CN107421232A - A kind of monitoring method and monitoring system of the health status of refrigerator - Google Patents

Abstract

The invention discloses a kind of monitoring method and monitoring system of the health status of refrigerator, refrigerant is absorbed heat in the evaporator by refrigerator and radiated when flowing through the condenser of refrigerator, this method self-starting after the power-up, including step：The change t and the flow v in the unit interval of temperature of the refrigerant when flowing through the evaporator of refrigerator are obtained, and obtains the input power p of refrigerator；Calculate the energy transformation ratio k=tv ρ q/p of refrigerator；Health status is obtained, health status is worth to according to the ratio of the energy transformation ratio and default standard energy conversion ratio；The health status is shown in the display device of the refrigerator or responds the control of operator, health status is sent to specified equipment or sent a warning when the health status calculated is less than preset value.This monitoring method and monitoring system can monitor the quality of the health degree of the conversion equipment of refrigerator so that related personnel can be informed in health status and inform related personnel when health status is less than preset value.

Description

A kind of monitoring method and monitoring system of the health status of refrigerator

Technical field

The present invention relates to smart home field, more particularly to the control aspect of the health status of refrigerator, more specifically, relate to And a kind of monitoring method and monitoring system of the health status of refrigerator.

Background technology

As people require more and more higher to standard of living, people's smart home is also increasingly favored.Smart home conduct The Main Trends of The Development of following household, quickly grew in the last few years, and started gradually to capture some high-end markets.Refrigerator into To be indispensable in current family, school, company and other public situations are typically fitted with refrigerator.

As shown in figure 1, in the prior art refrigeration for refrigerator when operation principle schematic diagram.Refrigerant is in evaporator by low pressure Vaporizing liquid is gas, absorbs the heat in refrigerator, reduces the temperature inside the box.The refrigerant for becoming gas is sucked by compressor, leans on Compressor work is compressed into it the gas of HTHP, then is discharged into condenser.Refrigerant is constantly to empty around within the condenser Between heat release, progressively condense into liquid.These highly pressurised liquids have to flow through capillary, and reducing pressure by regulating flow can just flow slowly into evaporator, Maintain and vaporize with being kept in evaporator, absorbing and cooling temperature.Like this, refrigerator is done work using electric energy, by the thing of refrigerant State changes, and the heat around evaporator in case is transported in case post-condenser and goes to release, so goes round and begins again and constantly circulates, To reach refrigeration purpose.

Refrigerator is converted to the electric energy of input by its conversion equipment the change of ice the temperature inside the box, and these conversion equipments are good for Kang Chengdu will determine conversion efficiency, also represent the health degree of refrigerator.Time that in general, refrigerator uses is longer, Conversion equipment is lost more severe, and health degree is lower, it is necessary to consume more energy to realize identical temperature change, very To when health degree reaches to a certain degree, refrigerator can not all realize the change of temperature.The health degree of refrigerator is so important, existing Having technology, no technical scheme weighs its health degree, more to carry out the health degree of refrigerator without any technical scheme It is monitored.

The content of the invention

The technical problem to be solved in the present invention is, so heavy for the health degree of above-mentioned refrigerator in the prior art Will, no technical scheme weighs its health degree to prior art, more carrys out the health to refrigerator without any technical scheme Degree is come the technological deficiency that is monitored, there is provided a kind of monitoring method and monitoring system of the health status of refrigerator.

According to the wherein one side of the present invention, the present invention is its technical problem of solution, there is provided a kind of healthy shape of refrigerator The monitoring method of condition, refrigerant is absorbed heat in the evaporator by refrigerator and radiated when flowing through the condenser of refrigerator, upper Self-starting after electricity, comprises the following steps：

S1, the change t and the flow v in the unit interval for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator, And obtain the input power p of refrigerator；

S2, the energy transformation ratio for calculating refrigerator, energy transformation ratio k=tv ρ q/p, wherein q are the specific heat capacity of refrigerant, ρ For the density of refrigerant；

S3, health status is obtained, health status is according to the energy transformation ratio and the ratio of default standard energy conversion ratio It is worth to；

S4, show the health status in the display device of the refrigerator or respond the control of operator, by health Situation sends to specified equipment or sent a warning when the health status calculated is less than preset value.

In the monitoring method of the refrigerator situation of the present invention, the refrigerant is become when flowing through the condenser of refrigerator by gaseous state Heated or radiated for liquid, and gaseous state is changed into from liquid when flowing through the evaporator of refrigerator and freezed or Heat absorption.

In the monitoring method of the refrigerator situation of the present invention, default standard energy conversion ratio is to be carried out in advance according to following Following step acquired in：

A1, the change t0 for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator and the flow in the unit interval V0, and obtain the input power p0 of refrigerator；

A2, the default energy transformation ratio for calculating refrigerator, energy transformation ratio k0=t0*v0* ρ * q/p, wherein q are refrigeration The specific heat capacity of agent, ρ are the density of refrigerant.

In the monitoring method of the refrigerator situation of the present invention, the flow in the refrigerant unit interval obtains for flow sensor Flow divided by obtain the time after calculate gained or using flow sensor obtain refrigerant flow velocity after calculate gained, wherein singly Flow v in the time of position is equal to the cross-sectional area of flow velocity and refrigerant flows through tube.

In the monitoring method of the refrigerator situation of the present invention, the input power p of refrigerator is defeated using current sensor acquisition Obtained by entering electric current, wherein input power p is the product of input current and supply voltage.

The present invention additionally provides a kind of monitoring system of refrigerator situation, refrigerant is by ice to solve its technical problem The evaporator of case is absorbed heat and radiated when flowing through the condenser of refrigerator, after the power-up self-starting, including：

Parameter acquiring unit, for obtaining the change t and unit of temperature of the refrigerant when flowing through the evaporator of refrigerator Flow v in time, and obtain the input power p of refrigerator；

Conversion ratio computing unit, for calculating the energy transformation ratio of refrigerator, energy transformation ratio k=tv ρ q/p, wherein q are The specific heat capacity of refrigerant, ρ are the density of refrigerant；

Health draws unit, and for obtaining health status health status, health status is according to the energy transformation ratio and in advance If the ratio of standard energy conversion ratio be worth to.

Health treatment unit, for showing the health status or response operator in the display device of the refrigerator Control, health status is sent to specified equipment or sends alarm signal when the health status calculated is less than preset value Breath.

In the monitoring system of the refrigerator situation of the present invention, the refrigerant is become when flowing through the condenser of refrigerator by gaseous state Heated or radiated for liquid, and gaseous state is changed into from liquid when flowing through the evaporator of refrigerator and freezed or Heat absorption.

In the monitoring system of the refrigerator situation of the present invention, default standard energy conversion ratio is according to following subelements It is acquired in advance：

Subelement is obtained in advance, for obtaining the change t0 and list of temperature of the refrigerant when flowing through the evaporator of refrigerator Flow v0 in the time of position, and obtain the input power p0 of refrigerator；

Subelement is precalculated, for calculating the default energy transformation ratio of refrigerator, energy transformation ratio k0=t0*v0* ρ * q/p, wherein q are the specific heat capacity of refrigerant, and ρ is the density of refrigerant.

In the monitoring system of the refrigerator situation of the present invention, the flow in the refrigerant unit interval obtains for flow sensor Flow divided by obtain the time after calculate gained or using flow sensor obtain refrigerant flow velocity after calculate gained, wherein singly Flow v in the time of position is equal to the cross-sectional area of flow velocity and refrigerant flows through tube.

In the monitoring system of the refrigerator situation of the present invention, the input power p of refrigerator is defeated using current sensor acquisition Obtained by entering electric current, wherein input power p is the product of input current and supply voltage.

Implement the monitoring method and monitoring system of the refrigerator situation of the present invention, the health of the conversion equipment of refrigerator can be monitored The quality of degree so that related personnel can be informed in health status and inform related personnel when health status is less than preset value.

Brief description of the drawings

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing：

Fig. 1 be in the prior art refrigeration for refrigerator when operation principle schematic diagram；

Fig. 2 is the flow chart of a preferred embodiment of the monitoring method of the refrigerator situation of the present invention.

Embodiment

In order to which technical characteristic, purpose and the effect of the present invention is more clearly understood, now compares accompanying drawing and describe in detail The embodiment of the present invention.

As shown in Fig. 2 its be Fig. 2 be the present invention refrigerator situation monitoring method a preferred embodiment flow chart. In the monitoring method of the health status of the refrigerator of the present embodiment, refrigerant is freezed and flowed in the evaporator by refrigerator Radiated during condenser through refrigerator, it is identical with prior art.In the present embodiment, the monitoring method opens certainly after the power-up It is dynamic, comprise the following steps：

S1, the change t and the flow v in the unit interval for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator, And obtain the input power p of refrigerator.Refrigerant is changed into gaseous state when flowing through the evaporator of refrigerator, from liquid and absorbed heat, that is, makes Cryogen is changed into gaseous state from liquid when flowing through the evaporator of refrigerator and freezed.It is necessarily accompanied with the change of refrigerant temperature Change, to detect the temperature before change and the temperature after change respectively by temperature sensor.Flow in the refrigerant unit interval Flow is obtained for flow sensor divided by obtains the flow velocity for calculating gained after the time or utilizing flow sensor to obtain refrigerant Gained is calculated afterwards, and the flow v wherein in the unit interval is equal to the cross-sectional area of flow velocity and refrigerant flows through tube.Cross-sectional area can To be preset after being obtained in advance by producer, or after manual measurement, then preset.The input power p of refrigerator is utilization Obtained by current sensor obtains input current, wherein input power p is the product of input current and supply voltage.Due to power supply Voltage is generally, it is known that i.e. the supply voltage in China is 220V, and in other embodiments, it can also be surveyed by voltage sensor Measure.

S2, the energy transformation ratio for calculating refrigerator, energy transformation ratio k=tv ρ q/p during flow, wherein q are the ratio of refrigerant Thermal capacitance, ρ are the density of refrigerant.Q and ρ size is the general knowledge in this area, and tv ρ q are the heat absorbed in refrigerator inner refrigerant Amount, only this portion of energy is only useful energy.

S3, health status is obtained, health status is according to the energy transformation ratio and the ratio of default standard energy conversion ratio It is worth to.Default standard energy conversion ratio can be obtained by self study according to obtained by type approval test, or its His method.Refer to obtained by self study, default standard energy conversion ratio is according to acquired in following following step carried out in advance：

A1, the change t0 for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator and the flow in the unit interval V0, and obtain the input power p0 of refrigerator；

A2, the default energy transformation ratio for calculating refrigerator, energy transformation ratio k0=t0*v0* ρ * q/p, wherein q are refrigeration The specific heat capacity of agent, ρ are the density of refrigerant.

After calculating default energy transformation ratio, preserved and converted as in this monitoring method with the energy calculated The standard energy that rate is contrasted.It should be appreciated that general only just carry out self study when confirming that refrigerator is in a good state of health.

Health status can be ratio between the energy transformation ratio and default energy transformation ratio calculated or According to this than be worth to Health Category, the form such as healthy progress bar.Default standard energy conversion ratio can be a value, The change of temperature such as may be divided into n grade according to the different and different of air conditioner refrigeration effect, each grade corresponding one Individual default standard energy conversion ratio, it is also likely to be other dividing modes.

S4, show the health status in the display device of the refrigerator or respond the control of operator, by health Situation sends to specified equipment or sent a warning when the health status calculated is less than preset value.By this step Suddenly, user or other related personnel can learn the health status of refrigerator in time, can be timely when being in a bad state of health Notify maintenance personal to be overhauled or directly change refrigerator, avoid the waste of refrigerator energy and avoid that ice can not be learnt in time Case will damage, and without the available situation of refrigerator after refrigerator damage.

The invention provides another embodiment, the monitoring system for carrying out the further health status of the refrigerator to the present invention is carried out Explanation.In the monitoring system of the health status of the present embodiment refrigerator, refrigerant by refrigerator evaporator freezed and Radiated when flowing through the condenser of refrigerator, it is identical with prior art.In the present embodiment, the monitoring system after the power-up from Start, including parameter acquiring unit, conversion ratio computing unit, health draw unit and health treatment unit.Parameter acquiring list Member obtains the change t and the flow v in the unit interval of temperature of the refrigerant when flowing through the evaporator of refrigerator, and obtains refrigerator Input power p.Then conversion ratio computing unit calculates the energy transformation ratio of refrigerator, energy transformation ratio k=tv ρ q/p, wherein Q is the specific heat capacity of refrigerant, and ρ is the density of refrigerant.Health show that unit obtains health status health status, health status root It is worth to according to the ratio of the energy transformation ratio and default standard energy conversion ratio.Health treatment unit, in the refrigerator Display device on show the health status or respond the control of operator, health status is sent to specified equipment or Person sends a warning when the health status calculated is less than preset value.

Wherein, refrigerant is changed into liquid from gaseous state when flowing through the condenser of refrigerator and is heated or radiated, and Gaseous state is changed into from liquid when flowing through the evaporator of refrigerator and is freezed or is absorbed heat.

In the present embodiment, default standard energy conversion ratio is acquired in advance according to following subelements：

Subelement is obtained in advance, for obtaining the change t0 and list of temperature of the refrigerant when flowing through the evaporator of refrigerator Flow v0 in the time of position, and obtain the input power p0 of refrigerator；

Subelement is precalculated, for calculating the default energy transformation ratio of refrigerator, energy transformation ratio k0=t0*v0* ρ * q/p, wherein q are the specific heat capacity of refrigerant, and ρ is the density of refrigerant.

In the present embodiment, the flow in the refrigerant unit interval is after flow sensor obtains flow divided by obtains the time Calculate gained or calculate gained, flow v wherein in the unit interval etc. after the flow velocity of refrigerant is obtained using flow sensor In flow velocity and the cross-sectional area of refrigerant flows through tube.The input power p of refrigerator is to obtain input current using current sensor Resulting, wherein input power p is the product of input current and supply voltage.

Embodiments of the invention are described above in conjunction with accompanying drawing, but the invention is not limited in above-mentioned specific Embodiment, above-mentioned embodiment is only schematical, rather than restricted, one of ordinary skill in the art Under the enlightenment of the present invention, in the case of present inventive concept and scope of the claimed protection is not departed from, it can also make a lot Form, these are belonged within the protection of the present invention.

Claims (10)

1. a kind of monitoring method of the health status of refrigerator, refrigerant is absorbed heat in the evaporator by refrigerator and is flowing through ice Radiated during the condenser of case, it is characterised in that self-starting after the power-up, comprise the following steps：

S1, the change t and the flow v in the unit interval for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator, and obtain Take the input power p of refrigerator；

S2, the energy transformation ratio for calculating refrigerator, energy transformation ratio k=tv ρ q/p, wherein q are the specific heat capacity of refrigerant, and ρ is system The density of cryogen；

S3, health status is obtained, health status is worth according to the ratio of the energy transformation ratio and default standard energy conversion ratio Arrive；

S4, show the health status in the display device of the refrigerator or respond the control of operator, by health status Transmission sends a warning to specified equipment or when the health status calculated is less than preset value.

2. monitoring method according to claim 1, it is characterised in that the refrigerant when flowing through the condenser of refrigerator by Gaseous state is changed into liquid and radiated, and is changed into gaseous state from liquid when flowing through the evaporator of refrigerator and is absorbed heat.

3. monitoring method according to claim 1, it is characterised in that default standard energy conversion ratio is according to following pre- Acquired in the following step first carried out：

A1, the change t0 and the flow v0 in the unit interval for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator, and Obtain the input power p0 of refrigerator；

A2, the default energy transformation ratio for calculating refrigerator, energy transformation ratio k0=t0*v0* ρ * q/p, wherein q are refrigerant Specific heat capacity, ρ are the density of refrigerant.

4. according to the monitoring method described in claim 1, it is characterised in that the flow in the refrigerant unit interval is flow sensor Obtain flow divided by calculate gained after obtaining the time or calculate gained after the flow velocity of refrigerant is obtained using flow sensor, its Flow v in the middle unit interval is equal to the cross-sectional area of flow velocity and refrigerant flows through tube.

5. according to the monitoring method described in claim 1, it is characterised in that the input power p of refrigerator is to be obtained using current sensor Obtained by taking input current, wherein input power p is the product of input current and supply voltage.

6. a kind of monitoring system of the health status of refrigerator, refrigerant is absorbed heat in the evaporator by refrigerator and is flowing through ice Radiated during the condenser of case, it is characterised in that self-starting after the power-up, including：

Parameter acquiring unit, for obtaining change t and the unit interval of temperature of the refrigerant when flowing through the evaporator of refrigerator Interior flow v, and obtain the input power p of refrigerator；

Conversion ratio computing unit, for calculating the energy transformation ratio of refrigerator, energy transformation ratio k=tv ρ q/p, wherein q are refrigeration The specific heat capacity of agent, ρ are the density of refrigerant；

Health draws unit, for obtaining health status health status, health status according to the energy transformation ratio with it is default The ratio of standard energy conversion ratio is worth to.

Health treatment unit, for showing the health status in the display device of the refrigerator or responding the control of operator System, health status is sent to specified equipment or sent a warning when the health status calculated is less than preset value.

7. monitoring system according to claim 6, it is characterised in that the refrigerant when flowing through the condenser of refrigerator by Gaseous state is changed into liquid and is heated or radiated, and is changed into gaseous state from liquid when flowing through the evaporator of refrigerator and is made Cold or heat absorption.

8. monitoring system according to claim 6, it is characterised in that default standard energy conversion ratio is according to following Subelement is acquired in advance：

Subelement is obtained in advance, during change t0 and unit for obtaining temperature of the refrigerant when flowing through the evaporator of refrigerator Interior flow v0, and obtain the input power p0 of refrigerator；

Subelement is precalculated, for calculating the default energy transformation ratio of refrigerator, energy transformation ratio k0=t0*v0* ρ * q/ P, wherein q are the specific heat capacity of refrigerant, and ρ is the density of refrigerant.

9. according to the monitoring system described in claim 6, it is characterised in that the flow in the refrigerant unit interval is flow sensor Obtain flow divided by calculate gained after obtaining the time or calculate gained after the flow velocity of refrigerant is obtained using flow sensor, its Flow v in the middle unit interval is equal to the cross-sectional area of flow velocity and refrigerant flows through tube.

10. monitoring system according to claim 6, it is characterised in that the input power p of refrigerator is to utilize current sensor Obtained by obtaining input current, wherein input power p is the product of input current and supply voltage.