KR20200028672A - Control device and control system including the same - Google Patents

Abstract

The present invention provides a control device which can effectively utilize an installation space, reduce a product unit price, reduce a facility process and a facility cost, easily perform maintenance, and improve a fine view of a facility place. To this end, the control device for controlling a control subject comprises: a first main circuit board; a second main circuit board; a first power connector provided to pass through the first main circuit board and receiving alternating current power; and a second power connector provided to pass through the second main circuit board and connected to be detachable from the first power connector.

Description

Control device and control system including the same

The present invention relates to a control device.

In general, the control device is a device that controls the temperature of the heater, the brightness of the lighting, or the function of an IoT-based electronic product, and is a component of the control system.

1 is a diagram schematically showing an existing control system, and FIG. 2 is a diagram schematically showing an end power connector of a power supply device among the existing control systems.

The control system 10, as shown in Figure 1, each control device 11 for controlling each of a plurality of control targets 1 that require control, and each control device 11, power It includes each power supply device 12 for supplying, and each connection device 13 for connecting each control device 1 and each control device 11.

In particular, each of the power supply devices 12, as shown in Figure 1, the main power cable (main power cable) (12a), the main power cable (12a) branch in the form of the English alphabet "T" Male power connector provided on one end of the main power cable 12a and connected to a female power connector of another power supply adjacent thereto 12c, a female power connector 12d provided at the other end of the main power cable 12a and connected to a male power connector of another power supply adjacent thereto, and provided at an end of the branch power cable 12b And an end power connector 12e connected to the corresponding control device 11. Here, the main power cable 12a is usually designed to allow alternating current of 22A.

Furthermore, as shown in FIG. 2, the end power connector 12e includes a plurality of pins P1, and each pin P1 has a thickness smaller than that of the main power cable 12a, so that an alternating current of 9A flows normally. It is designed to.

Thus, while approximately 22A of AC power flows along the main power cable 12a, the AC power of 9A is controlled through a pair of pins P1 of the end power connector 12e while being energized with the branch power cable 12b. It is supplied to the device 11, and some of the AC power of 9A in the control device 11 (approximately 1A) is supplied to the control target product 1 through the connecting device 13 as a power source of the control target product 1 Used, some are converted to DC power through an AC-to-DC converter (SMPS: switched mode power supply) (not shown), and various electronic components (SSR module, control module, communication module, display module, etc.) in the control device 11 ).

For example, the control target product 1 wraps the outer circumferential surface of the pipe to maintain the set temperature of the pipe used for a heater jacket, semiconductor manufacturing equipment, etc., and heats the pipe using a heater embedded therein. In the case of adding), an SSR module (solid state relay module) (not shown) may control AC power supplied to a heater (not shown) embedded in the heater jacket. In addition, the control module (not shown) receives the signal of the temperature sensor (not shown) embedded in the heater jacket through the connecting device 13 and the communication module (not shown), and the temperature of the pipe (not shown) is set. It is possible to control the heater through the above-described SSR module (not shown).

However, the conventional control system 10, as shown in Figure 1, the English alphabet "T" shaped power supply device 12 is provided separately to provide a technical configuration connected to the control device 11, As the facility space of the power supply device 12 is required separately, there is a problem that the facility itself is impossible when the facility space of the control system 10 is narrow.

In addition, since the power supply device 12 provides a technical configuration including a plurality of power cables 12a, 12b and a plurality of power connectors 12c, 12d, 12e, there is a problem that the product cost is increased. , Since it is necessary to connect each power connector 12c, 12d, 12e over a plurality of times, there is a problem in that the equipment process is troublesome, maintenance and maintenance are also inconvenient, and the probability of product failure is increased by using a plurality of parts. There is.

In addition, since a power supply device 12 including a plurality of power cables 12a, 12b and a plurality of power connectors 12c, 12d, 12e is provided to the outside, the technical configuration of the facility is provided. There is a problem in that the appearance becomes dirty, and there is a problem in that notifications through a display module (not shown) are covered by a plurality of power cables 12a and 12b.

In addition, since AC power is applied through a pair of pins having a relatively small cross-sectional area, there is a problem that cannot be used in a control product that requires relatively high AC power.

In addition, there is a problem in that the operation of the control device 11 is slowed due to heat generated from the SSR module (not shown) or the SSR module (not shown) or peripheral electronic components are short-circuited due to deterioration.

The technical problem of the present invention is that the facility space can be efficiently utilized, the product cost can be lowered, the facility process and equipment cost can be lowered, maintenance and repair can be easily performed, and the appearance of the facility can be improved. It is to provide a control device and a control system including the same.

Another technical problem of the present invention is to provide a control device and a control system including the same, which can be applied to a control product requiring high power.

Another technical problem of the present invention is to provide a control device capable of minimizing degradation and a control system including the same.

In order to achieve the above object, the control device according to an embodiment of the present invention, a control device for controlling a control target product, a first main circuit board; A second main circuit board; A first power connector provided through the first main circuit board and receiving AC power; And a second power connector provided to penetrate the second main circuit board and detachably connected to the first power connector.

The first power connector may be electrically connected to the first main circuit board through a first main via-hole, and the second power connector may be connected to the second main circuit board. 2 It can penetrate through the main via hole and be electrically connected at the same time.

Each of the first and second power connectors may be formed of a single energizing member.

The control device according to the above-described exemplary embodiment of the present invention includes: an SSR module mounted on one of the first and second main circuit boards to control AC power provided to the control target product; And a heat dissipation unit for cooling the SSR module.

The heat dissipation unit may include one or more auxiliary circuit boards for heat dissipation stacked on one surface of the main circuit board; A plurality of auxiliary via holes for radiating heat connecting the one main circuit board and the auxiliary circuit board for heat dissipation; A connection pad for heat dissipation provided on the other surface of the one main circuit board, provided in contact with the entire auxiliary via hole for heat dissipation, and on which the SSR module is mounted; And a heat sink in contact with the outer surface of the SSR module and absorbing heat of the SSR module to discharge it to the outside.

The control device according to the above-described embodiment of the present invention includes: an AC power supply terminal for supplying the AC power; A target product connection connector for connecting with the control target product; An internal connection line connecting between the AC power terminal and the product connection connector; And a safety relay provided on the internal connection line to cut off AC power when the control target is overloaded.

Meanwhile, the control system according to another embodiment of the present invention is a control system including a plurality of control devices according to the above-described embodiment of the present invention, wherein the plurality of control devices comprises: 1 control device; And a second control device for controlling the second control target product, wherein the first power connector of the first control device is connected to a first AC wire, the second power connector of the first control device and the second control device. 2 The first power connector of the control device is connected by a second AC wire.

As described above, the control device according to the embodiments of the present invention and the control system including the same may have the following effects.

According to embodiments of the present invention, the first and second main circuit boards and the first and second power connectors are included, the first power connector is provided to penetrate the first main circuit board, and the second power connector is provided. Since it is provided to penetrate the second main circuit board and provides a technical configuration in which the first and second power connectors are detachably connected to each other, the control device of the present invention is provided with the first main circuit board portion and the second main circuit. It can be separated into a part with a substrate or connected, and AC power can be applied. Therefore, there is no need to separately provide an existing power supply device detachable from the control device, thereby reducing the corresponding facility space, Even if the facility space is limited, the facility space can be utilized more efficiently, such as being able to do so.

In addition, according to embodiments of the present invention, a conventional power supply device including a plurality of power cables and a plurality of power connectors is replaced with first and second power connectors passing through the first and second main circuit boards, respectively. As it is possible to reduce the product cost by reducing the number of parts, it is possible to reduce the probability of product defects and to improve the aesthetics of the facility location. Maintenance can be easy.

In addition, according to embodiments of the present invention, unlike the conventional technology in which AC power is applied through some of the pins of the plurality of pins, each of the first and second power connectors comprises a technical configuration consisting of a single energizing member having a cylindrical shape. Since it is provided, it is possible to directly apply AC power of approximately 22 A or more, and thus it can be used for a control product requiring relatively high AC power.

In addition, according to embodiments of the present invention, by providing a technical configuration further comprising a heat dissipation unit that absorbs the heat of the SSR module and discharges it to the outside, the operation performance of the SSR module can be improved, and the SSR module or peripheral electronic components Can prevent deterioration.

In addition, according to the embodiments of the present invention, because it provides a technical configuration further comprising a safety relay, it is possible to cut off the AC power in case of overload of the control product, it is possible to prevent a safety accident such as a fire.

1 is a view schematically showing a conventional control system.
2 is a view schematically showing an end power connector of a power supply device in a conventional control system.
3 is a perspective view schematically showing a control device according to an embodiment of the present invention.
4 is a diagram schematically showing a state in which the control device of FIG. 3 is divided into two parts.
5 is an exploded perspective view schematically showing the control device of FIG. 3.
6 is a view schematically showing a connection state (a) and a separation state (b) of the control device of FIG. 3.
7 is a cross-sectional view of a main portion schematically illustrating a heat dissipation part of the control device of FIG.
8 is a block diagram schematically illustrating a safety relay applied to the control device of FIG. 3.
9 is a diagram schematically showing a control system in which a plurality of control devices of FIG. 3 are connected in-line.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein.

3 is a perspective view schematically showing a control device according to an embodiment of the present invention, FIG. 4 is a view schematically showing a state in which the control device of FIG. 3 is divided into two parts, and FIG. 5 is a control device of FIG. 3 Is a schematic exploded perspective view, and FIG. 6 is a view schematically showing a connection state (a) and a separation state (b) of the control device of FIG. 3.

7 is a cross-sectional view of a main portion schematically showing a heat dissipation part of the control device of FIG. 3, and FIG. 8 is a block diagram schematically showing a safety relay applied to the control device of FIG. 3. Meanwhile, FIG. 9 is a diagram schematically showing a control system in which a plurality of control devices of FIG. 3 are connected in-line.

The control device 100 according to an embodiment of the present invention is a control device for controlling a control target product (1 in FIG. 9), as illustrated in FIGS. 3 to 9, the first main circuit board 110 ), The second main circuit board 120, the first power connector 130, and the second power connector 140. Hereinafter, each component will be described in detail with reference to FIGS. 3 to 8.

The first main circuit board 110 is a component for configuring the circuit of the control device 100, as shown in FIGS. 3 to 5. The first main circuit board 110 may be formed in a circular shape as illustrated in FIGS. 3 to 5. Furthermore, as illustrated in FIG. 9, the first main circuit board 110 may be embedded in the first housing C11, and the first housing C11 may also be formed in a circular shape. Ultimately, the rigidity of the angled shape can be avoided through this prototype.

For example, as shown in FIGS. 3 to 5, the first main circuit board 110 includes an AC-to-DC converter (SMPS: switched mode power supply) E11, a communication module E12, and a first connection terminal. (E13) etc. may be mounted. The AC-DC converter E11 converts AC power into DC power for various electronic components (SSR module E21, control module E23, communication module E12, display module E24, etc.) using DC power. Can be converted to The communication module E12 may communicate with an external device (for example, a server) (not shown) or may communicate with a control target product (1 in FIG. 9). The first connection terminal E13 is a component for connecting the first main circuit board 110 to the second main circuit board 120 and sends the converted DC power or the like to the second main circuit board 120. It is possible to exchange electrical signals and the like with various electronic components of the second main circuit board 120.

The second main circuit board 120 is a component for configuring a circuit of the control device 100 together with the first main circuit board 110, as shown in FIGS. 3 to 5. The second main circuit board 120 may be formed in a circular shape as illustrated in FIGS. 3 to 5. Furthermore, as illustrated in FIG. 9, the second main circuit board 120 may be embedded in the second housing C12, and the second housing C12 may also be formed in a circular shape. Ultimately, the rigidity of the angled shape can be avoided through this prototype.

For example, as shown in FIGS. 3 to 5, the second main circuit board 120 includes a solid state relay (SSR) module (E21), a product connection connector (E22), and a control module (CPU) (E23). ), The display module E24, the second connection terminal E25, and the like may be mounted. The SSR module E21 can control AC power supplied to a driving unit (for example, a heater) built in the control target product (for example, a heater jacket) 1. The target product connection connector E22 is an input / output terminal connected to the control target product 1 and a connection device (see 00 in FIG. 9), and the AC power controlled by the SSR module E21 is controlled to the target product 1 It can output or input the detection signal of the control target product 1. The control module E23 is a component that controls various electronic components, and receives a signal from a sensing unit (for example, a temperature sensor) (not shown) built into the control target product (for example, a heater jacket) 1. It is possible to control a driving unit (for example, a heater) (not shown) of the control target product 1 through the above-described SSR module E21 to receive the temperature through the connecting device (13 of FIG. 9) or the like so that the temperature becomes the set temperature. In addition, the display module E24 may be controlled to display or notify an error, etc. along with the current temperature. The display module E24 is a device that outputs a sound or a screen, and may visually display or inform the sound. The second connection terminal E25 may be connected to the first connection terminal E13 to send converted DC power or the like to the second main circuit board 120, or to transmit electrical signals or the like to the first main circuit board 110. It can serve as an interface, such as exchange with various electronic components.

The first power connector 130 guides AC power to the first main circuit board 110 and detachably connects to the second power connector 140 on the second main circuit board 120 (FIG. 6) Reference). The first power connector 130 may be provided to penetrate the first main circuit board 110, as shown in FIGS. 3 and 5.

For example, as shown in FIGS. 3 and 5, the first power connector 130 penetrates through the first main via-hole H10 to the first main circuit board 110 at the same time. Can be electrically connected.

Furthermore, the first power connector 130 may be formed of a single cylindrical current-carrying member. Therefore, unlike the conventional technology in which AC power is applied through a pair of pins among a plurality of pins, approximately 22 A or more of AC power can be directly applied through a pair of first power connectors 130, thus being relatively high. It can also be used for control products that require AC power.

The second power connector 140, as shown in FIGS. 3, 4 and 6, is detachably connected to the first power connector 130 and removes AC power guided to the first power connector 130. 2 It is a component that guides not only the main circuit board 120 but also other adjacent control devices (see 100 in FIG. 9). The second power connector 140 may be provided to penetrate the second main circuit board 120, as shown in FIGS. 3 and 5.

For example, the second power connector 140 may be electrically connected to the second main circuit board 120 through the second main via hole H20 as shown in FIGS. 3 and 5. .

Furthermore, the second power connector 140 may be formed of a single cylindrical current-carrying member. Accordingly, unlike conventional technology in which AC power is applied through a pair of pins among a plurality of pins, approximately 22 A or more of AC power can be directly applied through a pair of second power connectors 140, thereby being relatively high. It can also be used for control products that require AC power.

Accordingly, as the above components are provided, as shown in FIGS. 3, 4 and 6. The control device 100 of the present invention includes a portion with a first main circuit board 110 (first housing) (see C11 in FIG. 9) and a portion with a second main circuit board 120 (second housing) ( It can be separated or connected to C12 in FIG. 9) or AC power can be applied, so there is no need to separately provide an existing power supply (12 in FIG. 1) detachable from the control device. The facility space can be reduced, and even if the facility space is limited, the facility space can be utilized more efficiently, such as being able to perform the facility. Further, the first and second main power supply devices (12 in FIG. 1) including a plurality of power cables (12a, 12b in FIG. 1) and a plurality of power connectors (12c, 12d, 12e in FIG. 1) Since the first and second power connectors 130 and 140 penetrating the circuit boards 110 and 120 can be replaced, the product cost can be reduced by reducing the number of parts and the probability of product defects can be reduced. In addition, it is possible to improve the aesthetics of the facility location, and since the connection is made with one connection, the facility process may be simple and maintenance or repair may be easy.

In addition, the control apparatus 100 according to an embodiment of the present invention described above may further include a heat dissipation unit 160 for cooling the SSR module E21, as shown in FIG. 7. Therefore, the operation performance of the SSR module E21 may be improved through the heat dissipation unit 160, and deterioration of the SSR module E21 or peripheral electronic components may be prevented.

For example, the heat dissipation unit 160, as shown in Figure 7, four auxiliary circuit boards for heat dissipation (161a) (161b) (161c) (161d), a plurality of auxiliary via holes 162 for heat dissipation, heat dissipation Dragon connection pad 163, and may include a heat sink (164).

The four heat dissipation auxiliary circuit boards 161 may be stacked in multiple stages on one surface (the bottom surface based on FIG. 7) of the second main circuit board 120, and a plurality of sub via-holes for heat dissipation ( 162 may electrically connect the second main circuit board 120 and the auxiliary circuit boards 161 for heat dissipation. The connection pad 163 for heat dissipation is provided on the other surface of the second main circuit board 120 (the upper surface based on FIG. 7), but is provided in contact with the entire plurality of auxiliary via holes 162 for heat dissipation, and thus the SSR module E21 is provided. It may be mounted, the heat sink 164 is in contact with the outer surface of the SSR module (E21) can absorb the heat of the SSR module (E21) to be discharged to the outside. Therefore, the heat generated in the SSR module E21 is absorbed by the conductive portion of each heat dissipation auxiliary circuit board 161, the connection pad 163 for heat dissipation, and the heat dissipation plate 164 to be discharged to the outside and cooled. It may be, or may be cooled by the circulation of air through each of the auxiliary via holes 162 for heat dissipation.

Meanwhile, the auxiliary circuit board 161 for heat dissipation is not limited to four, and when more heat is needed, a larger number may be stacked, and when less heat is required, a smaller number may be stacked. . For reference, the auxiliary circuit board 161 for heat dissipation shown in FIG. 7 is expressed in a thicker thickness than actually shown in detail. Furthermore, an auxiliary heat sink 165 in contact with the whole of the auxiliary via hole 162 for heat dissipation is located on the outer surface of the auxiliary circuit board for heat dissipation farthest from the second main circuit board 120 among the four heat dissipation auxiliary circuit boards 161. ) May be further provided.

In addition. The control device 100 according to an embodiment of the present invention described above, as shown in Figure 8, the AC power terminal 171, the product connection connector (E22), the internal connection line 173, and the safety relay ( safety relay) 174.

The AC power terminal 171 is a component for supplying AC power applied to the second power connector 140, and the target product connection connector E22 is a control target product (FIG. 9 in FIG. 9). It is a component for connecting with 1) of 9, and the internal connection line 173 can connect between the AC power terminal 171 and the product connection connector E22, and the safety relay 174 has an internal connection line 173 It is provided in the control target product (1) when the overload of the AC power can be cut off.

Therefore, the AC power can be cut off when the control target product 1 is overloaded through the safety relay 174, so that a safety accident such as a fire can be prevented.

Hereinafter, a control system 200 according to another embodiment of the present invention will be described with reference to FIG. 9.

The control system 200 according to another embodiment of the present invention, as shown in FIG. 9, may include a plurality of control devices 100 according to an embodiment of the present invention described above.

The plurality of control devices may include a first control device 100A that controls the first control target product 1A and a second control device 100B that controls the second control target product 1B. The first power connector 130 of the first control device 100A may be connected to the first AC wire W10, the second power connector 140 and the second control device 100B of the first control device 100A ), The first power connector 130 may be connected by a second AC wire W20.

The preferred embodiments of the present invention have been described in detail above, but the scope of the present invention is not limited to this, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1: Control product 1A: 1st control product
1B: second control target product 13: connecting device
100: control device 100A: first control device
100B: second control device 110: first main circuit board
120: second main circuit board 130: first power connector
140: second power connector H10: first main via hole
H20: Second main via hole E21: SSR module
W10: First AC wire W20: Second AC wire
160: heat dissipation unit 161: auxiliary circuit board for heat dissipation
162: heat dissipation auxiliary via hole 163: heat dissipation connection pad
164: heat sink 171: AC power terminal
E22: Target connector 173: Internal connector
174: safety relay

Claims (5)

A control device for controlling a control product,
A first main circuit board;
A second main circuit board;
A first power connector provided through the first main circuit board and receiving AC power; And
A second power connector provided to penetrate the second main circuit board and detachably connected to the first power connector;
Containing
controller. In claim 1,
The first power connector,
It is penetrated through the first main via hole and electrically connected to the first main circuit board.
The second power connector,
It is penetrated through the second main via hole and electrically connected to the second main circuit board.
controller. In claim 1,
The control device,
An SSR module mounted on any one of the first and second main circuit boards to control AC power provided to the control target product; And
A heat dissipation unit to cool the SSR module;
Containing more
controller. In claim 3,
The heat dissipation unit,
One or more auxiliary circuit boards for heat dissipation stacked on one surface of the one main circuit board;
A plurality of auxiliary via holes for radiating heat connecting the one main circuit board and the auxiliary circuit board for heat dissipation;
A connection pad for heat dissipation provided on the other surface of the one main circuit board, provided in contact with the entire auxiliary via hole for heat dissipation, and on which the SSR module is mounted; And
A heat sink in contact with the outer surface of the SSR module and absorbing heat of the SSR module to discharge to the outside;
Containing
controller. A control system comprising a plurality of control devices according to any one of claims 1 to 4,
The plurality of control devices,
A first control device for controlling the first control target product; And
A second control device for controlling the second control target product;
Including,
The first power connector of the first control device is connected to a first AC wire,
The second power connector of the first control device and the first power connector of the second control device are connected by a second AC wire.
Control system.

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