KR100698940B1 - Control circuit print board for air heating device - Google Patents

Abstract

A control circuit board for an air heater is provided to improve operation reliability of the air heater by preventing a lead plate from being melted or short-circuited due to an excessive current flow. Upper and lower surfaces of a board(10) are penetrated through pin holes(12). The pin holes are spaced from one another by a constant distance. Lead plates(20,21) having predetermined width and thickness are fixed on the upper and lower surfaces of the board. The lead plates are connected to each other by using a lead through the pin hole. A fixing hole(15) is formed, so that the upper and lower surfaces of the board are connected to each other. A lead line(51) of a circuit device(50) is inserted into the fixing hole. The circuit device is fixed on the lead plate by soldering.

Description

Control circuit board for electric warmer {Control circuit print board for air heating device}

1 is a perspective view of a conventional PCB substrate

2 is a cross-sectional view of an existing PCB substrate

3 is a perspective view of a PCB substrate of the present invention

Figure 4 is a cross-sectional view of the PCB substrate of the present invention

5 is a cross-sectional view of a circuit element mounted on a PCB substrate of the present invention.

6 is a circuit diagram of the present invention.

Figure 7 is a perspective perspective view of a substrate of one embodiment of the present invention

8 is a bottom perspective photograph of an embodiment of the present invention;

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

10: substrate 11: copper foil

12: pinhole 15: fixing hole

20,21 Lead plate 40 Relay

50: circuit element 51: lead wire

52: solder 60: heater

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printed circuit board (PCB) substrate equipped with a control circuit for driving an electric hot air fan. The present invention relates to a control circuit board for reducing an electric current load flowing through a conductive line of a substrate, thereby eliminating failure factors and increasing productivity. It is about.

Existing control circuit board is to mount the control circuit on a normal printed circuit board (PCB) and to supply electricity to the heater for generating warm air according to the control signal input to heat the heater, switch input or automatic temperature The magnetic switch is turned on / off by an input such as a control circuit to supply electricity to the heater.

Since the electric current supplied to the heater through the magnetic switch mounted on the PCB board is supplied through the copper plate printed on the board, the electric current supplied to the heater may be considerably large according to the capacity (load) of the heater. (Load) must be quite large, which causes a problem that the copper plate of the substrate through which the current flows through the magnetic switch is melted.

That is, the PCB substrate is printed on the copper foil 11 to one side of the substrate 10 made of epoxy resin or bakelite resin as shown in Figures 1 and 2, but the current is supplied, but the copper foil 11 When controlling the current supplied to the heater of the electric heater by using a large load of the heater, there is a problem that the copper foil 11 is melted or short, thereby causing a problem that the operation is stopped.

Therefore, in the past, the copper foil 11 is used to weld a thick copper wire to the upper side of the copper foil 11 so that the operation occurs even if the copper foil 11 is melted. In this case, the copper foil 11 may be melted or shorted. The problem that the process of welding is needed had arisen.

In addition, the use of the magnetic switch is accompanied by the disadvantage of generating noise during operation.

The present invention is to eliminate the case of melting or shorting due to excessive current flow by fixing the lead plate back and forth to facilitate the current flow to the existing substrate to solder the circuit element to the lead plate.

In addition, the present invention is to drive the heater by driving several relays without using a magnetic switch to reduce the load while reducing the noise generated during switching.

The present invention penetrates through the pin hole on the substrate on which each circuit element is mounted, and installs a lead plate of a predetermined width on both sides of the substrate by printing, and forms a fixing hole in the lead plate, but the circuit element in the fixing hole It is made by soldering the lead wire to the lead plate by inserting a wire into the lead plate. The width and thickness of the lead plate forming the current path facilitate current flow and eliminate the case of melting or shorting.

According to the present invention, several relays are mounted on a substrate to drive a heater of an electric heater.

The present invention provides a PCB substrate in which a control circuit for driving a heater of an electric heater is mounted, wherein a pin hole is formed at a predetermined interval on the substrate, and a lead plate is formed on both sides of the lead plate to form a current path. It is connected to each other by the center, and after processing the fixing holes in the lead plate is made by fixing the circuit elements such as relays, fuses and resistors and driving transistors and bias resistors in the fixing holes and then fixed by soldering.

The substrate of the present invention is to install a lead plate which constitutes a current path to both sides in a printing manner, but to have a certain width, the lead plate is penetrated into the pin hole formed in the substrate when the lead plate is installed on both sides of the substrate to both sides of the substrate The formed lead plates are connected to each other in a pin hole, and after forming a fixing hole penetrating the lead plate, the circuit element is inserted into the fixing hole and fixed by soldering. When the current flows through the lead plate of the board Due to the thickness and the area of the current flow is enough to deal with, there is no problem of melting or cutting.

In addition, the present invention reduces the load when the relay is used rather than the magnetic switch in the switching means for interrupting the load by supplying the drive current to the heater using several relays without using the magnetic switch on the substrate. Noise reduction during switching operation is reduced.

In the present invention, the lead plates 20 and 21 each having a predetermined width are fixed to both sides of a substrate 10 made of an epoxy resin or a berice resin on which a circuit element is mounted, and the substrate 10 is fixed. The pin 10 is formed at regular intervals so that when the lead plates 20 and 21 are fixed to both sides of the substrate 10, the lead is melted through the pin holes 12 so as to be connected to each other. The lead plates 20 and 21 fixed to both sides of the are electrically connected by the lead filled in the pin hole 12.

Here, the lead plates 20 and 21 should be arranged on the substrate 10 in accordance with the electrical circuit design, and should be installed on the substrate 10 in consideration of thickness and width to allow sufficient current to flow in accordance with the allowable current value.

Lead plates 20 and 21 are fixed to both sides of the substrate 10 as described above, and the lead plates 20 and 21 are connected to each other through the pin holes 12, and the lead plates 20 fixed to the substrate 10 are provided. After forming the fixing hole 15 penetrating through the 21, the lead wire 51 of the circuit element 50 is inserted into the fixing hole 15, and then the lead plate 21 and the lead wire 51 are soldered (52). To be fixed.

Here, as shown in the circuit diagram of FIG. 6, the circuit element 50 in which the lead wire 51 is fitted into the fixing hole 15 formed in the lead plates 20 and 21 is used for the relay 40, the fuse 41, and the current limiting device. And a resistor 43, a ripple preventing capacitor 42, a reverse voltage preventing diode 44, a driving transistor 45, a bias resistor 46, and the like.

Each circuit element 50 is provided with a lead wire 51, the lead wire 51 is inserted into the fixing hole 15 drilled in the substrate 10 and then fixed with the lead plate 21 by soldering 52 Will be done.

In the present invention, by using several relays 40 by distributing the current that was previously used as a magnetic switch through several relays 40, the allowable current value can be lowered to withstand the lead plates 20 and 21. Do not exceed the current value, for example, the use of three relays to cover the current of about 33.4 amps in one relay than one magnetic switch is responsible for 100 amperes of current (20, 21) The allowable current value of) can be lowered, while the use of a magnetic switch can reduce noise gradually during switching.

In the present invention, as shown in the circuit diagram of FIG. 6, the driving power supplied to the heater 60 is interrupted through the relay 40, and the power line is provided with an overcurrent prevention fuse 41 and the relay 40. When driving to the on position, the power is supplied to the heater 60 is heated, and when the relay 40 is driven to the off position, the power is not supplied to the heater 60, the drive of the relay 40 Is made according to the driving of the transistor 45, and the transistor 45 allows the driving to be controlled by a control signal applied from a separate controller.

That is, when the controller detects the pressing of the drive switch or the temperature change and drives the heater 60, the transistor 45 is driven to operate the relay 40 so that power can be supplied to the heater 60.

Here, the relay 40 uses three to drive one phase when driving three-phase current to reduce the current load by reducing the current by 1/3 compared to the case of using a single magnetic switch for driving one phase. In addition, the use of magnetic switches reduces noise.

Meanwhile, in the present invention, the control signal is input to the transistor 45 and all current paths for supplying driving power from the relay 40 to the heater 60 are made by the lead plates 20 and 21, but the lead plate of the present invention is used. 20 and 21 have a thickness and a width, and are formed on both sides of the substrate 10 to greatly reduce the current load, thereby eliminating the case of melting or shorting as before.

The present invention is to fix the lead plate having a predetermined width and thickness on the front and back of the substrate in a substrate equipped with a control circuit for driving the heater of the electric heater, so that the lead plate formed on both sides of the substrate can be connected to each other after the circuit element on the lead plate By soldering, the driving current supplied to the heater passes through the lead plate, which eliminates the case where the lead plate melts or shorts due to excessive current flow, and reduces productivity of welding the copper wire separately as in the past, thereby improving productivity.

In addition, the present invention is to use the three relays in one phase to interrupt the current supplied to the heater instead of using a magnetic switch in one phase to interrupt the current supplied to the heater, reducing the current load while switching The noise generated is reduced.

Claims (3)

(delete) Pin holes are formed in the substrate so that upper and lower surfaces penetrate at predetermined intervals, and the lead plates having a predetermined width and thickness are respectively fixed to the upper and lower surfaces of the substrate, and the lead plates are connected to each other with lead through the pin holes of the substrate. And forming a fixing hole through the upper and lower surfaces of the substrate on which the lead plate is fixed, and inserting a lead wire of a circuit element into the fixing hole, and fixing the lead plate and solder to fix the substrate. (delete)

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