KR101022531B1 - Switchgear of electronic equipment using water sensor - Google Patents

Abstract

The present invention relates to an opening and closing device of an electronic device using a water detection sensor configured to open and close an air outlet of an electronic device by using a water detection sensor when the electronic device is introduced into or out of water. A water sensor, a solenoid valve for opening and closing the air outlet in response to a signal sensed by the water sensor, and a signal processor for receiving the signal detected by the water sensor and controlling the solenoid valve according to the signal. It is characterized in that, according to this, it is possible to prevent the malfunction of the external vibration or shock, and to shorten the reaction time of the solenoid valve according to the water sensor, as well as to increase the accuracy of the sensing operation of the sensor The reliability of the product can be improved and the cost of the product can be reduced by not requiring precise instrument processing. There is an advantage.

Electronic equipment, water sensor, solenoid valve, signal processor.

Description

OPENING AND SHUTTING APPARATUS FOR ELECTRONIC DEVICE USING A SENSOR OF DETECTING WATER}             

1 is a perspective view showing the configuration of an opening and closing device of an electronic device using a conventional water sensor,

2 is an enlarged perspective view of a portion A of FIG. 1;

Figure 3 is a front view showing the operating state of the opening and closing device of the electronic equipment using a conventional water sensor,

Figure 4 is an exploded perspective view showing the configuration of the opening and closing device of the electronic equipment using the water sensor according to an embodiment of the present invention,

5 is a perspective view showing the water sensor and the solenoid valve of the configuration of the switchgear of the electronic equipment using the water sensor according to an embodiment of the present invention,

FIG. 6 is a cross-sectional view taken along line A-A 'of FIG. 5 and illustrates a state before operation of the water sensor and the solenoid valve;

7 is a cross-sectional view taken along line AA ′ of FIG. 5, illustrating a state after operation of the water sensor and the solenoid valve;

8 is a cross-sectional view taken along line B-B 'of FIG. 5, showing a state before the solenoid valve is operated;

FIG. 9 is a cross-sectional view taken along line B-B 'of FIG. 5, illustrating a state after operation of the solenoid valve;

10 is a circuit diagram illustrating an operation state of a signal processing unit during configuration of an opening and closing device of an electronic device using a water sensor according to an embodiment of the present invention.

The present invention relates to an opening and closing device of an electronic device using a water detection sensor configured to open and close the air outlet of the electronic device using the water sensor when the electronic equipment is introduced into or out of the water.

Typically, aircraft are equipped with a variety of electronic equipment for manipulating the aircraft.

In addition, there is provided a pneumatic pressure control system for regulating the pressure in the aircraft fuselage.

The pneumatic control system pressurizes a range of cabins critical to the safety of the people in the aircraft, giving them maximum comfort.

The air pressure control system has two air outlets for air chamber pressurization of the aircraft, and controls the pressure in the cabin by introducing air through the air inlet formed outside the aircraft.

Similarly, the electronic equipment of the aircraft is also equipped with an air pressure system to adjust the pressure in the equipment.

In addition, the aircraft is equipped with a buoyancy valve device for blocking the air outlet of the aircraft and electronic equipment in case the aircraft enters the water in case of emergency.

1 to 3, the buoyancy valve device 1 uses the principle of buoyancy, and the density of the styro product 5 is lower than that of water. When the air valve 3 is opened through the water surface, the styro product 5 is opened by the buoyancy force to the water, and the air outlet 2a is configured to push and close.

1 and 2, the buoyancy valve device 1 and the housing body 2 formed in the air outlet 2a,

An air valve 3 provided at the housing body 2 and connected to the air outlet 2a;

A cradle 4 having a lower portion of the air valve 3 to detect water W1 and having a styro product 5 moving up and down by buoyancy of the water W1;

A pair of guide rods 6 coupled to the guide coupling portions 4a formed at both sides of the cradle 4 so as to be guided upward and downward;                         

It is composed of a shut-off valve (7) provided on the top of the cradle (4) to move up, down by the buoyancy of the water (W1) and at the same time block the air inlet and outlet (3a) of the air valve (3). .

However, in the conventional buoyancy valve device, as shown in FIG. 3, since the styro product for detecting water is located directly under the air valve, water may be introduced into the interior through the shutoff valve at the same time as detecting the water. Since the styro product and the aluminum cradle must be light, the lightweight processing of the aluminum cradle is necessary.

In addition, the styrofoam to detect the buoyancy is moved up and down along the guide rod, when this material is introduced into the coupling portion of the guide rod and the cradle, the styro product will behave abnormally, due to the strong vibration applied from the outside The rubber part of the shutoff valve may not correctly block the air inlet and outlet formed at the air outlet so that a malfunction of the valve may occur.

Accordingly, the present invention is to solve the conventional problems as described above, an object of the present invention, to open and close the air outlet of the electronic equipment by using a water sensor when the electronic equipment is introduced into or out of the water. The present invention provides an opening and closing device for electronic equipment using a water detection sensor that can prevent malfunctions due to external vibration or shock.

Another object of the present invention is to configure the opening and closing of the air outlet of the electronic equipment by using the water sensor when the electronic equipment into or out of the water, it is possible to shorten the reaction time of the valve according to the water sensor The present invention provides a switchgear for electronic equipment using a water sensor.

In order to achieve the above object, the present invention, in the opening and closing device of the air outlet formed in the electronic equipment,

A water sensor for detecting water;

A solenoid valve which opens and closes the air outlet inlet by receiving a signal sensed by the water sensor; And

Receives a signal sensed by the water sensor, characterized in that consisting of a signal processor for controlling the solenoid valve in accordance with this signal.

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

4 to 10, the opening and closing device 100 of the electronic equipment using the water sensor is composed of a water sensor 200, a solenoid valve 300, and a signal processor (400).

The water sensor 200 is formed at a predetermined position of the electronic device (not shown) to detect the water (W1).

The solenoid valve 300 is provided in the lower portion of the air valve 3 to open and close the air outlet 2a by receiving a signal sensed by the water sensor 200.

The signal processor 400 receives a signal sensed by the water sensor 200 and controls the solenoid valve 300 according to the signal.

In addition, the water sensor 200 is composed of a sensor housing 201, the first and second sensor unit 202, the detection signal unit 203.

The sensor housing 201 is provided with the first and second sensor units 202 and the detection signal unit 203 and is protected at the same time.

The first and second sensor units 202 are provided in the sensor housing 201 to detect water W1 flowing into the housing 201.

The sensing signal unit 203 is connected to the respective sensor unit 202 so that when the respective sensor unit 202 comes into contact with water, the sensor unit 202 can be electrically connected and signaled at the same time.

In addition, the first and second sensor units 202 may be formed of electrode rods that are in contact with water W1.

In addition, the sensor housing 201 is composed of first and second housings 201a and 201b.

In addition, the sensor housing 201 is made of a reinforced plastic material.

The lower portion of the first housing 201a is provided with a filter 201c to block foreign matter in the water W1 from flowing into the housing 201.

In addition, the solenoid valve 300 is composed of a solenoid housing 301, an electromagnet rod 302, and the operation unit 303.

The solenoid housing 301 is operable at the same time as the coil 402d and the electromagnet rod 302 support.

The electromagnet bar 302 is embedded in the solenoid housing 301 to generate a magnetic force when a current is applied to the coil 402d.

The operation unit 303 moves upward and downward by the magnetic force of the electromagnet bar 302 and simultaneously opens or blocks the inflow and outflow path 3a of the air valve 3 so as to be closed. It is provided on top of the electromagnet rod 302.

The operating part 303 is composed of an operating rod 303a, a sealing means 303b, a spring support 303c, and a coil spring 303d.

The operating rod 303a is provided at an upper portion of the electromagnet rod 302 to move upward and downward in the sealing means 303b.

The sealing means 303b is coupled to the operating rod 303a so that the operating rod 303a can be slidably moved up and down.

The spring pedestal 303c is formed at the lower end of the operating rod 303a to be coupled to the coil spring 303d.

The coil spring 303d is provided between the sealing means 303b and the spring pedestal 303c to provide an elastic force to move the operating rod 303a in the up and down directions.

Water stopper 304 is formed at the upper end of the operating rod (303a) to seal the air inlet and outlet (3a).

A spring fixing part 305 is formed at a lower end of the sealing means 303b so as to be coupled to the coil spring 303d and fixed thereto.

A through hole 306 is formed in the center of the sealing means 303b to allow the operating rod 303a to pass therethrough.

The sealing means 303b is made of a rubber material.

In addition, the signal processor 400 includes a sensor controller 401 and a solenoid controller 402.

When the water W1 is detected, the sensor control unit 401 conducts the first and second sensor units 202, adjusts the base voltage in the comparator 401a, and adjusts it through the comparator 401a. When the TR switch 401b is turned on according to the set voltage, the first relay 401c can be operated.

When the first relay 401c is operated, the solenoid control unit 402 operates the second relay 402a, turns on the current switch 402c via the timer 402b, and supplies it to the solenoid coil 402d. It is adapted to apply a current.

The sensor control unit 401 includes a comparator 401a, a TR switch 401b, and a first relay 401c.

When the water W1 is detected, the comparator 401a conducts the first and second sensor units 202 and adjusts the voltage of each of the sensor units 202 conducted.

The TR switch 401b adjusts the base voltage in the comparator 401a and is turned on / off according to the voltage adjusted through the comparator 401a.

The first relay 401c is operated in accordance with ON / OFF of the TR switch 401b.

The solenoid control unit 402 includes a second relay 402a, a timer 402b, a current switch and a current protector 402c.

The second relay 402a operates in accordance with the operation of the first relay 401c.

The timer 402b adjusts the amount of current applied through the second relay 402a.

The current switch and the current protector 402c are configured to prevent or overload the current by applying or blocking the current passing through the timer 402b to the solenoid coil 402d.

The operation of the switching device of the electronic device using the water sensor according to the preferred embodiment of the present invention having the configuration as described above will be described in more detail with reference to FIGS. 4 to 10.

Electronic equipment (not shown) refers to equipment installed on an aircraft or any vehicle used on land or in water. (E.g., amphibian, military tanks, etc.)

In this way, all the electronic equipment is provided with an air conditioning system for adjusting the external pressure, and the air outlet 2a is formed therein.                     

As shown in FIGS. 4 and 5, the apparatus 100 for opening and closing the air outlet includes a water sensor 200, a solenoid valve 300, and a signal processor 400, 400.

6 and 7, since a water sensor 200 is provided at a predetermined position of the electronic device to detect the water W1, the water sensor 200 is in contact with the electronic device. Detect the water (W1).

In this case, as shown in FIG. 7, since the water sensor 200 is formed of a sensor housing 201, the water W1 flows into the sensor housing 201.

At this time, the lower portion of the sensor housing 201 is provided with a filter 201c for blocking the foreign matter in the water (W1) flowing in the foreign matter in the water (W1) is blocked through the filter (201c).

In this state, as shown in FIG. 7, since the first and second sensor units 202 for sensing the water W1 flowing into the housing 201 are provided in the sensor housing 201, the first and second sensors may be provided. When water W1 comes into contact with the two sensor units 202, they are electrically conductive.

Here, the first and second sensor unit 202 is made of an electrode that is conductive when in contact with the water (W1).

In this case, the sensing signal unit 203 connected to the first and second sensor units 202 and connected to the respective sensor units 202 to signal them is provided.

Here, as shown in FIG. 10, the sensor control unit 401 includes a comparator 401a, a TR switch 401b, and a first relay 401c.

In this case, when the water W1 is detected, when the first and second sensor units 202 become conductive, the detection signal unit 203 signals the signal to the comparator 401a.

The comparator 401a adjusts the voltage, adjusts the base voltage of the TR switch 401b via the comparator 401a, and turns on the TR switch 401b according to the adjusted voltage.

At this time, the first relay 401c and the second relay 402a are operated.

Here, as shown in FIG. 10, the solenoid control unit 402 includes a second relay 402a, a timer 402b, a current switch, and a current protector 402c.

At this time, the timer 402b adjusts the amount of current applied through the second relay 402a.

The current passing through the timer 402b is applied to the solenoid coil 402d via the current switch and the current protector 402c.

At this time, the timer 402b, the current switch and the current protector 402c are different from the amount of current that is initially applied when the solenoid valve 300 operates and the amount of current that is required to maintain the state of the solenoid valve 300 is different. Since there is a risk of overloading, the amount of current applied to the solenoid valve 300 during operation and state maintenance is adjusted through the timer 402b.

As shown in FIGS. 7 and 9, when a current is applied to the coil 402d of the solenoid valve 300, a magnetic force is generated in the electromagnet rod 302 provided in the solenoid housing 301.

At this time, the upper portion of the electromagnet to move up and down by the magnetic force of the electromagnet rod 302 and at the same time the opening or closing of the inlet and outflow path (3a) of the air valve (3) operating unit to be sealed Since the 303 is provided, the operation portion 303 moves upward from the lower side.

In this case, as shown in FIG. 9, since the water stopper 304 is formed at the upper end of the operation part 303 to seal the air inflow and outflow path 3a, the operation part 303 rises and the water stopper 304 is at the same time. ) Blocks the air inlet and outlet 3a.

In this case, the operating part 303 is provided with an operating rod 303a to move in the up and down directions, the operating rod 303a is coupled to the sealing means 303b through.

As shown in FIGS. 7 and 9, the operating rod 303a of the operating portion 303 may be raised by the magnetic force of the electromagnet rod 302 to block the opening of the air inlet and outlet 3a.

6 and 8, when the water W1 is not in contact with the water sensor 200, the signal is not generated by the detection signal unit 203, and at the same time, the signal processor 400 generates the signal. Shut off current supply to solenoid valve 300.

At this time, the electromagnet rod 302 of the solenoid valve 300 loses the magnetic force, and at the same time the operating rod 303a of the operating portion 303 moves from the upper side to the lower side to inflow and outflow of the air valve 3 Open the furnace 3a again.

At this time, as shown in Figure 8, the lower end of the operating rod 303a is provided with a spring pedestal 303c, between the sealing means 303b and the spring pedestal 303c, the operating rod 303a is raised, A coil spring 303d is provided to provide an elastic force to move downward.

The operating rod 303a is moved downward by the coil spring 303d.

As described above, the air inlet and outlet of the electronic equipment used in the land and the water can be opened and closed by using the water sensor detection, thereby preventing malfunction of the product and installing the sensor separately from the solenoid valve so that the reaction of the sensing operation of the sensor can be achieved. Not only can the speed be improved, but the accuracy of the sensor can be increased.

The opening and closing device of an electronic device using the water sensor of the present invention described above is not limited to the above-described embodiments and drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. Will be apparent to those of ordinary skill in the art.

As described above, according to the switching device of the electronic equipment using the water sensor according to the present invention,

When inflow or outflow of electronic equipment used on land or underwater, the water sensor can be used to open and close the air inlet and outlet of the electronic equipment, thereby preventing malfunctions against external vibration or impact. Not only can the reaction time of the solenoid valve according to the water sensor be shortened, but also the accuracy of the sensing operation of the sensor can be improved to improve the reliability of the product, and precise instrument processing is not necessary, thereby reducing the cost of the product. There is.

Claims (3)

In the opening and closing device of the air outlet opening formed in the electronic equipment, A water sensor for detecting water; A solenoid valve which opens and closes the air outlet inlet by receiving a signal sensed by the water sensor; And Receiving a signal sensed by the water sensor, and the opening and closing device of the electronic equipment using the water sensor, characterized in that consisting of a signal processor for controlling the solenoid valve according to the signal. The water sensor of claim 1, wherein the water sensor comprises: a sensor housing; First and second sensor units provided in the sensor housing and made of an electrode rod that is brought into contact with water flowing into the housing at the same time; Opening and closing device of the electronic device using the water sensor, characterized in that the sensor is connected to each of the sensor unit, the sensor unit is electrically conductive and at the same time when the water contacts the sensor unit. The solenoid valve of claim 1, further comprising: a solenoid housing having a coil and an electromagnet stand; An electromagnet rod embedded in the solenoid housing and generating a magnetic force when a current is applied to the coil; Is provided in the upper part of the electromagnet bar by the magnetic force of the electromagnet to move at the same time, at the same time as the opening and closing of the inlet and outlet of the air inlet and outlet part of the operating sensor using a water sensor, characterized in that Switchgear of electronic equipment.

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