KR102251787B1 - Wire-saving device for construction machinery equipment - Google Patents

Abstract

The present invention relates to a wire-saving device for construction machinery equipment and, more specifically, to an improved wire-saving device for construction machinery equipment which converts a signal of a control period with an input/output device of construction machinery equipment from series from parallel to series or from series to parallel so as to reduce an electrical wire of the construction machinery equipment by a predetermined ratio and reduce a malfunction rate due to wrong-wiring and disconnected wiring. In addition, the improved wire-saving device for construction machinery equipment facilitates movement-installation of the construction machinery equipment according to equipment shipment and a layout change of a factory, thereby drastically reducing costs and time in case of an equipment repair.

Description

Wire-saving device for construction machinery equipment

The present invention relates to an apparatus for reducing wiring of construction machinery equipment, and more particularly, a signal between an input/output device of a construction machinery equipment and a controller is converted from parallel to series or from series to parallel to reduce the electrical wiring of the construction machinery equipment at a certain ratio. It improves the failure rate due to incorrect wiring and disconnection while reducing the value to, and also makes it easy to move and install construction machinery equipment according to equipment shipment and changes in the layout of the factory, and significantly reduce cost and time when repairing equipment. It relates to a device for reducing wiring of old building machinery equipment.

In general, in a building machinery facility, the controller and input/output device periods are wired 1:1 so that the signal is transmitted.

For example, as shown in FIG. 1, one input/output device is formed per input/output bit of the controller, which is connected through a relay terminal for extending wiring.

Therefore, these wirings not only cost a lot of wiring between the controller and input/output devices at 1:1, but also cause an increase in labor costs, and failures due to incorrect wiring and disconnection often occur. As the moving and installation of construction machinery equipment is complicated due to the change in layout of the building, there is a disadvantage that it takes a lot of cost and time when repairing the equipment.

Republic of Korea Patent Laid-Open Publication No. 10-2001-0047340 (2001.06.15.)'A device for reducing wiring of mechanical equipment and a method for controlling the wiring'

The present invention was created to solve the problems in the prior art as described above, and the signal between the input/output device and the controller of the building machinery equipment is converted from parallel to serial or from serial to parallel. While reducing wiring at a certain rate, it improves the failure rate due to incorrect wiring and disconnection, and makes it easy to move and install construction machinery equipment according to equipment shipment and changes in the layout of the factory, significantly reducing cost and time when repairing equipment. Its main purpose is to provide an improved device for reducing wiring of construction machinery equipment so that it can be reduced.

The present invention is a means for achieving the above object, the controller (1) is mounted control room (2000); A signal transmission means (10) which is mounted in the control room (2000) and converts a parallel control signal output through the controller (1) or a response signal outputted to each driving means of a building machine to serially and transmits it; The signal transmission means 10 and the control signal transmitted in series or the response signal transmitted in series are converted in parallel to be connected to the signal transmission means 10 by a single wire, and the controller 1 or each drive A signal output means (20) for transmitting to the means; Construction machinery equipment for reducing electric wiring at a certain rate, including a wiring conversion control means 30 for controlling parallel-to-serial conversion of the signal transmission means 10 and serial-parallel conversion of the signal output means 20 In the wiring reduction device;

The upper end of the control room 2000 is fixedly supported by a fixture 2300 fixed on the ceiling frame 1100,

The fixer 2300 includes a'C'-shaped body 2320 having a bite groove 2310 extending from the ceiling frame 1100 and into which a fixing piece (FRT) forming a fixing structure is inserted, and the fixing piece (FRT) In the fitted state, a fixture 2330 that is fastened in a bolted manner to biting a fixing piece (FRT), a t-bar 2340 extending from the upper end of the main body 2320, and one end of the t-bar 2340 A hydraulic jack 2350 fixed to and extending downward, a screw jack 2360 fixed to the other end of the t-bar 2340 and extending downward, and a screw handle 2370 for elevating the screw jack 2360. Provides a device for reducing wiring of building machinery equipment.

According to the present invention, signals between input/output devices of a building machinery facility and a controller are converted from parallel to series or from series to parallel to reduce the electrical wiring of the building machinery facility at a certain rate, while improving the failure rate due to incorrect wiring and disconnection. In addition, it is possible to obtain an improved effect so as to significantly reduce cost and time during equipment repair while making it easy to move and install construction machinery equipment according to equipment shipment and changes in the layout of the factory.

1 is a block diagram showing a wiring state of a building machine equipment according to the prior art.
Figure 2 is an overall block diagram showing the configuration of the construction machine equipment wiring reduction device according to the present invention.
Figure 3 is a block diagram showing the internal configuration of the signal transmission means in the construction machine equipment wiring reduction apparatus according to the present invention.
Figure 4 is a block diagram showing the internal configuration of the signal output means in the construction machine equipment wiring reduction apparatus according to the present invention.
5 is an exemplary view showing a means for buffering and fixing a control room in the apparatus for reducing wiring of construction machinery equipment according to the present invention.
6 is an exemplary view of a purification tank built into the control room constituting the construction machine equipment wiring reduction device according to the present invention.

Hereinafter, a preferred embodiment according to the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structure or functional descriptions are exemplified only for the purpose of describing embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as being limited to the embodiments described herein.

As shown in Fig. 2, the present invention includes a control room (2000, see Fig. 5) in which a controller 1 is mounted; A signal transmission means (10) which is mounted in the control room (2000) and converts a parallel control signal output through the controller (1) or a response signal outputted to each driving means of a building machine to serially and transmits it; The signal transmission means 10 is connected with one wire, but the control signal of the building machinery equipment transmitted in series by the signal transmission means 10 or the response signal of each driving means of the construction machinery equipment is converted in parallel. A signal output means (20) for transmitting to the controller (1) or each driving means; And a wiring conversion control means (30) for controlling each part of the system so that the signal transmission means (10) and the signal output means (20) can be converted in parallel-serial or serial-parallel.

At this time, the signal transmission means 10 is a control signal of the controller 1 input in parallel (unit bit) or a response signal of each driving means while solving the voltage difference between the converted voltage and the used voltage, as shown in the example of FIG. A parallel signal input unit 11 for receiving an input; A parallel-to-serial conversion unit (12) for converting a parallel control signal or response signal input through the parallel signal input unit (11) in series according to the control operation of the wiring conversion control unit (30) and outputting the converted signal; After receiving the control signal of the wiring conversion control means 30 and transmitting it to the parallel-serial conversion unit 12, the influence of external noise is reduced to a minimum and the transmission of the signal is stopped when the wiring line is shorted to protect the circuit, It may include a transmission/reception unit 13 for transmitting a control signal or a response signal converted in series by the parallel-serial conversion unit 12 to the signal output unit 20 or each driving unit.

In addition, the signal output means 20, as shown in the example of Figure 4, after receiving the control signal of the wire conversion control means 30, and transmits it to the serial-parallel conversion unit 22 to minimize the influence of external noise. A signal receiving unit 21 for protecting a circuit by reducing and stopping signal reception when a wiring line is shorted, and receiving a serial control signal or a response signal transmitted by the signal transmission unit 10; A serial-to-parallel conversion unit 22 converting and outputting a serial control signal or response signal received by the signal receiving unit 21 in parallel according to a control operation of the wiring conversion control unit 30; A signal output unit 23 outputting a control signal or a response signal converted in parallel by the series-parallel conversion unit 22 to each driving means or controller 1 while eliminating a voltage difference between the converted voltage and the used voltage; It can be configured to include.

Here, the signal transmission means 10 and the signal output means 20 are connected between the controller 1 and each driving means, and the signal transmission means 10 and the signal output means 20 are connected by a single wire. do.

Thereafter, when the controller 1 outputs a parallel control signal for controlling each driving means of the building machine equipment, the parallel control signal is input to the signal transmission means 10.

At this time, the wiring switching control means 30 for controlling the signal transmission means 10, after stabilizing the system by initializing when the power of the building machine equipment is turned on, determines whether the wiring status and power supply are normal in the system.

And, if the wiring or power supply is not performed as a result of the system check, the system is shut down, and if the wiring and power supply are normal, the signal transmission means 10 so that a driving means control signal input in parallel is converted into series and transmitted. Control.

That is, when a parallel control signal for controlling each driving means is input to the parallel signal input unit 11 included in the signal transmission unit 10, the parallel signal input unit 11 provides a voltage difference between the converted voltage and the used voltage. While solving the problem, after receiving the control signal of the controller 1 input in parallel (unit bit) or the response signal of each driving means, it is output to the parallel-serial conversion unit 12.

At this time, the parallel-to-serial conversion unit 12 converts the parallel control signal or response signal inputted according to the control operation of the wiring conversion control unit 30 into series, and then outputs it to the transmission/reception unit 13, and the The transmission/reception unit 13 transmits a control signal or a response signal converted in series by the parallel-serial conversion unit 12 to the signal output unit 20 or each driving unit of the building machinery equipment.

Here, the transmitting/receiving unit 13 receives the control signal from the wiring conversion control unit 30 and transmits the signal to the parallel-serial conversion unit 12 to minimize the influence of external noise and reduce the effect of the signal when the wiring line is shorted. The circuit is protected by stopping the transmission.

In other words, the signal transmission means 10 determines whether the wiring and power supply of the system is normal according to the control operation of the wiring conversion control means 30, and if it is not normal, the transmission is stopped and the system is down. It is searched whether the control signal or the response signal of is input to the parallel signal input unit 11.

Thereafter, when a parallel control signal or response signal is input as a result of the search, the parallel-serial conversion unit 12 outputs the output to the parallel-serial conversion unit 12 according to the control operation of the wiring conversion control unit 30. Each driving means or controller 1 converts a parallel control signal or response signal in series and transmits it.

On the other hand, the signal output means (20), which is connected to the signal transmission means (10) with a single wire, converts the control signal transmitted in series by the signal transmission means (10) or the response signal of each driving means in parallel. Thus, it is configured to be transmitted to the controller 1 or each driving means so that each driving means is driven and the response signal is output to the control device 1.

That is, the receiving unit 21 included in the signal output unit 20 receives the serial control signal or response signal transmitted by the signal transmission unit 10 and outputs it to the serial-parallel conversion unit 22. Will be ordered.

Here, the receiving unit 21 receives the control signal from the wiring conversion control means 30 and transmits it to the serial-parallel conversion unit 22 to minimize the influence of external noise and receive a signal when a wiring line is shorted. To protect the circuit.

At this time, the serial-parallel conversion unit 22 converts the serial control signal or response signal received by the signal receiving unit 21 into parallel according to the control operation of the wiring conversion control unit 30 and outputs the signal. Output to the unit 23, the signal output unit 23 is a control signal or response signal converted in parallel by the series-parallel conversion unit 22 while solving the voltage difference between the converted voltage and the used voltage. It is to be output to each driving means or controller (1).

In other words, the signal output means 20 determines whether the wiring and power supply of the system is normal according to the control operation of the wiring conversion control means 30, and if not, interrupts the reception and shuts off the output, and then shuts off the system. It is turned down, and if it is normal, a serial control signal or a response signal is received through the signal receiving unit 21.

At this time, the serial control signal or response signal input through the signal receiving unit 21 is converted in parallel by the serial-parallel conversion unit 22 according to the control operation of the wiring conversion control unit 30, and then the signal output unit ( 23), the signal output unit 23 outputs an input parallel control signal or response signal to each driving means or controller 1 to facilitate driving.

That is, the present invention converts the signal between the input/output device and the controller from parallel to serial or from serial to parallel, thereby reducing the electrical wiring of the building machine equipment to a certain ratio (16:1).

At this time, the electrical wiring ratio (16:1) of the present invention is designed to be possible as a single line when the number of driving means controlled by the controller is 16, and when there are many driving means, the ratio of the electrical wiring is also It is possible to increase it to 16:1.

Meanwhile, the controller 1 is mounted in the control room 2000 as illustrated in FIG. 5, and the control room 2000 is a box-shaped enclosure.

In particular, since the control room 2000 must have resistance to external shocks such as earthquakes, the shock absorber 2200 is installed on the floor surface 1000 and seated thereon, thereby buffering primary vibration.

However, in most cases, only the lower buffer structure through the shock absorber 2200 is shown, but the structure for fixing the upper end has not been disclosed, and thus has an unstable fixing structure.

Accordingly, the present invention further includes a fixer 2300 fixed on the ceiling frame 1100 disposed at the top so that such a phenomenon can be completely solved and the control room 2000 is firmly fixed and buffered.

At this time, the fixer 2300 has a'C'-shaped body 2320 having a bite groove 2310 that extends from the ceiling frame 1100 and into which a fixing piece (FRT) forming a fixing structure is inserted, and the fixing piece ( FRT) is fastened in a bolted manner while being inserted into a fixture 2330 for biting a fixing piece (FRT), a t-bar 2340 extending from the upper end of the main body 2320, and the t-bar 2340 Includes a hydraulic jack 2350 fixed to one end and extending downward, a screw jack 2360 fixed to the other end of the t-bar 2340 and extending downward, and a screw handle 2370 for elevating the screw jack 2360. do.

Thus, when the main body 2320 is fixed to the fixing piece (FRT), the hydraulic jack 2350 and the screw jack 2360 are moved to be grounded on the upper surface of the control room 2000, and then a little more pressure is applied to the control room 2000. ) Is firmly fixed by the hydraulic jack 2350 and the screw jack 2360 so that it does not move at all. This structure may be implemented at least on both left and right sides of the top of the control room 2000.

In addition, a purification tank 2500 as shown in FIG. 6 may be further installed on an inner side or an upper surface of the control room 2000.

The purification tank 2500 is a rectangular frame made of a mesh shape, and is built in a replaceable manner so that the purification ball cannot be separated from the inside to purify the air inside the control room 2000.

To this end, the purification ball is based on 100 parts by weight of polyurethane resin, 10 parts by weight of vinyloxymosilane, 10 parts by weight of ferric chloride (FeCl ₃ ), 3.5 parts by weight of benzoguanamine, 5 parts by weight of grass concentrate, resorsi After mixing 5 parts by weight of nol, 10 parts by weight of glutaryl outlet race, and 5 parts by weight of terbium, the mixture is dropped into droplets and cooled to form a ball shape.This purification ball is larger than the mesh of the purification container and does not come out. Should have.

In this case, vinyl oxymosilane (Vinyl Oximeino Silane) is added to increase the bonding strength of the transition metal ferric chloride.

In addition, ferric chloride (FeCl ₃ ) is a trivalent iron salt, a transition metal having oxidizing power, and has a strong oxidizing power in a high-temperature environment, so it reacts with the high-temperature exhaust gas in the stack to increase the decomposition power of harmful components.

In addition, benzoguanamine is added to maintain the stabilization of adhesion while maintaining electrostatic properties, and grass concentrate is a dark brown dry liquid produced when dry wood is dried. It has an excellent effect in decomposing and removing odors peculiar to rubber and fibers. Therefore, it is added for this.

In addition, resorcinol is intended to increase the wet and dry strength, and to increase the deodorizing power while maintaining the crosslinking strength due to its high resistance to high temperatures.

In addition, Glutaral Concentrate absorbs and decomposes harmful components while reacting by heat.

In addition, terbium is a rare earth metal belonging to the lanthanide group, and is a silver-white metal with high malleability and ductility, and reacts under high heat to absorb and remove harmful metal components.

1: controller 10: signal transmission means
20: signal output means 30: wire conversion control means

Claims (1)

A control room 2000 in which the controller 1 is mounted; A signal transmission means (10) mounted in the control room (2000) and configured to convert a parallel control signal output through the controller (1) or a response signal outputted to each driving means of a building machinery to be serially converted and transmitted; The signal transmission means 10 and the control signal transmitted in series or a response signal transmitted in series are converted in parallel to be connected to the signal transmission means 10 by a single wire, and the controller 1 or each drive A signal output means (20) for transmitting to the means; Construction machinery equipment for reducing electric wiring at a certain rate, including a wiring conversion control means 30 for controlling parallel-serial conversion of the signal transmission means 10 and serial-parallel conversion of the signal output means 20 In the wiring reduction device;
The upper end of the control room 2000 is fixedly supported by a fixture 2300 fixed on the ceiling frame 1100,
The fixer 2300 includes a'C'-shaped main body 2320 having a bite groove 2310 extending from the ceiling frame 1100 and into which a fixing piece (FRT) forming a fixing structure is inserted, and the fixing piece (FRT) In the fitted state, a fixture 2330 which is fastened in a bolted manner to biting a fixing piece (FRT), a t-bar 2340 extending from the upper end of the main body 2320, and one end of the t-bar 2340 A hydraulic jack 2350 fixed to and extending downward, a screw jack 2360 fixed to the other end of the t-bar 2340 and extending downward, and a screw handle 2370 for raising and lowering the screw jack 2360. Wire-saving device for building machinery equipment.

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