KR19980048750A - Reverse rotation detection device and method of motor in booster pump system - Google Patents

Abstract

The present invention relates to an apparatus and method for detecting a reverse rotation of a motor of a booster pump system to prevent reverse rotation of a motor that may be generated during initial driving after installation of the motor.

In the conventional apparatus, which uses three optical sensors to determine the rotation direction of the motor according to the input signal order of the optical sensors, several optical sensors are required in the case of configuration, and other components for processing the signals thereof are determined. Should be constructed.

In the present invention, in order to solve such a problem, it is possible to detect the rotation direction of the pump motor using the sensing time interval of the optical sensor using only two optical sensors maintaining a constant distance.

Description

Reverse rotation detection device and method of the motor of the booster pump system.

The present invention relates to an apparatus and method for detecting a reverse rotation of a motor of a booster pump system to prevent reverse rotation of a motor that may be generated during initial driving after installation of the motor.

1 is a diagram showing the configuration of a general booster pump system, wherein the pump system described here is a system for driving six pumps with a three-phase power source.

First, six pumps are configured, and a control panel for controlling the operation of the configured pump is configured, and a control board for controlling each component according to the logic of the control means is configured in the configured control panel. Board) is configured.

In this way, the pump is driven by controlling the on / off of each component inside the panel in accordance with the signal output from the control means configured.

In the booster pump system as described above, the configuration of the conventional reverse rotation sensing device will be described with reference to FIG. 2.

Three optical sensors (S1, S2, S3) are configured inside the rotating impeller (1) and the sensing signals output from the configured optical sensors (S1, S2, S3) are connected to the inside of the control board. A connector 2 is formed outside the impeller case 3 so that a signal can be detected according to the rotation of the impeller 1.

Reference numeral 4 is an axis.

In the conventional reverse rotation prevention device of the pump having such a configuration, the impeller 1 rotates when the pump starts to be driven.

Usually, the impeller 1 has a rotational direction in a clockwise direction. When the clockwise rotation is performed, the signal outputs of the optical sensors S1, S2, and S3 attached to the inside of the impeller case 3 are as follows. In order.

The sensing signal is read in the order of S1 → S3 → S2 → S1 → S3.

At this time, if the two-phase power is incorrectly connected among the three-phase power is rotated in reverse, the sensing signal is read in the order of S1 → S2 → S3 → S1 → S2.

In this way, the sensing signal is transmitted to the control board through the connector 2 configured on the outside of the impeller case 3 to determine the rotation state of the motor by the control means.

When the rotation direction determined as described above is determined, the rotation direction of the pump motor is indicated on the display means configured outside the control panel, and thus, the reverse rotation of the motor can be prevented.

However, in the configuration of such a device, several optical sensors are required, and other components for processing the signal of the signal must be configured.

In the present invention, in order to solve such a problem, it is possible to detect the rotation direction of the pump motor using the sensing time interval of the optical sensor using only two optical sensors maintaining a constant distance.

1 is a view showing the configuration of a general booster pump system.

Figure 2 is a simplified view showing the configuration of a conventional reverse rotation detection device of the pump.

Figure 3 is a simplified diagram showing the configuration of the reverse rotation detection device of the motor of the booster pump system of the present invention.

Figure 4 is a block diagram showing the execution flow in the method for preventing the reverse rotation of the motor of the booster pump system of the present invention.

In the apparatus and method for preventing the reverse rotation of the motor of the booster pump system of the present invention, first, the configuration of the apparatus of the present invention will be described with reference to FIG. 3.

The connector 12 configures two optical sensors S11 and S12 inside the case 13 of the impeller 11 and connects the sensing signals output from the configured optical sensors S1 and S2 into the control board. ) Is attached to the outside of the impeller case 13 so that the signal can be detected according to the rotation of the impeller 11,

The configured photosensors S11 and S12 are configured to maintain a predetermined distance so that the sensing signal input time interval is different according to the rotational direction of the impeller 11 so that the sensing signals of the photosensors S11 and S12 are detected. It is characterized in that to determine the interval to detect the rotation direction of the motor.

Reference numeral 14 is an axis.

Looking at the process of detecting the rotation direction of the motor through the signal recognition in the device of the present invention as described above is as follows.

As the impeller 11 rotates, the signal output of the optical sensors S11 and S12 is performed, and the signal outputs of the optical sensors S11 and S12 are recognized to recognize the signal outputs of the optical sensors S11 and S12. Determining the time interval, determining the rotational direction of the motor according to the time interval determined in the step, and displaying the determined rotational direction of the motor by the display means.

In the step of determining the rotation direction of the motor, if the signal recognition time interval of the optical sensors (S11, S12) is long, it is determined to be the forward rotation of the motor, when the signal recognition time interval of the optical sensors (S11, S12) is short It characterized in that to determine the reverse rotation of the motor.

FIG. 4 is a block diagram illustrating the motor rotation direction determination flow according to the present invention. Referring to FIG. 4, the operation and the effect thereof will be described below.

As shown in FIG. 3, the optical sensors S1 and S2 are formed at a predetermined distance on the inner side of the case 13 toward one side of the center of the impeller 11.

When the impeller 11 configured as described above is powered and rotated, the signal output of the configured optical sensors S1 and S2 is made, and the signal output is transmitted to the control means through the connector 12.

In the present invention, by recognizing the signal input time interval of the optical sensor (S11, S12) configured to maintain a certain distance to recognize the rotation direction of the motor,

Signal of the optical sensor S11 and the optical sensor 12 when the signal input interval of the optical sensor S11 and the optical sensor S12 rotates in the counterclockwise direction when the impeller 11 is rotated clockwise. It is longer than the input interval.

Using this principle, the control means recognizes the interval between the input of the optical sensor S1 and the signal input of the optical sensor S2 and then determines the rotational direction of the impeller 11 through comparison. Will be.

The rotation direction of the motor determined as described above is displayed through the display means so that the user can prevent the motor from rotating backward.

By using only two optical sensors as described above, it is possible to reduce the components, thereby reducing the additional components and at the same time can detect the exact direction of rotation of the motor, thereby improving the reliability of the device There is an effect that can be improved.

Claims (3)

The connector 12 configures two optical sensors S11 and S12 inside the case 13 of the impeller 11 and connects the sensing signals output from the configured optical sensors S1 and S2 into the control board. ) Is attached to the outside of the impeller case 13 so that the signal can be detected according to the rotation of the impeller 11, The configured optical sensors S11 and S12 are configured to maintain a predetermined distance so that the detected time intervals of the sensing signals of the respective optical sensors S11 and S12 appear differently according to the rotational direction of the impeller 11. Reverse rotation detection device of the motor of the booster pump system. The signal output of the optical sensor is made as the impeller rotates, determining the signal input time interval of the optical sensor configured by recognizing the signal output of the optical sensor, and the rotation direction of the motor according to the time interval determined in the step. And a step of displaying the determined rotational direction of the motor by the display means. The method of claim 2, wherein in the step of determining the rotational direction of the motor, when the signal recognition time interval of the optical sensor is long, it is determined to be the forward rotation of the motor. A method for detecting the reverse rotation of the motor of the booster pump system, characterized in that judging by the rotation.