JPH08326663A - Variable speed water supply equipment - Google Patents

Abstract

PURPOSE: To facilitate the stable action of a direct-connection type variable speed water supply equipment even though the inflow pressure of a pump is changed. CONSTITUTION: An inflow pipe 12 connected to a distributing water pipe 11, a pressurizing pump 13 connected to this inflow pipe 12, a discharge pipe 18 connected to the discharge side of this pressurizing pump 13 and connected to a terminal water supplier, and a inflow pressure sensor 21 for detecting the inflow pressure of the pressurizing pump 13 provided on the inflow pipe 12 are provided and also a discharge pressure sensor 23 for detecting the discharge pressure of a pressurizing pump mounted in the discharge pie 18, a variable speed driving means 25 for variably driving the pressurizing pump, and control means for controlling the pump are provided. The control means corrects the parameters which control the operation of a pump in compliance with a pump flow-in pressure detected by a inflow pressure detector so as to make operation control based upon the corrected parameters.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable speed water supply system, and more particularly to a so-called direct connection type variable speed water supply system in which a water distribution pipe is directly connected to an end water supply system via a pressure pump.

[0002]

2. Description of the Related Art FIG. 1 shows a system outline of a direct connection type variable speed water supply system. For example, an inflow pipe 12 is connected to a water distribution pipe 11 which is a main water pipe, and a pressurizing pump 13 is connected to the inflow pipe. A water meter 15 and an inflow side pressure tank 16 are connected to the inflow pipe 12. Pressure pump 13
A discharge pipe 18 connected to the terminal water supply device 17 is connected to the discharge side of the. A flow switch 19, a discharge side pressure tank 20 and the like are connected to the discharge pipe 18.

The flow switch 19 is a switch for detecting the flow rate, and particularly when a small amount of water is detected, the flow switch 19 performs a so-called small water amount stop operation for stopping the operation of the pump in order to prevent a shutoff operation of the pump. . An inflow pressure detector 21 is connected to the inflow side of the pressurizing pump 13, detects the pressure on the inflow side of the pressurizing pump 13, and sends a signal thereof to the control unit 22. Similarly, a discharge pressure detector 23 is provided on the discharge side of the pressurizing pump 13, and sends a pressure signal on the discharge side to the control unit 22.

The pump 13 is driven at a variable speed by an electric motor 25 (variable speed means) equipped with a frequency / voltage converter (inverter) connected to a three-phase 200V commercial power source. The control unit 22 sends a signal to the variable speed means 25 based on the signals from the inflow pressure detector 21 and the discharge pressure detector 23 to control the rotation speed of the pump 13 to an arbitrary speed.

Japanese Unexamined Patent Publication Nos. 5-118280 and 5
According to Japanese Patent Application Laid-Open No. 263444/1993 and Japanese Patent Application Laid-Open No. 5-240186, the speed of the pump is kept constant so as to constantly supply water of a predetermined pressure to the terminal water supply equipment. A technique for increasing or decreasing the is disclosed. Further, in order to prevent the water pressure from decreasing in the water distribution pipe, when the pressure on the inflow side of the pump decreases, the speed of the pump is reduced or stopped to prevent the pressure decrease on the water distribution pipe side. Etc. are disclosed.

In such a direct connection type variable speed water supply device,
There are various merits as compared with the conventional method of connecting a water storage tank to a water distribution pipe and distributing the water stored in the water storage tank to the terminal water supply equipment using a pressure pump. The merit is that since the water tank is not provided, the water supply device can be downsized as a whole and the installation area can be reduced. It is preferable for hygiene because water is not stored. Since the water pressure of the water distribution pipe can be used as it is on the suction side of the pressurizing pump, the head of the pressurizing pump is lowered, and energy can be saved accordingly.

[0007]

However, since the conventional direct connection type water supply apparatus was provided with the water tank, the pressure side of the pressurizing pump was maintained at almost zero pressure, and the pressure of the pump inflow side was directly connected. It didn't rise like a mold. The parameters used for the operation control of the conventional variable speed water supply device are set when such a water storage device is provided and when the inflow pressure is substantially zero, but they have been accumulated by many experiences. However, in the direct connection type variable speed water supply device, the pressure on the inflow side is always affected by the water pressure of the water distribution pipe, and therefore there are various inconveniences if the conventional parameters for controlling the operation of the pump are used as they are.

For example, the flow rate detector detects that the amount of water is small, temporarily operates the pump at a relatively high operating speed for a certain period of time, accumulates pressure in the pressure tank, and then stops the pump. May take action.
Heretofore, the operating speed of the pump has been set on the assumption that the pressure on the inflow side is almost zero when the pressure is stored in the tank. However, if the inflow pressure of the pump fluctuates as in the direct connection type water supply device, if the operating speed of the pump that accumulates pressure in the tank is based on the assumption that the inflow pressure is zero, the discharge amount will be equal to the inflow pressure of the pump. Since the pressure increases, there is a problem that the accumulated pressure value increases.

In addition, in a variable speed water supply apparatus having two pumps which can be operated in parallel, when one pump cannot supply water, another spare pump is additionally supplied to operate in parallel. . If the operation speed reaches the rated speed of the pump when the inflow pressure is zero while the discharge pressure is constant, the pump is overloaded when the inflow pressure becomes high. There is a problem. This is because the operating point shifts to the large water volume side in order to reach the set discharge pressure rated operating speed from the pump head characteristics.

Further, if the inflow pressure becomes high or the amount of load water decreases while the two pumps are operating in parallel, one pump will be in time and it is necessary to disengage one pump. If the timing of the disconnection disconnection is set to a certain operating speed when the inflow pressure is zero, there is a problem that an inching operation to be added occurs as soon as the inflow pressure fluctuates. Further, when the inflow pressure becomes low, the amount of water that breaks off changes to a small amount. Therefore, even if the amount of water that can be operated by one unit is used, there is a case where two units continue to operate without disconnecting, which was a waste of energy. or,
Further, the amount of water to be disconnected changes to a small amount, and even if the amount of water is zero, the pump does not disconnect and the pump heats up due to the shutoff operation.

The present invention has been made in view of the above circumstances, and provides a variable speed water supply apparatus in a direct connection type variable speed water supply apparatus which can perform stable operation even if the inflow pressure of the pump fluctuates. The purpose is to do.

[0012]

The variable speed water supply apparatus of the present invention is connected to an inflow pipe connected to a water distribution pipe, a pressurizing pump connected to the inflow pipe, and a discharge side of the pressurizing pump. A discharge pipe connected to the terminal water supply device, an inflow pressure detector for detecting an inflow pressure of a pressure pump provided in the inflow pipe, and a discharge pressure of a pressure pump provided in the discharge pipe are detected. A discharge pressure detector, a variable speed drive means for driving the pressurizing pump at a variable speed, and a control means for controlling the pump are provided, and the control means sets a parameter for controlling the operation of the pump as the inflow pressure. It is characterized in that it is corrected according to the pump inflow pressure detected by the detector, and the operation is controlled based on the corrected parameter.

The correction of the parameter according to the pump inflow pressure is based on the relational expression Po = F (V) between the arbitrary operating speed V of the pump and the shutoff pressure Po when the inflow pressure value is zero. The parameter Vn for controlling the operation of the pump when the inflow pressure value is zero is calculated according to the inflow pressure Ps as follows: Vn '= ((F (Vn) -Ps) / F (Vn)) ^1/2 * V
It is characterized by being corrected by n.

The corrected parameter Vn 'for controlling the operation of the pump is used for controlling the pump when a small amount of water is stopped, and if the flow rate detector detects that the amount of water is small. The operation speed Vn when the small amount of water is accumulated when the inflow pressure value is zero is pressurized at a speed Vn 'corrected according to the above formula for a certain period of time.

Further, the corrected parameter Vn 'for controlling the operation of the pump is added to the one pump in operation when the two pumps are operated in parallel when the two pumps are additionally operated. The second pump is additionally supplied when the set speed Vn for additional injection of the pump when the inflow pressure value is zero reaches the speed Vn 'corrected according to the above equation. To do.

The corrected parameter Vn 'for controlling the operation of the pump is such that when the two pumps are operating in parallel and one of the two pumps is disconnected, the inflow pressure value is Set speed Vn of pump disconnection at zero
Is performed at a speed Vn 'corrected in accordance with the above equation.

The parameters of the pump operation control when the inflow pressure is zero are corrected according to the pump inflow pressure detected by the inflow pressure detector, and the operation control is performed based on the corrected parameters. In the direct connection type variable speed water supply device, even if the inflow pressure of the pump fluctuates, the operation control can be performed under appropriate parameters.

Generally, the shutoff pressure of a pump is proportional to the square of the rotational speed of the pump. Therefore, the pump operating speed V
Based on the relational expression Po = F (V) between the dead pressure and the dead pressure Po, the parameter Vn for controlling the operation of the pump at the inflow pressure value of zero is expressed by the expression Vn '= ((F (Vn) -Ps) / F ( By correcting Vn)) ^1/2 × Vn, it is possible to operate with the corrected parameter Vn 'when the inflow pressure Ps is present.

Since the pressure-accumulation operating speed Vn when the small amount of water is stopped is operated at the speed Vn 'corrected according to the above equation, the discharge side pressure can be prevented from rising extremely.

When two pumps are operated in parallel, when the second pump is additionally charged to the operating one pump, the operating speed Vn 'used for the additional charging is set to the inflow pressure. Since the correction is performed based on the equation that takes into consideration, it is possible to add the second pump additionally under an appropriate load. This avoids overloading the pump.

Two pumps are operating in parallel, and when one of the pumps is disconnected, the set speed Vn for disconnecting the pump when the inflow pressure value is zero is corrected by the above equation Vn. Since the disconnection is performed at ′, the inching operation of the pump can be prevented, and the appropriate disconnection of the pump can be performed.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments and examples of the present invention will be described below with reference to the accompanying drawings.

Also in the present invention, the system configuration in which the pressurizing pump 13 is directly connected to the water distribution pipe 11 and the terminal water supply equipment 17 is directly connected to the water distribution pipe 11 without using the water storage tank is as shown in FIG. Then, the pressurizing pump 13 receives the signal from the discharge pressure detector 23 so that the water supply pressure to the terminal water supply device 17 becomes constant and the variable speed means 2 such as an inverter is used.
At 5, the discharge pressure control for increasing or decreasing the pump rotation speed is performed. Further, when the inflow pressure is reduced, when the inflow pressure falls below a certain inflow set pressure value so as not to adversely affect the water distribution pipe, the inflow pressure control for reducing or stopping the pump rotation speed by the variable speed means 25 is performed. Be seen. Then, the discharge pressure control is switched to the inflow pressure control when the inflow pressure Ps becomes equal to or lower than the selected set pressure.

FIG. 2 shows the construction of the control portion of the variable speed water supply system of the present invention. The control unit 22 includes an inflow pressure detector 21.
The pressure Ps on the inflow side of the pressure pump 13 is input from the discharge pressure detector 23 and the pressure Ps on the discharge side of the pressure pump 13 from the discharge pressure detector 23.
d is entered. Set pressure P1 is a control target value of the discharge pressure, is usually set to 2-3 kg / cm ^2. The set pressure P2 is the inflow pressure Ps The target set pressure is normally set to about 1 kg / cm ² so as not to adversely affect the water distribution pipe. The set pressure P3 is
It is a set pressure value for selecting the inflow pressure control and the discharge pressure control, and the inflow pressure Ps of the inflow pressure detector. This is for switching from the discharge pressure control to the inflow pressure control when there is a risk of adversely affecting the water distribution pipe. The control unit 22 determines, according to the values of the inflow pressure Ps and the discharge pressure Pd,
A speed command for accelerating or decelerating the pump 13 is given to the variable speed drive means (inverter) 25.

Various parameters for controlling the operation of the pump are input to the control unit 22. This is 1 from the operating speed at the time of pressure accumulation in the small water volume stop operation, the operating speed at the time of additional injection for parallel operation of 2 pumps, and the parallel operation of 2 pumps.
It is the operating speed when the platform is disengaged. For these operating speeds, operating speeds when the inflow pressure value is zero are input.

FIG. 3 is a block diagram of a control unit according to an embodiment of the present invention. A parameter relating to the pump operation control when the inflow pressure is zero, for example, the operation speed Vn is corrected while the pump receives the inflow pressure Ps to the required pump operation speed Vn 'to perform the operation control. That is,
The control unit 22 is provided with a shutoff pressure calculation device 31. The shutoff pressure calculation device 31 stores the relational expression between the arbitrary operating speed V of the pump and the shutoff pressure when the inflow pressure value is zero, based on the characteristic peculiar to each pump, and the relational expression for the operating speed Vn Calculate the deadline pressure Po.
The relational expression Po = F (Vn) is obtained by storing a shutoff pressure Po corresponding to the actual speed Vn in a storage device and setting an arbitrary speed Vn as an unknown value P.
It may be a subroutine that returns o, or it may have a relation between the two as an approximate calculation formula.

Next, the control unit 22 controls the calculation result F of the shutoff pressure.
The calculation device 32 is provided to perform calculation for correcting the parameter based on (Vn) and the inflow pressure Ps. The calculation formula for this speed correction is: Vn '= ((F (Vn) -Ps) / F (Vn)) ^1/2 * V
n. Generally, in a pump, the cutoff pressure is proportional to the square of the pump rotation speed. Therefore, by multiplying the square root of the ratio of the difference between the dead pressure F (Vn) and the inflow pressure Ps by the operating speed Vn when the inflow pressure value is zero, the operating speed Vn 'is obtained as the correction value at the inflow pressure Ps. be able to. By controlling the pump operation at the corrected speed Vn ', various parameters when the inflow pressure is zero can be used to perform appropriate pump operation control by correction according to the inflow pressure Ps. it can.

When the speed of the pump is controlled to a constant discharge pressure, water is not used on the terminal water supply equipment side, and when the amount of water becomes almost zero, the pump is shut off. If the pump shutoff operation is continued, the pump will generate heat, so it must be stopped, and the so-called small water amount stop operation starts. The condition for restarting the pump is when the discharge pressure falls below the target discharge pressure.However, if the pump is stopped as it is when a small amount of water is detected, the discharge pressure immediately falls below the target discharge pressure and the pump frequently starts and stops. Will be repeated. Therefore, if it is detected that the amount of water is small, the rotational speed of the pump is increased immediately before the pump is stopped, and the pump is stopped after accumulating the discharge side pressure tank at a pressure slightly higher than the target discharge pressure. . In this way, even if some water is used, it takes time for the pressure to drop to the target discharge pressure, so that the pump can be stopped for a long time. At this time, if the operating speed at the time of accumulating pressure is too high, the pressure fluctuation on the terminal water supply equipment side will increase, so if the operating speed set at the inflow pressure is almost zero, the inflow pressure is directly connected. In this case, there is a possibility that extremely large pressure will be applied to the terminal water supply equipment side.

FIG. 4 shows the flow of the operation for stopping the small amount of water.
If a small amount of water is detected, the shutoff pressure Po is calculated. This calculates the shutoff pressure Po corresponding to the accumulator operating speed Vn at the time of the small water flow stop operation when the inflow pressure is zero from the characteristics peculiar to the pump. Then, the inflow pressure Ps is read. Then, the operation speed Vn 'during the pressure accumulating operation corrected by the inflow pressure Ps is calculated by the equation of the operation device 32: Vn' = ((F (Vn) -Ps) / F (Vn)) ^1/2 * V
base on n. Then, the pressure accumulating operation is performed for a predetermined time at the obtained operation speed Vn '. When the pressure accumulation operation is completed, stop the pump.

As described above, according to the present invention, when the small amount of water is stopped, the operating speed Vn during pressure accumulation is appropriately corrected and lowered to Vn 'in accordance with the inflow pressure Ps.
Does not cause a problem that the discharge pressure during the pressure accumulating operation becomes extremely high even if is increased.

The operating speed at the time of additional injection means that, when two pumps are operated in parallel, the operating speed is gradually increased when the amount of load water increases with respect to one operating pump. , When the rated speed is reached, add the second pump. It is the speed at that time, when the inflow pressure value is zero,
That is, the set speed of the additional pump input when the water tank of the prior art is provided is Vn.

FIG. 5 shows a control flow for adding a second pump. First, the operating speed Vn of the pump is read. This Vn is the speed at which the second pump is additionally charged when the inflow pressure is zero. The shutoff pressure Po corresponding to the operating speed Vn when the inflow pressure is zero is calculated. Then, the inflow pressure Ps is read. And inflow pressure Ps
The calculation of the operating speed Vn 'at the time of additional injection corrected by the equation of the calculation device 32 is: Vn' = ((F (Vn) -Ps) / F (Vn)) ^1/2 * V
base on n. Then, the calculated operating speed Vn 'is 1
When the second pump reaches, add the second pump.

As described above, according to the present invention, when the second pump is additionally charged, the operating speed Vn is appropriately corrected to Vn 'according to the inflow pressure Ps, so that the pump can be operated even if the inflow pressure Ps rises. The problem of overload does not occur.

The operation speed Vn at the time of disconnecting from the parallel disconnection is the speed at which one of the two pumps is disconnected from the parallel operation as described above. Vn is a set speed when the inflow pressure value is zero, that is, when the water tank of the related art is provided and when the pump is disconnected from the pump.

FIG. 6 shows a control flow for disconnecting one pump from the pump when two pumps are in operation. First, the operating speed Vn of the pump is read. This Vn is the rate of pump disconnection when the inflow pressure is zero. Then, the shutoff pressure Po corresponding to the operating speed Vn for disconnecting one pump when the inflow pressure is zero is calculated. Then, the inflow pressure Ps is read. The operation speed Vn 'corrected by the inflow pressure Ps during the parallel disconnection operation is calculated by the formula of the operation device 32, Vn' = ((F (Vn) -Ps) / F (Vn)) ^1/2 * V
base on n. When the calculated operating speed Vn 'is reached, one of the two pumps operated in parallel is disengaged.

As described above, in the present invention, when one of the two pumps operated in parallel is disconnected, the operating speed Vn is appropriately corrected to Vn 'in accordance with the inflow pressure Ps.
Even if the inflow pressure Ps fluctuates, a problem such as an inching operation in which addition and disconnection frequently occur does not occur.

[0037]

Next, the adding / disconnecting operation of the embodiment of the present invention will be described. When the flow switch of the pump during one unit operation is in the "open" state (the state where water is flowing) and the operating speed reaches the maximum speed Vn '(max) of the pump and continues for 3 seconds, the second pump Perform additional input. Here, the maximum speed Vn ′ (max) of the first pump is Vn ′ (max) = ((FF) with respect to the maximum speed Vn (max) when the inflow pressure is zero and the inflow pressure Ps at the time of switching. (Vn (max))-Ps) / F
(Vn (max))) ^1/2 × Vn (max).

When the second pump is additionally charged, the first pump is at a speed of 95% of the maximum speed (for example, the maximum speed is 60%).
The frequency is fixed at 57 Hz), and the second pump is operated at a variable speed. Here, the 95% speed Vn ′ (95%) is Vn ′ (95%) = ((FF) with respect to the maximum speed Vn (95%) when the inflow pressure is zero and the inflow pressure Ps at the time of switching. (Vn (95%))-Ps) / F
(Vn (95%))) ^1/2 × Vn (95%).

When the amount of water used further increases and the operating speed of the second pump reaches the maximum speed Vn '(max), switching to the uniform speed operation in which the first pump and the second pump are operated at the same speed It Here, the maximum speed Vn '(max) of the second pump
Is Vn '(max) = ((F (Vn (max))-Ps) / F with respect to the maximum speed Vn (max) when the inflow pressure is zero and the inflow pressure Ps at the time of switching.
(Vn (max))) ^1/2 × Vn (max).

After that, the amount of water used decreases and the operating speed during uniform speed operation is 92% of the maximum speed (for example, the maximum speed is 60H).
If it reaches 55 Hz), the operating speed of the first pump is fixed at 95% and the second pump operates at a variable speed. Here, 95% speed Vn '(95%) is
With respect to the 95% speed Vn (95%) when the inflow pressure is zero and the inflow pressure Ps at the time of switching, Vn ′ (95%) = ((F (Vn (95%)) − Ps) / F
(Vn (95%))) ^1/2 × Vn (95%).

When the amount of water used is further reduced, the
When the slow switch of the first pump is "closed" (small amount of water) and the state has passed for 3 seconds, the second pump is disengaged and the first pump is operated at a variable speed.

The addition of the second pump described above
The disconnecting operation is only one example to which the present invention is applied. It goes without saying that various modifications can be made to the so-called direct connection type water supply device provided with two variable speed pumps without departing from the spirit of the present invention.

[0043]

According to the present invention as described above,
A value of zero inflow pressure is used as the operating speed parameter Vn, and since it is a direct connection type, even if the inflow pressure Ps rises, the operation is performed with various parameters Vn 'corrected in consideration of the increased value. For this reason, operating parameters other than those of the conventional direct connection type can be used, and even if the inflow pressure rises, appropriate operation can be performed by correction and excessive water pressure rise to the terminal water supply equipment can be prevented. You can
Also, energy saving operation of the pump can be performed.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a system configuration of a direct connection type variable speed water supply device.

FIG. 2 is an explanatory diagram of a control system of the variable speed water supply apparatus according to the embodiment of the present invention.

FIG. 3 is a block diagram of parameter correction according to an embodiment of the present invention.

FIG. 4 is a flow chart of a small water amount stopping operation according to an embodiment of the present invention.

FIG. 5 is a flow chart of additional injection of pump parallel operation according to an embodiment of the present invention.

FIG. 6 is a flow chart of parallel disconnection in parallel pump operation according to an embodiment of the present invention.

[Explanation of symbols]

 19 Flow rate detector 21 Inflow pressure detector 22 Control section 23 Discharge pressure detector 25 Variable speed means (inverter) Ps Inflow pressure Pd Discharge pressure 31 Deadline pressure Po Calculation calculation section 32 Operation speed correction calculation section

Claims (5)

[Claims] 1. An inflow pipe connected to a water distribution pipe, a pressurizing pump connected to the inflow pipe, a discharge pipe connected to a discharge side of the pressurizing pump and connected to an end water supply device, An inflow pressure detector for detecting the inflow pressure of the pressure pump provided in the inflow pipe, a discharge pressure detector for detecting the discharge pressure of the pressure pump provided in the discharge pipe, and a variable speed controller for the pressure pump. A variable speed drive unit for driving and a control unit for controlling the pump are provided, and the control unit corrects a parameter for controlling the operation of the pump according to the pump inflow pressure detected by the inflow pressure detector. Then, the variable speed water supply device is characterized in that the operation is controlled based on the corrected parameter. 2. The correction of the parameter according to the pump inflow pressure is based on the relational expression Po = F (V) between the arbitrary operating speed V of the pump and the shutoff pressure Po when the inflow pressure value is zero. The parameter Vn for controlling the operation of the pump when the inflow pressure value is zero is calculated according to the inflow pressure Ps as follows: Vn '= ((F (Vn) -Ps) / F (Vn)) ^1/2 * V
The variable speed water supply device according to claim 1, wherein the variable speed water supply device is corrected by n. 3. The corrected parameter Vn ′ for controlling the operation of the pump is used for controlling the pump when a small amount of water is stopped, and is detected by the flow rate detector when the amount of small water is detected. 3. The variable speed water supply apparatus according to claim 2, wherein the operating speed Vn at the time of storing a small amount of water when the inflow pressure value is zero is pressurized for a fixed time at a speed Vn 'corrected according to the equation. 4. The corrected parameter Vn ′ for controlling the operation of the pumps is such that when the two pumps are operated in parallel, the second pump is added to the operating one pump. The second pump is additionally supplied when the set speed Vn for additional injection of the pump when the inflow pressure value is zero reaches the speed Vn 'corrected according to the above equation. The variable speed water supply device according to claim 2. 5. The corrected parameter Vn ′ for controlling the operation of the pumps is such that when the two pumps are operating in parallel and one of the two pumps is disconnected, the inflow pressure value is The set speed Vn of the pump disconnection at zero is
The variable speed water supply apparatus according to claim 2, wherein the disconnection is performed at the speed Vn 'corrected according to the equation.