KR100660060B1 - Communicate type in-line booster - Google Patents

Abstract

The present invention relates to a motor-integrated in-line booster having a communication means of the automatic circulation water supply device, in particular to form a motor driving booster integrally in a three-phase motor, the in-line booster is a communication means for interlocking control of a plurality of neighboring boosters Including a control means for generating a PWM control signal for controlling a three-phase motor according to the discharge pressure of the pump, because a separate pressure control controller is unnecessary, the product price is low, the overall configuration is very simple The reliability of the performance is improved, and by using the built-in P2P wired / wireless communication port, it is possible to operate by connecting several inline boosters without a separate control device.

In-line booster, communication means, microcomputer, IGBT driver,

Description

Motor type in-line booster with communication means of automatic circulation feeder             

1 is a block diagram showing a conventional automatic circulating water supply device.

Figure 2 shows a booster of the present invention.

Figure 3 is a view showing the integrated motor booster of the automatic circulating water supply device of the present invention.

Figure 4 is a three-phase motor to which the booster of the present invention is configured as an automatic circulation water supply device.

5 is a view showing a three-phase motor equipped with the present invention.

<Description of the symbols for the main parts of the drawings>

10: three-phase motor, 11: pump,

12: booster, 13: power unit,

14: micom, 15: wired and wireless communication,

16: IGBT drive unit, 17: blower fan,

18: Monitoring device.

The present invention relates to a motor-integrated in-line booster having a communication means of the automatic circulation water supply device, in particular to form a motor driving booster integrally in a three-phase motor, the in-line booster is a communication means for interlocking control of a plurality of neighboring boosters Including a control means for generating a PWM control signal for controlling a three-phase motor according to the discharge pressure of the pump, because a separate pressure control controller is unnecessary, the product price is low, the overall configuration is very simple The reliability of performance is improved and each booster is operated by installing a monitoring device using wireless communication function while allowing the in-line booster to be linked and operated without using a separate control device by using the built-in P2P wired / wireless communication port. It is to check the status at a glance.

In general, villas, inns, apartments, buildings, etc. are watering or circulating water from the basement to the upper side. The automatic circulating water supply system is used to supply water stably and automatically to the upper floor.

In this automatic circulating water supply device is installed in the pipeline serves to maintain a constant pressure and temperature to supply a so-called inline booster pump.

The automatic circulation water supply device using such an inline booster pump has been proposed and widely used in the related art. For example, the inline automatic circulation water supply device is as shown in FIG.

As shown in Figure 1 of the accompanying drawings, a plurality of three-phase motor (1), the driving speed is variable according to the frequency of the input AC power supply, the pump (2) driven by the power of the three-phase motor (1) and A pressure control controller 4 which measures the output side pressure of the pump 2 and calculates the speed required by the three-phase motor 1 according to the measured pressure information and supplies it to the inverter 3, and the pressure control controller Inverter (3) for generating a PWM control signal in accordance with the speed command supplied in (4) and supplying it to the gate of the IGBT (Igity) to vary the frequency of the power supplied to the three-phase motor (1), and power to each motor It consists of a switch 5 for supplying.

This conventional technique compares the hydraulic pressure on the output side of the pump 2 with the set pressure value detected by the pressure control controller 4, and then, as a result of the comparison, the detected hydraulic pressure is higher and lower than the set pressure value, so that the three-phase motor is appropriate. It calculates the drive speed of and transmits to the inverter (3).

In addition, the inverter 3 generates a PWM control signal corresponding to the speed transmitted from the pressure control controller 4 and supplies it to the IGBT gate, whereby the AC power frequency of the three-phase motor 1 is varied so that the pressure control controller ( The driving speed of the three-phase motor 1 is controlled according to the control information of 4).

As described above, the conventional automatic circulating water supply device using the inverter can control the output water pressure of the pump 2 constantly through the control function of the pressure control controller 4, and through the inverter 3, the three-phase motor ( By changing the speed by adjusting the frequency and voltage of the power supplied to 1), it can reduce the consumption of electricity, and also has the advantage of significantly reducing the noise.

However, the conventional technology has a problem in that it is possible to use only an expensive inverter, which adds to the economic burden of the user. As a separate pressure control controller is applied, an interface circuit between the pressure control controller and the inverter must be installed, resulting in a complicated structure. There is a problem.

In addition, since a large amount of wiring is required, there is a problem in that maintenance is difficult due to frequent breakdowns and failures. In particular, since a plurality of three-phase motors are controlled by one large capacity inverter, accurate pressure control is difficult. there was.

Accordingly, the present invention for solving the above problems is integrally formed with a motor driving booster in a three-phase motor, the inline booster has a communication means for interlocking control of a plurality of neighboring boosters, according to the discharge pressure of the pump By including a control means for generating a PWM control signal for three-phase motor control, a separate pressure control controller is unnecessary, so the product is inexpensive, the overall configuration is very simple, and the reliability of the product is improved. The built-in P2P wired / wireless communication port allows multiple inline boosters to be driven by interlocking without a separate control device, and a monitoring device using a wireless communication function can be installed to clearly check the operation status of each booster. Motorized in-line booster with communication means of automatic circulation water supply And a providing purpose.

The present invention for achieving the above object, In the automatic circulating water supply device comprising a three-phase motor, the drive speed is variable according to the frequency of the input AC power supply, and a pump for pumping water by driving the power of the three-phase motor, A booster for controlling the driving speed of the three-phase motor is integrally formed on the three-phase motor body, and the booster includes a wired and wireless communication unit for interlocking control of a plurality of neighboring boosters.

The booster generates a PWM control signal for driving the three-phase motor so as to maintain a desired pressure at the output side of the pump and a power supply for directing the commercial AC power input to the IGBT driver, and supplies a plurality of boosters. Characterized in that it comprises a microcomputer having a P2P communication function for controlling.

In addition, by forming a forced blow fan in the lower portion of the booster is characterized in that the overheating of the three-phase motor and the booster.

In addition, the microcomputer has a PID control function to maintain a constant pressure on the output side of the pump, it characterized in that the mutual data exchange RF wireless communication function and RS485 wire communication function.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 2 to 5.

Reference numeral 10 denotes a three-phase motor in which the driving speed is variable according to the frequency of the input alternating current power source. The pump 11 is connected to the three-phase motor 10 to supply water in the water tank or the circulation pipe to each part of the building. Circulate

The booster 12 is integrally formed on the body of the three-phase motor 10 as shown in FIG. 2.

The booster 12 generates a PWM control signal for driving the three-phase motor 10 so that the power supply unit 13 for directing the input commercial AC power and the output pressure of the pump 11 are maintained at a desired pressure. A microcomputer 14 having a P2P communication function for supplying to the IGBT driver 16 and interlocking control of a plurality of boosters, and a wired / wireless communication unit 15 for interlocking control of a plurality of neighboring boosters.

The microcomputer 14 senses the water pressure on the output side of the pump 11, compares whether the water pressure is lower or higher than the set reference water pressure, and then outputs a PWM control signal for driving the three-phase motor 10 according to the comparison result. And generate it and supply it to the IGBT driver 16.

The IGBT driver 16 switches according to the PWM control signal supplied from the microcomputer 14 to vary the frequency of the power supplied to the three-phase motor 10 so that the three-phase motor 10 at the control speed of the microcomputer 14. To drive.

On the other hand, in the present invention, it is possible to drive control the neighboring booster using the wired or wireless communication function of the microcomputer (14).

That is, when the automatic circulation water supply device is implemented as a plurality of three-phase motor 10 in which the booster 12 is integrally formed as shown in FIG. 4, the microcomputer 14 of the specific booster 12 is abnormal in pressure of the water supply and circulation line. By detecting and supplying control information corresponding thereto to the neighboring boosters through the wired / wireless communication unit 15, the three-phase motor 10 and the pump 11 can be controlled by the booster 12 installed at another position. will be.

In addition, a blower fan 17 is installed between the booster 12 and the three-phase motor 10 to prevent overheating of the booster 12 and the three-phase motor 10 during low speed operation, thereby extending the lifespan of a mechanism such as a motor, and the like. Energy consumption can be lowered.

In addition, in the present invention, by installing a separate monitoring device 18 it is possible to check the operating state of each booster 12.

The booster 12 applied to the present invention includes a wired / wireless communication unit 15 having a wired / wireless communication function and a microcomputer 14 having a function of communicating with other devices.

Therefore, when a separate monitoring device 18 is installed in an external location, the operation state of the booster 12 is transmitted to and stored in the monitoring device 18 through the wireless communication function of the microcomputer 14, thereby making the device manager convenient. It is to be able to monitor the operating state of each booster (12).

Referring to the operation of the present invention configured as described above are as follows.

When the automatic circulating water supply device is operated and water is pumped to the output side of the pump 11 and supplied into the building, the microcomputer 14 of the booster 12 measures the output pressure of the output side of the pump 11 and sets the measured pressure. Compare whether it is higher or lower.

Then, according to the comparison result, the microcomputer 14 generates a PWM control signal for driving the three-phase motor 10 and supplies it to the IGBT driver 16, and the IGBT driver 16 switches according to the input control signal. By varying the frequency of the power supplied to the three-phase motor 10 to operate the pump (11).

As described above, when the water pressure in the circulation line does not reach the required water pressure in the situation where the specific pump 11 is driven, the microcomputer 14 of the corresponding booster 12 additionally operates the booster 12 through P2P communication. The hydraulic pressure is to reach the required hydraulic pressure.

On the other hand, the booster 12 is configured with a button unit not shown so that the user can set the reference pressure of the microcomputer 14, when the multiple boosters 12 operate as described above, the manager at a remote location Through the monitoring device 18 it is possible to check the operating state of each booster (12).

The microcomputer 14 of the booster 12 applied to the present invention is manufactured separately to achieve a special purpose of the automatic circulating water supply device, and has a PID control function to maintain a constant pressure on the output side of the pump 11, and an inverter It has a function of generating a PWM control signal for driving the three-phase motor 10 as described above, and has a function of distributing the load by performing P2P communication between the boosters.

As the booster 12 is configured by applying the one-chip type microcomputer 14 as described above, the overall configuration of the booster 12 may be simplified and the cost of the product may be significantly lowered.

As described in detail above, the present invention forms a motor-driven booster integrally with the three-phase motor, but the in-line booster has a communication means for interlocking control of a plurality of neighboring boosters and controls the three-phase motor according to the discharge pressure of the pump. In order to include a control means for generating a PWM control signal for, a separate pressure control controller is unnecessary, so the price of the product is low, the overall configuration is very simple, there is an advantage that the reliability of the product performance is improved.

In addition, by using the P2P wired and wireless communication port built in the above as well as the above advantages will have the effect that can be driven in conjunction with a number of inline boosters without a separate control device.

Claims (5)

In the automatic circulating water supply device comprising a three-phase motor (10) whose drive speed is variable according to the frequency of the input AC power supply, and a pump (11) driven by the power of the three-phase motor (1) to pump water, The booster 12 for controlling the driving speed of the three-phase motor 10 is integrally formed on the body of the three-phase motor 10, The booster 12 includes a wired and wireless communication unit 15 for interlocking control of a plurality of neighboring boosters. A power supply unit 13 for directing the commercial AC power inputted therein, and a PWM control signal for driving the three-phase motor 10 so as to maintain the output pressure of the pump 11 at a desired pressure to the IGBT driver 16. It has a P2P communication function for supplying and controlling a plurality of boosters, PID control function for maintaining the output water pressure of the pump 11 constant, RF wireless communication function for mutual data exchange and RS485 wire communication function. Motor-integrated in-line booster having a communication means of the automatic circulation water supply, characterized in that configured to include a microcomputer (14). delete delete delete delete

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