CN106225249B - Gas water heater and safety control system and method thereof - Google Patents

Abstract

The invention discloses a gas water heater and a safety control system and a method thereof, wherein the system comprises: an exhaust fan; the rotating speed detection unit is used for detecting the rotating speed of the exhaust fan; the power acquisition unit is used for acquiring the given value of the output power of the exhaust fan; the rotating speed difference value obtaining unit is used for obtaining a rotating speed actual value and a rotating speed reference value of the exhaust fan according to the given value of the output power and calculating the difference value between the rotating speed actual value and the rotating speed reference value; the exhaust control unit is respectively connected with the exhaust fan, the rotating speed detection unit, the rotating speed difference value acquisition unit and the power acquisition unit and used for correcting a preset outlet wind pressure curve of the exhaust fan according to the difference value, judging the air outlet wind pressure condition of the exhaust fan according to the rotating speed of the exhaust fan, the corrected outlet wind pressure curve and the output power given value, and adjusting the output power given value of the exhaust fan according to the air outlet wind pressure condition of the exhaust fan. The system can ensure that the gas water heater has good combustion conditions, ensures safe and reliable operation of the gas water heater and has high control precision.

Description

Gas water heater and safety control system and method thereof

Technical Field

The invention relates to the technical field of water heaters, in particular to a gas water heater and a safety control system and method thereof.

Background

At present, the common gas water heater on the market includes: d-type (natural exhaust type), Q-type (forced exhaust type), P-type (natural supply and exhaust), G-type (forced supply and exhaust), W-type (outdoor type), and the like. The Q-type and G-type gas water heaters are directly provided with exhaust fans to forcibly exhaust waste gas during combustion, so that residual gas explosion and other conditions are prevented.

In the related art, the Q-type gas water heater mostly adopts the wind pressure detection unit to detect the wind pressure of the air outlet, and then controls the exhaust fan and the ignition unit according to the detected wind pressure so as to ensure that the gas water heater can work normally. Although the air pressure detection unit can avoid the combustion operation of the gas water heater under the condition of backward flowing of air pressure, the device has higher cost, and the gas water heater is easy to stop operating due to slight air pressure, so that the gas water heater cannot be normally used by a user.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, the first objective of the present invention is to provide a safety control system for a gas water heater, which can ensure that the gas water heater has good combustion conditions, ensure that the gas water heater operates safely and reliably, has a fast response speed, can provide relatively accurate air volume, and improves control accuracy.

The second purpose of the invention is to provide a gas water heater.

The third purpose of the invention is to provide a safety control method of the gas water heater.

In order to achieve the above object, a safety control system for a gas water heater is provided in an embodiment of a first aspect of the present invention, including: the exhaust fan is used for exhausting waste gas generated during combustion of the gas water heater; the rotating speed detection unit is used for detecting the rotating speed of the exhaust fan; the power acquisition unit is used for acquiring an output power reference value and an output power given value of the exhaust fan; the rotating speed difference value obtaining unit is used for obtaining a rotating speed actual value of the exhaust fan and a rotating speed reference value of the exhaust fan according to the output power reference value of the exhaust fan and calculating a difference value between the rotating speed actual value and the rotating speed reference value; and the control unit that airs exhaust, the control unit that airs exhaust respectively with the exhaust fan the rotational speed detecting element rotational speed difference value acquire the unit with the power acquires the unit and links to each other respectively, be used for the basis the difference is right the preset export wind pressure curve of exhaust fan is revised, and according to the current output wind pressure curve and the judgement after the revision of exhaust fan the air outlet wind pressure condition of exhaust fan, and according to the air outlet wind pressure condition of exhaust fan is adjusted the current output power given value of exhaust fan, wherein, predetermine the export wind pressure curve and include the relation curve between a plurality of power given values and rotational speed, every relation curve represents the boundary line of two adjacent wind pressure conditions.

According to the safety control system of the gas water heater of the embodiment of the invention, firstly, the output power reference value and the output power given value of the exhaust fan are obtained through the power obtaining unit, the rotating speed actual value and the rotating speed reference value of the exhaust fan are obtained through the rotating speed difference obtaining unit according to the output power reference value of the exhaust fan, the difference value between the rotating speed actual value and the rotating speed reference value is obtained through calculation, then, the exhaust control unit corrects the preset outlet wind pressure curve of the exhaust fan according to the difference value between the rotating speed actual value and the rotating speed reference value, judges the wind pressure condition of the air outlet of the exhaust fan according to the current output power given value, the rotating speed of the exhaust fan and the corrected outlet wind pressure curve, and adjusts the output power given value of the exhaust fan according to the wind pressure condition of the air outlet of the exhaust fan, thereby realizing the adjustment of the wind volume, the introduced gas and air can reach good combustion conditions after being mixed, and the safe and reliable operation of the gas water heater is ensured. Meanwhile, the output power set value of the exhaust fan is directly adjusted to be actively controlled, and compared with passive control over the rotating speed of the exhaust fan, the control method has the advantages that the response speed is high, more accurate air volume can be provided, and the control precision is improved.

In addition, the safety control system of the gas water heater according to the above embodiment of the present invention may further have the following additional technical features:

according to an embodiment of the present invention, when the exhaust control unit corrects the preset outlet wind pressure curve of the exhaust fan according to the difference, the corrected outlet wind pressure curve includes a plurality of relation curves between the given power value and the sum of the rotating speed and the difference.

According to an embodiment of the present invention, the exhaust control unit determines the air outlet pressure condition of the exhaust fan according to the current output power set value of the exhaust fan, the rotation speed of the exhaust fan and the corrected outlet air pressure curve, and adjusts the output power set value of the exhaust fan according to the air outlet pressure condition of the exhaust fan, wherein if the exhaust control unit determines that the air outlet pressure condition of the exhaust fan is a low air pressure condition, the current output power set value of the exhaust fan is controlled to be reduced by a first preset value; if the air exhaust control unit judges that the air pressure condition of the air outlet of the exhaust fan is the medium air pressure condition, controlling the current output power set value of the exhaust fan to be kept unchanged; and if the air exhaust control unit judges that the air pressure condition of the air outlet of the exhaust fan is a high air pressure condition, controlling the current output power given value of the exhaust fan to increase by a second preset value.

According to an embodiment of the present invention, the safety control system of the gas water heater further includes a system control unit, and the system control unit is in mutual communication with the exhaust control unit, wherein if the exhaust control unit determines that the air pressure condition at the air outlet of the exhaust fan is the highest air pressure condition, or the rotation speed of the exhaust fan is greater than the rotation speed threshold value, the exhaust control unit sends a shutdown signal to the system control unit, so that the system control unit controls the gas water heater to shutdown according to the shutdown signal.

According to an embodiment of the present invention, the safety control system of a gas water heater further includes: the water supply unit is connected with the system control unit; and the temperature acquisition unit is connected with the system control unit and is used for acquiring the set outlet water temperature of the gas water heater and the cold water temperature of the gas water heater, wherein the system control unit calculates the total heat required by the gas water heater according to the water supply quantity of the water supply unit, the set outlet water temperature and the cold water temperature, and acquires the initial output power set value of the exhaust fan according to the total heat required by the gas water heater.

According to an embodiment of the present invention, the safety control system of the gas water heater further includes a gas unit, the gas unit is connected to the system control unit, and the gas unit has a proportional valve, wherein the system control unit further obtains a current control command according to the total heat required by the gas water heater, and controls the gas unit by controlling the proportional valve according to the current control command.

According to one embodiment of the invention, the gas water heater is a forced-draft gas water heater.

In order to achieve the purpose, the embodiment of the second aspect of the invention provides a gas water heater, which comprises the safety control system of the gas water heater.

The gas water heater of the embodiment of the invention can correct the preset outlet wind pressure curve of the exhaust fan according to the difference value between the actual rotating speed value and the reference rotating speed value of the exhaust fan through the safety control system, judge the air outlet wind pressure condition of the exhaust fan according to the current output power set value of the exhaust fan, the rotating speed of the exhaust fan and the corrected outlet wind pressure curve, and adjust the current output power set value of the exhaust fan according to the air outlet wind pressure condition of the exhaust fan, thereby realizing the adjustment of the air quantity of the exhaust fan, ensuring that the introduced gas and air can reach good combustion conditions after being mixed in the operation process of the gas water heater, ensuring the safe and reliable operation of the gas water heater, directly adjusting the output power set value of the exhaust fan into active control, compared with passive control of the rotating speed of the exhaust fan, not only the response speed is fast, but also more accurate air volume can be provided, and the control precision is improved.

In order to achieve the above object, a third aspect of the present invention provides a safety control method for a gas water heater, including the following steps: acquiring an output power reference value, an output power given value and a rotating speed reference value corresponding to the output power reference value of the exhaust fan; acquiring a rotating speed actual value of the exhaust fan according to the output power reference value of the exhaust fan, and calculating a difference value between the rotating speed actual value and the rotating speed reference value; correcting a preset outlet wind pressure curve of the exhaust fan according to the difference, wherein the preset outlet wind pressure curve comprises a plurality of relation curves between a given power value and a rotating speed, and each relation curve represents a boundary of two adjacent wind pressure conditions; detecting the rotating speed of an exhaust fan in the gas water heater; according to the current output power given value of exhaust fan the rotational speed of exhaust fan and the export wind pressure curve judgement after the correction the air outlet wind pressure condition of exhaust fan, and according to the air outlet wind pressure condition of exhaust fan is adjusted the current output power given value of exhaust fan.

According to the safety control method of the gas water heater of the embodiment of the invention, firstly, an output power reference value, an output power given value and a rotating speed reference value corresponding to the output power reference value of the exhaust fan are obtained, a rotating speed actual value and a rotating speed reference value of the exhaust fan are obtained according to the output power reference value of the exhaust fan, the difference value between the rotating speed actual value and the rotating speed reference value is calculated, a preset outlet wind pressure curve of the exhaust fan is corrected according to the difference value, then, the rotating speed of the exhaust fan is detected, the wind pressure condition of the air outlet of the exhaust fan is judged according to the current output power given value, the rotating speed of the exhaust fan and the corrected outlet wind pressure curve, the current output power given value of the exhaust fan is adjusted according to the wind pressure condition of the air outlet of the exhaust fan, thereby, the wind volume of the exhaust fan is adjusted, and the introduced gas and air can reach good combustion conditions, the safe and reliable operation of the gas water heater is ensured. Meanwhile, the output power set value of the exhaust fan is directly adjusted to be actively controlled, and compared with passive control over the rotating speed of the exhaust fan, the control method has the advantages that the response speed is high, more accurate air volume can be provided, and the control precision is improved.

In addition, the safety control method of the gas water heater according to the above embodiment of the present invention may further have the following additional technical features:

according to an embodiment of the present invention, when the preset outlet wind pressure curve of the exhaust fan is corrected according to the difference, the corrected outlet wind pressure curve includes a plurality of relation curves between the given output power values and the sum of the rotating speed and the difference.

According to an embodiment of the present invention, the determining the output wind pressure condition of the exhaust fan according to the output power set value of the exhaust fan, the rotation speed of the exhaust fan and the corrected outlet wind pressure curve, and adjusting the output power set value of the exhaust fan according to the output wind pressure condition of the exhaust fan includes: if the air pressure condition of the air outlet of the exhaust fan is judged to be a low air pressure condition, controlling the current output power given value of the exhaust fan to reduce by a first preset value; if the air pressure condition of the air outlet of the exhaust fan is judged to be the medium air pressure condition, controlling the current output power set value of the exhaust fan to be kept unchanged; and if the air pressure condition of the air outlet of the exhaust fan is judged to be a high air pressure condition, controlling the current output power given value of the exhaust fan to increase by a second preset value.

According to an embodiment of the present invention, the method for determining the air outlet pressure condition of the exhaust fan according to the current output power set value of the exhaust fan, the rotation speed of the exhaust fan and the corrected outlet pressure curve, and adjusting the current output power set value of the exhaust fan according to the air outlet pressure condition of the exhaust fan further comprises: if judge the air outlet wind pressure condition of exhaust fan is the highest wind pressure condition, perhaps the rotational speed of exhaust fan is greater than the rotational speed threshold value, then control gas heater shuts down.

According to an embodiment of the present invention, the safety control method of a gas water heater further includes: acquiring the water supply quantity of the gas water heater, acquiring the set outlet water temperature of the gas water heater and acquiring the cold water temperature of the gas water heater; calculating the total heat required by the gas water heater according to the water supply quantity, the set water outlet temperature and the cold water temperature, and acquiring a current control instruction and an initial output power set value of the exhaust fan according to the total heat required by the gas water heater; and controlling a proportional valve of a gas unit in the gas water heater according to the current control instruction to perform combustion control.

Drawings

FIG. 1 is a block diagram of a safety control system for a gas water heater according to one embodiment of the present invention;

FIG. 2 is a graph of a given output power value of an exhaust fan versus a rotational speed of the exhaust fan in accordance with one embodiment of the present invention;

FIG. 3 is a block diagram of a safety control system for a gas water heater according to another embodiment of the present invention;

FIG. 4 is a graph of total heat required by a gas water heater versus a control quantity of a proportional valve and a given value of output power of an exhaust fan according to an embodiment of the present invention;

FIG. 5 is a graph of a relationship between a given output power value of an exhaust fan and an actual rotating speed value and a reference rotating speed value of the exhaust fan according to an embodiment of the invention;

fig. 6 is a flowchart of a safety control method of a gas water heater according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

A gas water heater and a safety control system and method thereof according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Fig. 1 is a block diagram of a safety control system of a gas water heater according to one embodiment of the present invention. As shown in fig. 1, the safety control system of the gas water heater includes: the device comprises an exhaust fan 10, a rotating speed detection unit 20, a power acquisition unit 30, a rotating speed difference acquisition unit 40 and an exhaust control unit 50.

The exhaust fan 10 is used for exhausting waste gas generated during combustion of the gas water heater. The rotation speed detection unit 20 is used for detecting the rotation speed of the exhaust fan. The power obtaining unit 30 is used for obtaining the given value of the output power of the exhaust fan. The rotation speed difference obtaining unit 40 is configured to obtain a rotation speed actual value of the exhaust fan and a rotation speed reference value of the exhaust fan according to the output power given value of the exhaust fan, and calculate a difference between the rotation speed actual value and the rotation speed reference value. The exhaust control unit 50 is connected to the exhaust fan 10, the rotation speed detection unit 20, the power acquisition unit 30 and the rotation speed difference value acquisition unit 40, and is configured to modify a preset outlet wind pressure curve of the exhaust fan 10 according to a difference value between a rotation speed actual value and a rotation speed reference value of the exhaust fan 10, determine an air outlet wind pressure condition of the exhaust fan 10 according to a rotation speed of the exhaust fan 10, the modified outlet wind pressure curve and an output power set value of the exhaust fan 10, and adjust the output power set value of the exhaust fan 10 according to the air outlet wind pressure condition of the exhaust fan, where the preset outlet wind pressure curve is a relationship curve between the output power set value and a plurality of preset rotation speeds.

Specifically, in the first working process of the gas water heater, the power obtaining unit 30 obtains the power output given value of the exhaust fan 10, and under the reference condition, the sampling comparison program is run, that is, the rotation speed difference obtaining unit 40 obtains the corresponding rotation speed actual value according to the power output given value of the exhaust fan 10, and calculates the difference between the rotation speed actual value and the rotation speed reference value, and the exhaust control unit 50 corrects the preset outlet wind pressure curve of the exhaust fan 10 according to the difference between the rotation speed actual value and the rotation speed reference value, where the preset outlet wind pressure curve is the relationship curve between the output power given value and a plurality of preset rotation speeds (e.g., 3 preset rotation speeds). And then detect the rotational speed of the exhaust fan 10 in real time through the rotational speed detecting element 20, and judge the air outlet wind pressure situation of the exhaust fan 10 in combination with the outlet wind pressure curve after the revision of the exhaust fan 10 and the current output power given value of the exhaust fan 10, then adjust the output power given value of the exhaust fan 10 according to the air outlet wind pressure situation, thereby realize the regulation to the amount of wind of the exhaust fan 10, ensure that the gas water heater is in the operation process, can reach good combustion condition after the introduced gas is mixed with air, guarantee the security and reliability of the gas water heater. Meanwhile, the output power set value of the exhaust fan is directly adjusted to be actively controlled, compared with passive control over the rotating speed of the exhaust fan, the response speed is high, accurate air volume can be provided, the control precision is improved, and the cost of the whole system is low.

It will be appreciated that the given power output value of the exhaust fan 10 for calculating the difference between the actual value of the rotational speed and the reference value of the rotational speed and the given output power value for determining the outlet wind pressure condition may not be the same value, and the given output power value for determining the outlet wind pressure condition and the given output power value for adjustment may be the same value.

In an embodiment of the present invention, when the exhaust control unit 50 modifies the preset outlet wind pressure curve of the exhaust fan 10 according to the difference between the actual value of the rotation speed and the reference value of the rotation speed, the modified outlet wind pressure curve is a relationship curve between the given value of the output power and the sum of a plurality of preset rotation speeds and the above difference.

Further, the exhaust control unit 50 determines the wind pressure condition at the wind outlet of the exhaust fan 10 according to the rotation speed of the exhaust fan 10, the corrected outlet wind pressure curve and the given value of the output power of the exhaust fan 10, and adjusts the given value of the output power of the exhaust fan 10 according to the wind pressure condition at the wind outlet of the exhaust fan 10, wherein if the exhaust control unit 50 determines that the wind pressure condition at the wind outlet of the exhaust fan 10 is a low wind pressure condition, the given value of the output power of the exhaust fan 10 is controlled to be reduced by a first preset value; if the air exhaust control unit 50 judges that the air pressure condition of the air outlet of the air exhaust fan 10 is the medium air pressure condition, controlling the given value of the output power of the air exhaust fan 10 to be kept unchanged; if the exhaust control unit 40 determines that the air pressure condition at the air outlet of the exhaust fan 10 is a high air pressure condition, the output power given value of the exhaust fan 10 is controlled to be increased by a second preset value. The first preset value and the second preset value can be calibrated according to actual conditions, and can be fixed values or dynamically adjusted according to actual conditions.

Specifically, as shown in fig. 2, at a certain output power given value of the exhaust fan 10, if the rotation speed R of the exhaust fan 10 is located below the first curve R1+ dn (region I), it indicates that the wind pressure at the air outlet of the exhaust fan 10 is relatively small, at this time, the exhaust control unit 50 controls the given value of the output power of the exhaust fan 10 to decrease by the first preset value, i.e., the given value of the output power P- △ P1, to decrease the output power of the exhaust fan 10, if the rotation speed R of the exhaust fan 10 is located above the first curve R1+ dn and is located below the second curve R2+ dn (region II), it indicates that the wind pressure at the air outlet of the exhaust fan 10 is suitable for comparing with the rotation speed of the exhaust fan 10, when the rotation speed R of the exhaust fan 10 is increased, the rotation speed R10 naturally increases due to the physical characteristics of the exhaust fan, and therefore there is no need to adjust the given value of the output power of the exhaust fan 10, if the rotation speed R of the exhaust fan 10 is located above the second curve R2+ dn and is located below the third curve R63, it indicates that there is a difference between the given value of the exhaust fan 10 and the actual output power of the exhaust fan 10, and the second curve P10, and the output power given value of the exhaust fan 10 is a difference of the exhaust fan output power given value P + n, and the exhaust fan 10, at this time, where there is a difference between the output power given value of the exhaust fan 10, and the exhaust fan 10 output power of the exhaust fan 10.

That is, when the given value of the output power of the exhaust fan 10 is P1, if the detected rotating speed R of the exhaust fan 10 is less than C, the given value of the output power of the exhaust fan 10 is adjusted to be P1- △ P1, if C is less than R and less than B, the given value of the output power of the exhaust fan 10 is kept unchanged at P1, if B is less than R and less than A, the given value of the output power of the exhaust fan 10 is adjusted to be P1+ △ P2, so that the active control of the rotating speed of the exhaust fan is realized, the air volume of the exhaust fan and the air pressure of an air outlet can be quickly balanced, and the gas water heater is ensured to have good combustion conditions.

It can be understood that the relationship between the given value of the output power and the first curve R1+ dn, the second curve R2+ dn, and the third curve R3+ dn shown in fig. 2 is the corrected outlet wind pressure curve, where R1, R2, and R3 are a plurality of preset rotation speeds, and R1, R2, and R3 are all preset and stored rotation speed values for determining the outlet wind pressure condition of the exhaust fan 10.

In addition, it should be noted that the preset outlet wind pressure curve of the exhaust fan 10 may be corrected only when the gas water heater is first operated, so that the safety control time of the gas water heater may be reduced, and the energy consumption may be reduced.

According to an embodiment of the present invention, as shown in fig. 3, the safety control system of the gas water heater further includes: the system control unit 60, the system control unit 60 and the exhaust control unit 50 are in mutual communication, wherein if the exhaust control unit 50 determines that the air pressure condition at the air outlet of the exhaust fan 10 is the highest air pressure condition, or the rotating speed of the exhaust fan 10 is greater than the rotating speed threshold value, the exhaust control unit 50 sends a shutdown signal to the system control unit 60, so that the system control unit 60 controls the gas water heater to be shut down according to the shutdown signal.

Specifically, as shown in fig. 2, at a certain output power set value of the exhaust fan 10, if the rotation speed R of the exhaust fan 10 is located above the third curve R3+ dn (region IV), it indicates that the air pressure at the air outlet of the exhaust fan 10 is too high, and at this time, the gas water heater needs to be controlled to stop, for example, when the output power set value of the exhaust fan 10 is P1, if the rotation speed R of the exhaust fan 10 is greater than or equal to a, the gas water heater is controlled to stop; or, if the current rotation speed of the exhaust fan 10 is higher than the set rotation speed threshold (maximum limit rotation speed), the hot-gas water heater is controlled to stop, so that the safety of the gas water heater is effectively ensured.

According to an embodiment of the present invention, as shown in fig. 3, the safety control system of the gas water heater further includes: a water feed unit 70 and a temperature acquisition unit (not specifically shown in the figure). The water supply unit 70 is connected with the system control unit 60, the temperature acquisition unit is used for acquiring the set water outlet temperature of the gas water heater and the cold water temperature of the gas water heater, the system control unit 60 calculates the total heat required by the gas water heater according to the water supply quantity, the set water outlet temperature and the cold water temperature of the water supply unit 70, and acquires a current control instruction and an initial output power set value of the exhaust fan 10 according to the total heat required by the gas water heater.

Further, as shown in fig. 3, the safety control system of the gas water heater further includes: and a gas unit 80, wherein the gas unit 80 is connected to the system control unit 60, and the gas unit 80 has a proportional valve (not specifically shown), wherein the system control unit 60 controls the gas unit 80 by controlling the proportional valve according to the current control command.

Specifically, after the gas water heater is powered on and operated, the system control unit 60 calculates the total heat required by the gas water heater to heat cold water to the set outlet water temperature according to the set outlet water temperature of the gas water heater, the water supply amount of the water supply unit 70 and the cold water temperature set by the user, and then, as shown in fig. 4, the system control unit 60 obtains the control amount (i.e., the current control instruction) of the proportional valve in the gas unit 80 and the output power set value of the exhaust fan 10 according to the total heat required by the gas water heater to serve as the initial output power set value. Finally, the system control unit 50 controls the proportional valve according to the acquired control amount of the proportional valve to control the gas unit 80, and transmits the initial output power set value to the exhaust control unit 50 through a CAN bus or the like. It should be noted that, as shown in fig. 5, in the production stage or during the first operation of the gas water heater, the reference value of the rotation speed of the exhaust fan 10 may be obtained according to the given value of the output power of the exhaust fan 10, and a sampling comparison program is operated, that is, the actual value of the rotation speed of the exhaust fan 10 corresponding to the given value of the output power is detected, so as to obtain the difference between the actual value of the rotation speed and the reference value of the rotation speed, and further, the fan control unit may modify the preset outlet wind pressure curve of the exhaust fan according to the difference.

It can be understood that the given output power value of the exhaust fan obtained according to the total heat required by the gas water heater is the given output power value for judging the outlet wind pressure condition and the given output power value for adjusting.

The exhaust control unit 50 receives the initial output power set value after correcting the outlet wind pressure curve of the exhaust fan 10, controls the exhaust fan 10 according to the initial output power set value, and simultaneously detects the rotation speed of the exhaust fan 10 in real time through the rotation speed detection unit 30. If the detected rotation speed of the exhaust fan 10 is in the region I of the corrected outlet wind pressure curve, the given output power value P of the exhaust fan 10 is equal to P_Initial- △ P1, wherein P_InitialSetting a given value for initial output power; if the detected rotation speed of the exhaust fan 10 is located in the area II, the exhaust is performedGiven value of output power P of machine 10_Initial(ii) a If the detected rotation speed of the exhaust fan 10 is in the region III, the given output power value P of the exhaust fan 10 is P_Initial+ △ p2, the steps are cycled until the rotation speed of the exhaust fan 10 is in the area IV at a given output power value, or the rotation speed of the exhaust fan 10 is greater than the rotation speed threshold value, or a user-controlled stop instruction is received to control the gas water heater to stop.

In the operation process of the gas water heater, if the set outlet water temperature changes, or the water supply amount of the water supply unit 70 changes, the system control unit 60 obtains the control amount of the proportional valve and the initial output power set value of the gas water heater again, and controls the gas water heater according to the steps.

In the embodiment of the present invention, the gas water heater may be a forced-air-exhaust gas water heater, and is not limited herein.

According to the safety control system of the gas water heater of the embodiment of the invention, firstly, the output power given value of the exhaust fan is obtained through the power obtaining unit, the corresponding rotating speed actual value is obtained through the rotating speed difference obtaining unit by running the self-sampling comparison program according to the output power given value, the difference between the rotating speed actual value and the rotating speed reference value of the exhaust fan is calculated, the preset outlet wind pressure curve of the exhaust fan is corrected through the exhaust control unit according to the difference between the rotating speed actual value and the rotating speed reference value of the exhaust fan, then, the exhaust control unit judges the air outlet wind pressure condition of the exhaust fan according to the rotating speed of the exhaust fan, the corrected outlet wind pressure curve and the output power given value of the exhaust fan, and adjusts the output power given value of the exhaust fan according to the air outlet wind pressure condition of the exhaust fan, thereby realizing the adjustment of the air volume of the exhaust, the introduced gas and air can reach good combustion conditions after being mixed, and the safe and reliable operation of the gas water heater is ensured. Meanwhile, the output power set value of the exhaust fan is directly adjusted to be actively controlled, and compared with passive control over the rotating speed of the exhaust fan, the control method has the advantages of being high in response speed, capable of providing accurate air volume and improving control precision.

Fig. 6 is a flowchart of a safety control method of a gas water heater according to an embodiment of the present invention. As shown in fig. 6, the safety control method of the gas water heater includes the following steps:

and S1, acquiring the output power given value of the exhaust fan and the rotating speed reference value of the exhaust fan corresponding to the output power given value.

And S2, acquiring the actual rotating speed value of the exhaust fan according to the given output power value of the exhaust fan, and calculating the difference between the actual rotating speed value and the reference rotating speed value of the exhaust fan.

And S3, correcting a preset outlet wind pressure curve of the exhaust fan according to the difference value, wherein the preset outlet wind pressure curve is a relation curve between the output power given value and a plurality of preset rotating speeds.

And S4, detecting the rotating speed of an exhaust fan in the gas water heater.

And S5, judging the air outlet pressure condition of the exhaust fan according to the rotating speed of the exhaust fan, the corrected outlet pressure curve and the output power set value of the exhaust fan, and adjusting the output power set value of the exhaust fan according to the air outlet pressure condition of the exhaust fan.

Specifically, in the first working process of the gas water heater, a power output given value and a corresponding rotating speed reference value of the exhaust fan are firstly obtained, a sampling comparison program is operated under a reference condition, namely, a corresponding rotating speed actual value is obtained according to the power output given value of the exhaust fan, the difference value between the rotating speed actual value and the rotating speed reference value is calculated, and a preset outlet wind pressure curve of the exhaust fan is corrected according to the difference value between the rotating speed actual value and the rotating speed reference value, wherein the preset outlet wind pressure curve is a relation curve between the output power given value and a plurality of preset rotating speeds (such as 3 preset rotating speeds). And then in the working process of the gas water heater this time or afterwards, the rotating speed of the exhaust fan is detected in real time, the outlet wind pressure condition of the exhaust fan is judged by combining the corrected outlet wind pressure curve and the current output power given value of the exhaust fan, and then the output power given value of the exhaust fan is adjusted according to the air outlet wind pressure condition, so that the air quantity of the exhaust fan is adjusted, the gas water heater is ensured to achieve good combustion conditions after introduced gas is mixed with air in the running process, and the safety and the reliability of the gas water heater are ensured. Meanwhile, the output power set value of the exhaust fan is directly adjusted to be actively controlled, and compared with passive control over the rotating speed of the exhaust fan, the control method has the advantages that the response speed is high, more accurate air volume can be provided, and the control precision is improved.

In one embodiment of the present invention, when the preset outlet wind pressure curve of the exhaust fan is corrected according to the difference between the actual value of the rotation speed and the reference value of the rotation speed, the corrected outlet wind pressure curve is a relation curve between the given value of the output power and the sum of a plurality of preset rotation speeds and the above difference.

Further, judge the air outlet wind pressure condition of exhaust fan according to the output wind pressure setting value of the rotational speed of exhaust fan, export wind pressure curve after the correction and exhaust fan to adjust the output power setting value of exhaust fan according to the air outlet wind pressure condition of exhaust fan, include: if the air pressure condition of the air outlet of the exhaust fan is judged to be a low air pressure condition, controlling the given value of the output power of the exhaust fan to reduce by a first preset value; if the air pressure condition of the air outlet of the exhaust fan is judged to be the medium air pressure condition, controlling the given value of the output power of the exhaust fan to be kept unchanged; and if the air pressure condition of the air outlet of the exhaust fan is judged to be a high air pressure condition, controlling the output power given value of the exhaust fan to increase by a second preset value.

Specifically, as shown in fig. 2, at a certain output power set value of the exhaust fan, if the rotation speed R of the exhaust fan is located below the first curve R1+ dn (region I), it indicates that the wind pressure at the air outlet of the exhaust fan is relatively small, and at this time, the output power set value of the exhaust fan is controlled to be reduced by the first preset value, i.e., the output power set value P- △ P1, so as to reduce the output power of the exhaust fan, if the rotation speed R of the exhaust fan is located above the first curve R1+ dn and below the second curve R2+ dn (region II), it indicates that the wind pressure at the air outlet of the exhaust fan is relatively suitable to the rotation speed of the exhaust fan, and when the wind pressure increases, the rotation speed of the exhaust fan naturally increases due to the physical characteristics of the exhaust fan, so that there is no need to adjust the output power set value of the exhaust fan, if the rotation speed R of the exhaust fan is located above the second curve R2+ dn and below the third curve R3+ dn (region III), it indicates that the rotation speed of the exhaust fan output power set value P is increased, and the exhaust fan output power of the exhaust fan is increased by the second preset value P3625, and the exhaust fan output power set value P is a difference between the actual output power set value P.

That is, when the given value of the output power of the exhaust fan is P1, if the detected rotating speed R of the exhaust fan is less than C, the given value of the output power of the exhaust fan is adjusted to be P1- △ P1, if C is less than or equal to R and less than B, the given value of the output power of the exhaust fan keeps P1 unchanged, if B is less than or equal to R and less than A, the given value of the output power of the exhaust fan is adjusted to be P1+ △ P2, so that the active control of the air volume of the exhaust fan is realized, the air volume of the exhaust fan and the air pressure of an air outlet can be quickly balanced, and the gas water heater is ensured to have good combustion conditions.

It can be understood that the relationship between the given value of output power and the first curve R1+ dn, the second curve R2+ dn, and the third curve R3+ dn shown in fig. 2 is the corrected outlet wind pressure curve, where R1, R2, and R3 are 3 preset rotation speeds, and R1, R2, and R3 are all preset and stored rotation speed values for determining the outlet wind pressure condition of the exhaust fan.

In addition, it should be noted that the preset outlet wind pressure curve of the exhaust fan can be corrected only when the gas water heater works for the first time, so that the safety control time of the gas water heater can be reduced, and the energy consumption can be reduced.

Further, judge the air outlet wind pressure condition of exhaust fan according to the output wind pressure setting value of the rotational speed of exhaust fan, export wind pressure curve after the correction and exhaust fan to adjust the output power setting value of exhaust fan according to the air outlet wind pressure condition of exhaust fan, still include: and if the air pressure condition of the air outlet of the exhaust fan is judged to be the highest air pressure condition, or the rotating speed of the exhaust fan is greater than the rotating speed threshold value, controlling the gas water heater to stop.

Specifically, as shown in fig. 2, at a certain output power set value of the exhaust fan, if the rotation speed R of the exhaust fan is located above the third curve R3+ dn (region IV), it indicates that the wind pressure at the air outlet of the exhaust fan is too high, and at this time, the gas water heater needs to be controlled to stop, for example, when the output power set value of the exhaust fan is P1, if the rotation speed R of the exhaust fan is greater than or equal to a, the gas water heater is controlled to stop; or, if the rotating speed of the current exhaust fan is higher than a set rotating speed threshold value (maximum limit rotating speed), the hot-gas water heater is controlled to stop, and therefore the safety of the gas water heater is effectively guaranteed.

According to an embodiment of the present invention, the safety control method of a gas water heater further includes: acquiring the water supply quantity of the gas water heater, acquiring the set outlet water temperature of the gas water heater and acquiring the cold water temperature of the gas water heater; calculating the total heat required by the gas water heater according to the water supply quantity, the water outlet set temperature and the cold water temperature, and acquiring a current control instruction and an initial output power set value of the exhaust fan according to the total heat required by the gas water heater; and controlling the combustion by controlling a proportional valve of a gas unit in the gas water heater according to the current control instruction.

Specifically, after the gas water heater is powered on and works, the total heat required by the gas water heater to heat cold water to the set outlet water temperature is calculated according to the set outlet water temperature, the water supply quantity and the cold water temperature of the gas water heater set by a user, and then, as shown in fig. 4, the control quantity (namely, a current control instruction) of a proportional valve in a gas unit and the output power set value of an exhaust fan are obtained according to the total heat required by the gas water heater to serve as the initial output power set value. And finally, controlling the proportional valve according to the acquired control quantity of the proportional valve so as to control the gas unit, and controlling the exhaust fan according to the initial output power given value.

And detecting the rotating speed of the exhaust fan in real time and judging the rotating speed. At a given value of initial output power P_InitialIf the detected rotation speed of the exhaust fanIn the region I of the modified outlet wind pressure curve shown in fig. 2, the given output power value P of the exhaust fan is P ═ P_Initial△ P1, if the detected speed of the fan is in region II, the given value P of the output power of the fan is P_Initial(ii) a If the detected rotation speed of the exhaust fan is in the region III, the given output power value P of the exhaust fan is equal to P_InitialAnd + △ P2, the steps are cycled until the rotating speed of the exhaust fan is in the area IV at a given output power value, or the rotating speed of the exhaust fan is greater than a rotating speed threshold value, or a user control stop instruction is received to control the stop of the gas water heater.

In the running process of the gas water heater, if the set temperature of the outlet water is changed or the water supply quantity is changed, and the like, the control quantity of the proportional valve and the initial output power set value of the gas water heater are obtained again, and the gas water heater is controlled according to the steps.

According to the safety control method of the gas water heater of the embodiment of the invention, firstly, the given value of the output power of the exhaust fan and the corresponding reference value of the rotating speed of the exhaust fan are obtained, acquiring the actual value of the rotating speed of the exhaust fan according to the given value of the output power of the exhaust fan, calculating the difference between the actual value of the rotating speed and the reference value of the rotating speed, correcting the preset outlet wind pressure curve of the exhaust fan according to the difference, then, detecting the rotating speed of the exhaust fan, judging the air pressure condition of the air outlet of the exhaust fan according to the rotating speed of the exhaust fan, the corrected outlet air pressure curve and the given value of the output power of the exhaust fan, and the given value of the output power of the exhaust fan is adjusted according to the wind pressure condition of the air outlet of the exhaust fan, therefore, the air quantity of the exhaust fan is adjusted, the introduced gas and air can be mixed to achieve good combustion conditions in the operation process of the gas water heater, and the safe and reliable operation of the gas water heater is guaranteed. Meanwhile, the output power set value of the exhaust fan is directly adjusted to be actively controlled, and compared with passive control over the rotating speed of the exhaust fan, the control method has the advantages that the response speed is high, more accurate air volume can be provided, and the control precision is improved.

In addition, the embodiment of the invention also provides a gas water heater, which comprises the safety control system of the gas water heater.

The gas water heater of the embodiment of the invention can correct the preset outlet wind pressure curve of the exhaust fan according to the difference value between the actual rotating speed value and the reference rotating speed value of the exhaust fan, judge the wind pressure condition of the air outlet of the exhaust fan according to the rotating speed of the exhaust fan, the corrected outlet wind pressure curve and the given output power value of the exhaust fan, and adjust the given output power value of the exhaust fan according to the wind pressure condition of the air outlet of the exhaust fan, thereby realizing the adjustment of the wind volume of the exhaust fan, ensuring that the introduced gas and air can reach good combustion conditions in the operation process of the gas water heater, ensuring the safe and reliable operation of the gas water heater, directly adjusting the given output power value of the exhaust fan into active control, and compared with passive control of the rotating speed of the exhaust fan, the gas water heater has fast response speed, and can provide comparatively accurate amount of wind, improved control accuracy.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (13)

1. A safety control system for a gas water heater, comprising:

the exhaust fan is used for exhausting waste gas generated during combustion of the gas water heater;

the rotating speed detection unit is used for detecting the rotating speed of the exhaust fan;

the power acquisition unit is used for acquiring an output power reference value and an output power given value of the exhaust fan, wherein the initial output power given value of the exhaust fan is acquired according to the total heat required by the gas water heater;

the rotating speed difference value obtaining unit is used for obtaining a rotating speed actual value of the exhaust fan and a rotating speed reference value of the exhaust fan according to the output power reference value of the exhaust fan and calculating a difference value between the rotating speed actual value and the rotating speed reference value; and

the control unit airs exhaust, the control unit airs exhaust respectively with the exhaust fan the rotational speed detecting element the rotational speed difference value acquires the unit with the power acquisition unit links to each other, is used for the basis the difference value is revised the predetermined export wind pressure curve of exhaust fan, and basis the current output power given value of exhaust fan the rotational speed of exhaust fan is judged with the export wind pressure curve after the correction the air outlet wind pressure condition of exhaust fan, and according to the air outlet wind pressure condition of exhaust fan is adjusted the current output power given value of exhaust fan, wherein, predetermine the relation curve that export wind pressure curve includes between a plurality of output power given values and the rotational speed, every relation curve represents the boundary line of two adjacent wind pressure conditions.

2. The safety control system of a gas water heater according to claim 1, wherein when the exhaust control unit corrects the preset outlet wind pressure curve of the exhaust fan according to the difference,

the corrected outlet wind pressure curve comprises a relation curve between a plurality of output given values and the sum of the rotating speed and the difference value.

3. The safety control system of gas water heater according to claim 2, wherein the exhaust control unit determines the air outlet pressure condition of the exhaust fan according to the current output power set value of the exhaust fan, the rotation speed of the exhaust fan and the corrected outlet pressure curve, and adjusts the current output power set value of the exhaust fan according to the air outlet pressure condition of the exhaust fan, wherein,

if the air exhaust control unit judges that the air pressure condition of the air outlet of the exhaust fan is a low air pressure condition, controlling the current output power given value of the exhaust fan to reduce by a first preset value;

if the air exhaust control unit judges that the air pressure condition of the air outlet of the exhaust fan is the medium air pressure condition, controlling the current output power set value of the exhaust fan to be kept unchanged;

and if the air exhaust control unit judges that the air pressure condition of the air outlet of the exhaust fan is a high air pressure condition, controlling the current output power given value of the exhaust fan to increase by a second preset value.

4. The safety control system of a gas water heater according to any one of claims 1 to 3, further comprising a system control unit in mutual communication with the exhaust control unit, wherein,

if the control unit that airs exhaust judges the air outlet wind pressure condition of exhaust fan is the highest wind pressure condition, perhaps the rotational speed of exhaust fan is greater than the rotational speed threshold value, the control unit that airs exhaust then sends shut down signal extremely system control unit, so that system control unit basis shut down signal control gas heater shuts down.

5. The safety control system for a gas water heater according to claim 4, further comprising:

the water supply unit is connected with the system control unit;

a temperature obtaining unit connected with the system control unit and used for obtaining the set temperature of the outlet water of the gas water heater and the temperature of the cold water of the gas water heater, wherein,

and the system control unit calculates the total heat required by the gas water heater according to the water supply quantity of the water supply unit, the set water outlet temperature and the cold water temperature, and obtains the initial output power set value of the exhaust fan according to the total heat required by the gas water heater.

6. The safety control system of a gas water heater according to claim 5, further comprising a gas unit connected to the system control unit, the gas unit having a proportional valve, wherein,

and the system control unit also acquires a current control instruction according to the total heat required by the gas water heater and controls the gas unit by controlling the proportional valve according to the current control instruction.

7. The safety control system for a gas water heater according to claim 1, wherein the gas water heater is a forced-air exhaust type gas water heater.

8. Gas water heater characterized by comprising a safety control system of a gas water heater according to any one of claims 1-7.

9. A safety control method of a gas water heater is characterized by comprising the following steps:

acquiring an output power reference value, an output power given value and a rotating speed reference value corresponding to the output power reference value of an exhaust fan, wherein the initial output power given value of the exhaust fan is acquired according to the total heat required by the gas water heater;

acquiring a rotating speed actual value of the exhaust fan according to the output power reference value of the exhaust fan, and calculating a difference value between the rotating speed actual value and the rotating speed reference value;

correcting a preset outlet wind pressure curve of the exhaust fan according to the difference, wherein the preset outlet wind pressure curve comprises a plurality of relation curves between given output power values and rotating speeds, and each relation curve represents a boundary of two adjacent wind pressure conditions;

detecting the rotating speed of an exhaust fan in the gas water heater; and

according to the current output power given value of exhaust fan the rotational speed of exhaust fan and the export wind pressure curve judgement after the correction the air outlet wind pressure condition of exhaust fan, and according to the air outlet wind pressure condition of exhaust fan is adjusted the current output power given value of exhaust fan.

10. The safety control method for gas water heater according to claim 9, wherein when the preset outlet wind pressure curve of the exhaust fan is corrected according to the difference,

the corrected outlet wind pressure curve comprises a relation curve between a plurality of output given values and the sum of the rotating speed and the difference value.

11. The safety control method of a gas water heater according to claim 10, wherein said determining the air outlet pressure condition of the exhaust fan according to the current output power set value of the exhaust fan, the rotation speed of the exhaust fan and the corrected outlet pressure curve, and adjusting the current output power set value of the exhaust fan according to the air outlet pressure condition of the exhaust fan comprises:

if the air pressure condition of the air outlet of the exhaust fan is judged to be a low air pressure condition, controlling the current output power given value of the exhaust fan to reduce by a first preset value;

if the air pressure condition of the air outlet of the exhaust fan is judged to be the medium air pressure condition, controlling the current output power set value of the exhaust fan to be kept unchanged;

and if the air pressure condition of the air outlet of the exhaust fan is judged to be a high air pressure condition, controlling the current output power given value of the exhaust fan to increase by a second preset value.

12. The safety control method of a gas water heater according to any one of claims 9-11, wherein said determining the air outlet pressure condition of the exhaust fan according to the current output power set value of the exhaust fan, the rotation speed of the exhaust fan and the corrected outlet pressure curve, and adjusting the current output power set value of the exhaust fan according to the air outlet pressure condition of the exhaust fan, further comprises:

if judge the air outlet wind pressure condition of exhaust fan is the highest wind pressure condition, perhaps the rotational speed of exhaust fan is greater than the rotational speed threshold value, then control gas heater shuts down.

13. The safety control method of a gas water heater according to claim 9, further comprising:

acquiring the water supply quantity of the gas water heater, acquiring the set outlet water temperature of the gas water heater and acquiring the cold water temperature of the gas water heater;

calculating the total heat required by the gas water heater according to the water supply quantity, the set water outlet temperature and the cold water temperature, and acquiring a current control instruction and an initial output power set value of the exhaust fan according to the total heat required by the gas water heater;

and controlling a proportional valve of a gas unit in the gas water heater according to the current control instruction to perform combustion control.

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