temperature, confirm first water storage component with the flow proportion of second water storage component output water storage respectively specifically includes:

when the water inlet temperature of the first water storage part is lower than the reserved water temperature, the water inlet of the second water storage part is closed, the first water storage part is used for feeding water, a first amount of water is discharged to the second water storage part, a second amount of water is discharged to the water mixing part, and the water mixing part is used for heating the stored water and then discharging water, wherein the first amount of water is larger than the second amount of water;

when the water inlet temperature of the first water storage part is higher than the appointed water temperature and the third water temperature of the water mixing part is lower than the appointed water temperature, the water inlet of the second water storage part is closed, the water is fed into the first water storage part, the water is discharged from the first water storage part to the water mixing part, and the water is discharged after the water stored in the water mixing part is heated;

when the inlet water temperature of the first water storage part is higher than the reserved water temperature and the third water temperature of the water mixing part is higher than the reserved water temperature, the second water storage part and the first water storage part are opened simultaneously, and the second water storage part and the first water storage part discharge water proportionally according to the water temperatures;

when the water inlet temperature of the second water storage part is higher than or equal to the reserved water temperature, the water inlet of the first water storage part is closed, the water inlet and outlet amount of the second water storage part is adjusted according to the water storage amount, and water is discharged through the water mixing part.

2. The method according to claim 1, wherein the water mixing component outputs water after heating the stored water, and specifically comprises:

and the stored water in the water mixing component is heated by an electric heating wire in the water mixing component and then is discharged.

3. The method of claim 1, wherein when the temperature of the inlet water of the first water storage component is higher than the predetermined water temperature and the third water temperature of the water mixing component is higher than the predetermined water temperature, the second water storage component and the first water storage component are opened simultaneously, and the second water storage component and the first water storage component are proportionally discharged according to the water temperatures, specifically comprising:

when the temperature of the water entering of the first water storage part is higher than the reserved water temperature, the third water temperature of the water mixing part is higher than the reserved water temperature, the second water storage part and the first water storage part are opened simultaneously, the second water storage part and the first water storage part discharge water proportionally according to the water temperature, the water yield of the second water storage part is less than or equal to that of the water mixing part, and the water inlet amount of the first water storage part is less than or equal to that of the first water storage part.

4. The method of claim 1, further comprising:

when the water demand is detected to stop, the water outlet of the second water storage component, the water inlet of the first water storage component and the water outlet of the water mixing component are closed, and the water outlet of the first water storage component is closed after the water outlet of the first water storage component is discharged to the water mixing component.

5. The method according to any one of claims 1-4, further comprising:

receiving the appointed water outlet time;

receive the water storage of predetermined first water storage part and predetermined second water storage part output through predetermined muddy water part, specifically include:

and after the preset water outlet time is reached, the preset water mixing component receives the stored water output by the preset first water storage component and the preset second water storage component.

6. A controller, comprising a processor, a memory, and a communication bus;

the communication bus is used for realizing connection communication between the processor and the memory;

the processor is configured to execute computer instructions stored in the memory to implement the method for intelligently adjusting water temperature of any one of claims 1-5.

7. An intelligent water temperature adjusting device, which is characterized in that the intelligent water temperature adjusting device comprises the controller of claim 6, and a first water storage part, a second water storage part and a water mixing part which are arranged in a separated mode, wherein, the water inlet of the first water storage part is connected with the water heater, the two water outlets of the first water storage part are respectively connected with the second water storage part and the water mixing part, the two water inlets of the second water storage part are respectively connected with a cold water pipe and the first water storage part, two water inlets of the water mixing component are respectively connected with the water outlets of the first water storage component and the second water storage component, the controller is respectively connected with the first water storage component, the second water storage component and the water mixing component so as to realize the method for intelligently adjusting the water temperature according to any one of claims 1 to 5.

8. A computer readable storage medium, characterized in that the computer readable storage medium stores one or more programs executable by one or more processors to implement the method of intelligently adjusting water temperature of any one of claims 1 to 5.

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