KR20120105631A - Test apparatus for single phase and three phase motor operting actuator card with front panel - Google Patents

Abstract

PURPOSE: A single phase and three-phase MOACC(Motor Operating Actuator Control Card) test apparatus equipped with a front panel is provided to reduce manufacturing costs by simplifying structure in order to be suitable for control card and power card tests. CONSTITUTION: A two wire position converter(44) is connected to a second driving shaft and shows current position of a motor. A limit indication bar(48) is installed on a second pulley. A limit switch(49) contacts the limit indication bar and generates a virtual limit signal. A single phase and three-phase control card is connected to the limit switch and receives the virtual limit signal. The single phase and three-phase control card signalizes the virtual limit signal to a real signal. A single phase and three phase power card is connected to the single phase and three-phase control card. A switching device is mounted on the single phase and three phase power card. The switching device reverses a progressive direction of a single phase and three phase motor by a requirement signal of an operator.

Description

TEST APPARATUS FOR SINGLE PHASE AND THREE PHASE MOTOR OPERTING ACTUATOR CARD WITH FRONT PANEL}

The present invention relates to a single-phase and three-phase MOAC test apparatus having a front panel, and more particularly, a motor operating actuator control card (MOTOR OPERATING ACTUATOR CONTROL CARD, hereinafter referred to as "MOAC") having a lack of protection circuits on an old motor control board. ""; Receives 4mA ~ 20mA current signal as virtual position data and moves the position converter to 0 ~ 100% displacement position, and converts limit signal of limit switch according to the position transducer's movement to 4 ~ 20mA current signal. A single phase and three phase MOAC test apparatus having a front panel for testing a transmitting system (eg, a single phase control card, a single phase power card, a three phase control card, a three phase power card, a three phase mother card, etc.).

In general, the electric actuator device used in the power plant or general large-scale plant for the purpose of adjusting the flow rate, gas amount, etc. is required to output the demand signal of the analog input (EX.1-5V, 4-20mA). By supplying the driving power of the motor through analog or digital (analog-to-digital conversion) from the motor control PCB, precise flow control is realized, and through the position converter (RVDT: Rotary Variable Differential Transformer, LVDT: Linear Variable Differential Transformer) Feedback control is implemented by receiving the actual location.

The actuators, which are used for important facilities, have a major obstacle in supplying products to plants in the operating system 24 hours a day, 24 hours a day, 365 days a year. We have been testing control cards and power cards.

However, the motor used for the flow and gas volume control in such a plant weighs tens to hundreds of kilograms, and the reduction gear is a heavy weight that weighs hundreds to hundreds of tonnes. There was a problem that the configuration is too difficult to use for testing the card.

Accordingly, an object of the present invention is to solve the above problems, single- and three-phase with a front panel that is small and light in a simplified design, but fully functional, suitable for use in testing control and power cards It is an object of the present invention to provide a MOAC test apparatus.

Single-phase and three-phase MOAC test apparatus according to the present invention includes a single-phase and three-phase motor connected to the power; A reducer connected to the single-phase and three-phase motors to reduce the number of revolutions of the single-phase and three-phase motors; A first drive shaft connected to the single-phase and three-phase motors and driven together by the single-phase and three-phase motors; A first pulley connected to the first drive shaft and driven together; A belt surrounding the first pulley; A second pulley connected to the belt and driven together; A second drive shaft connected to the second pulley and driven together; A two-wire position transducer connected to the second drive shaft and driven together to indicate a current position of the motor; A limit indicator bar installed on the second pulley; A limit switch in contact with the limit indicator bar to generate a virtual limit signal; A single-phase and three-phase control card connected to the limit switch and receiving the virtual limit signal and signaling the received virtual limit signal into a real signal; A single phase and a three phase power card connected to the single phase and three phase control cards to receive the actual signal, and equipped with a switching element for inverting the traveling directions of the single phase and three phase motors according to a request signal from an operator. It features.

In addition, the measuring device for checking whether the single-phase and three-phase control card operation; And a digital meter for checking the virtual limit signals of the single-phase and three-phase control cards.

In addition, the single-phase and three-phase motor mounting holes are installed; A position transducer mounting hole in which the two-wire position transducer is installed; And a front panel having an arc-shaped limit switch installation hole in which the limit switch is installed.

In addition, the limit switch is characterized in that the angle of the angle is varied from 0 to 75 ° in the arc-shaped limit switch mounting hole.

In addition, 36 screw holes are provided on the circumference of the second pulley for mounting screw holes for installing the limit indicating bar at 10 ° intervals.

As described above, the single-phase and three-phase MOAC test apparatus provided with the front panel according to the present invention has been simplified and reduced in size and light weight, which is suitable for use for testing control cards and power cards, thereby greatly reducing the manufacturing cost. The advantage is that you can.

1 is a block diagram of a single-phase MOAC test apparatus configuration.
2 is a block diagram of a three-phase MOAC test apparatus configuration.
Figure 3 is a single-phase and three-phase MOAC test apparatus front panel manufacturing diagram.
4 is a configuration diagram of a motor, a position converter, and a limit switch of the front panel.
5 is a front photograph of a prototype of a single-phase and three-phase motor operating actuator test apparatus having a front panel;

Hereinafter, single-phase and three-phase MOAC test apparatus having a front panel according to the present invention will be described in detail with reference to the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a client's or operator's intention or custom. Therefore, the definition should be based on the contents throughout this specification.

Like numbers refer to like elements throughout the drawings.

1 is a block diagram of a single phase MOAC test apparatus, FIG. 2 is a block diagram of a three phase MOAC test apparatus, FIG. 3 is a front panel manufacturing diagram of a single phase and a three phase MOAC test apparatus, and FIG. 4 is a motor and a position converter of the front panel. Fig. 5 is a front view of a prototype of a single-phase and three-phase motor operating actuator test apparatus having a front panel.

1 to 5, the single-phase and three-phase MOAC test apparatus having a front panel according to the present invention can be roughly divided into a single-phase MOAC test apparatus 10 and a three-phase MOAC test apparatus 20, In the case of the single-phase MOAC test apparatus 10, the configuration includes a single-phase motor 11, a measuring instrument 12, a digital meter 13, a single-phase power card 14, a single-phase control card 15, It consists of the mechanical equipment (16). In addition, the three-phase MOAC test apparatus 20 includes a three-phase motor 21, a measuring instrument 11, a digital meter 12, inrush current preventing means 22, three-phase motherboard 23, It consists of the three-phase control card 24, the three-phase power cards 25, 26, and 27, and the mechanical equipment 16. As shown in FIG.

Here, the single phase motor 11 is a 120VAC forward / reverse rotation motor, and the three phase motor 21 is a 220VAC forward / reverse rotation motor.

In addition, a two-wire position transducer 44 is provided in the mechanical equipment 16.

In addition, the basic members of the single-phase MOAC test apparatus 10 and the three-phase MOAC test apparatus 20 are almost the same, and only the driving circuit by the test PCB for motor driving is configured differently from each other (FIGS. 1 and FIG. 2).

In addition, in the single-phase and three-phase MOAC test apparatus provided with the front panel according to the present invention, the control card 15, 24, the power card 14, 25, 26, 27, and the motherboard 23 are easily inserted. A front panel 30 is provided, and the front panel 30 is provided with a cubicle 50 for inserting the cards 15, 24, 14, 25, 26, 27) and a board 23. It is. The cubicle 50 is provided on the left side of the front panel 30 because it consists of two cards, that is, the control card 15 and the power card 14 in the case of a single phase, and the control card in the case of three phases. A total of four 24 and the power cards 25, 26, and 27 should be inserted for each phase, and the motherboard 23 should be inserted, so that the power card 25, 26, and 27 are inserted separately from the front panel 30 (Fig. 5).

In addition, the front panel 30 is designed with a single-phase or three-phase motor mounting hole 31, a position converter mounting hole 32, and a limit switch mounting hole 33, and the single-phase or three-phase motor mounting hole ( 31 is provided with a single-phase or three-phase motor (11, 21), the position transducer mounting hole 32 is provided with the two-wire position transducer 44, the limit switch mounting hole 33 is a limit switch ( 49) is installed (see FIG. 3).

Here, the first pulley 43 connected to the first drive shaft 42 of the motors 11 and 21 and the second pulley 46 connected to the second drive shaft 45 of the two-wire position transducer 44 are belts. It is connected to the 47, the limit switch installation hole 33 is designed in an arc shape, it is possible to change the installation position of the limit switch 49.

Here, the two-wire position transducer 44 is 0 to 100% displacement.

In addition, the limit switch 49 serves as a kind of limit check contact that generates a limit signal when the limit instruction bar to be described below is contacted, and the angle amount from 0 to 75 ° in the limit switch installation hole 33 is used. It can be installed to be variable.

In addition, the meter 12 and the digital meter 13 is carried by the operator, the meter is for checking whether the control card (15, 24) is operating, the digital meter 13 is the control card Since the feedback signals of (15, 24) are to be checked, a detailed description thereof will be omitted.

Now, with reference to the drawings, we will look at the operation of the single-phase and three-phase MOAC test apparatus with a front panel according to the present invention.

First, referring to the operation of the single-phase MOAC test device 10, first, when the single-phase power card 14 and the single-phase control card 15 is mounted on the single-phase MOAC test device 10, the operator is the front panel 30 When the power is turned on by pressing the On switch 35 of), the single phase motor 11 is operated. At this time, the single phase motor 11 is driven by the speed reducer 41 mounted on the single phase motor 11. Move at a low speed of about 1 revolution per minute.

Here, the single-phase motor 11 has a built-in magnet switch (not shown) for the purpose of current interruption and protection.

The first drive shaft 42 of the single phase motor 11 is driven according to the operation of the single phase motor 11 and the first pulley connected to the first drive shaft 42 according to the rotation of the first drive shaft 42. 43 is rotated.

When the first pulley 43 is rotated, the belt 47 wound around the first pulley 43 rotates, and the second pulley 46 connected to the belt 47 is rotated by the belt 47. ) Rotates, and as the second drive shaft 45 of the two-wire position transducer 44 connected to the second pulley 46 is rotated according to the rotation of the second pulley 46, the second drive shaft ( The two-wire position transducer 44 connected to 45 is activated. Here, the two-wire position transducer 44 is activated to transmit the current position of the single-phase motor 11.

When the second pulley 46 is rotated, the limit switch 49 is activated by the limit indicator bar 48 installed in the second pulley 46 to generate a virtual limit signal of 4 mA or 20 mA. The generated virtual limit signal is transmitted to the single phase control card 15.

Here, the mounting screw holes for installing the limit indicating bar 48 are machined so that 36 screw holes are provided at intervals of 10 ° in the circumference of the second pulley 46, and one of the screw holes indicates the limit instruction. Since the bar 48 is provided, the value of the two-wire position transducer 44 can be corrected by providing the limit indicating bar 48 in another screw hole among the plurality of screw holes.

The virtual limit signal transmitted to the single phase control card 15 is signaled by the single phase control card 15 as an actual signal and transmitted to the single phase power card 14.

The single-phase power card 14 that has received the actual signal has a switching element 17 built therein, and reverses the traveling direction of the single-phase motor 11 by a demand signal from an operator.

Here, the operator connects the measuring instrument 12 and the digital meter 13 to a port (not shown) mounted to the single phase control card 15, and as described above, the single phase control card 15 By checking the normal operation and the transmitted limit signal, it is possible to easily check whether the single phase power card 14 and the single phase control card 15 mounted on the single phase MOAC test apparatus 10 are defective.

After the test work is completed, the operator presses the off switch 36 of the front panel 30 to terminate the test work.

Now, we will look at the operation of the three-phase MOAC test device 20. The three-phase MOAC test apparatus 20 is substantially the same as that of the single-phase MOAC test apparatus 10 as described above, except that the driving circuit by the test PCB for motor driving is configured differently.

Therefore, since the operation of the three-phase MOAC test apparatus 20 is almost the same as the single-phase MOAC test apparatus 10, the description thereof will be omitted.

However, a DC 325V power supply (not shown) for driving the three-phase motor 21 of the three-phase MOAC test apparatus 20, an overcurrent blocking circuit, an inrush current preventing means 22, and the single phase motor 11 are shown. In use, a pressure reducing transformer (not shown) is further installed to reduce the 220 VAC to 120 VAC.

Single-phase and three-phase MOAC test apparatus provided with the front panel according to the present invention is applied to the motor or the MOAC lacking a protection circuit in the control board for the old installation time, there is no test device repaired by a newly purchased MOAC or a company The economic cost of installing and testing the MOAC in the system can be greatly reduced.

In addition, the use of a poor motor or control board can greatly reduce the risk of fire or electric shock due to damage to the board, thereby significantly increasing the safety and safety of the operator.

Although in the embodiment of the present invention, 36 screw holes are drilled at intervals of 10 degrees on the circumference of the second pulley 46 to correct the value of the 2-wire position transducer 44, the interval is not limited to 10 degrees. Of course not.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes, modifications or adjustments to the example will be possible. Therefore, the scope of protection of the present invention should be construed as including all changes, modifications, and adjustments that fall within the spirit of the technical idea of the present invention.

10: single phase MOAC test device 11: single phase motor
12: Instrument 13: Digital Meter
14: single phase power card 15: single phase control card
16: hardware 17: switching element
20: 3-phase MOAC test device 21: 3-phase motor
22: overcurrent blocking circuit and inrush current prevention means
23: 3-phase motherboard 24: 3-phase control card
25, 26, 27: 3-phase power card 30: front panel
31: Motor mounting hole 32: Position converter mounting hole
33: limit switch mounting hole 35, 36: on / off switch
41: reducer 42: first drive tip
43: first pulley 44: two-wire position transducer
45: second drive shaft 46: second pulley
47: belt 48: limit indicator bar
49: limit switch 50: cubicle

Claims (5)

Single and three phase motors connected to a power source;
A reducer connected to the single-phase and three-phase motors to reduce the number of revolutions of the single-phase and three-phase motors;
A first drive shaft connected to the single-phase and three-phase motors and driven together by the single-phase and three-phase motors;
A first pulley connected to the first drive shaft and driven together;
A belt surrounding the first pulley;
A second pulley connected to the belt and driven together;
A second drive shaft connected to the second pulley and driven together;
A two-wire position transducer connected to the second drive shaft and driven together to indicate a current position of the motor;
A limit indicator bar installed on the second pulley;
A limit switch in contact with the limit indicator bar to generate a virtual limit signal;
A single-phase and three-phase control card connected to the limit switch and receiving the virtual limit signal and signaling the received virtual limit signal into a real signal;
A single phase and a three phase power card connected to the single phase and three phase control cards to receive the actual signal, and equipped with a switching element for inverting the traveling directions of the single phase and three phase motors according to a request signal from an operator. Featured single and three phase MOAC test units.
The apparatus of claim 1, further comprising: a measuring device for checking whether the single-phase and three-phase control cards are operated;
And a digital meter for checking the virtual limit signals of the single-phase and three-phase control cards.
According to claim 1, Single-phase and three-phase motor mounting holes are installed;
A position transducer mounting hole in which the two-wire position transducer is installed;
Single-phase and three-phase MOAC test apparatus further comprises a front panel having an arc-shaped limit switch mounting hole in which the limit switch is installed.
The single-phase and three-phase MOAC test apparatus according to claim 1 or 3, wherein the limit switch has a variable angle from 0 to 75 ° in the arc-shaped limit switch mounting hole. The single-phase and three-phase MOAC test apparatus according to claim 1, wherein 36 screw holes are provided on a circumference of the second pulley at intervals of 10 ° for mounting screw holes for installing the limit indicator bar.

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