KR20120090459A - Water level sensing apparatus for water separator - Google Patents

Abstract

PURPOSE: A water level sensing device of an oil-water separator is provided to accurately generate a warning according to a water level because conductive lines are printed with a metallic powder and a polymer compound on a film and installed in the inner side of a moisture storing unit. CONSTITUTION: A water level sensing device of an oil-water separator is composed of a separating unit, a moisture storing unit, and a sensor unit. The sensor unit comprises a housing(151) and a sensing film(200). The housing is attached/detached to the moisture storing unit. The sensing film comprises a pair of conductive lines of a strip form. The conductive lines are formed side by side to a longitudinal direction in the outer surface of a base film of a film material. The base film is lengthways projected toward a vertical direction of the housing, thereby being leaded in the inside of the moisture storing unit.

Description

Water level sensing apparatus for water separator

The present invention relates to an oil / water separator of an automobile, and more particularly, to an oil level separator of a oil / water separator for sensing a water level of an oil / water separator installed in a fuel supply system of a diesel vehicle using a film type sensor.

Diesel vehicles that use diesel fuel as fuels, especially diesel vehicles that use CRDI (Common Rail Direct Injection), are very vulnerable to moisture, so they must be supplied to the engine by removing the moisture contained in the fuel.

To this end, the fuel supply system is equipped with an oil / water separator for separating fuel and water. FIG. 1 is a diagram illustrating such a general oil / water separator 100. The fuel and water are disposed on the upper side of the cylindrical water storage unit 140. Separation unit 130 for separating is mounted to separate the water from the fuel introduced from the inlet 110, and then discharge only the fuel from which the water is removed through the outlet 120, the water separated from the fuel is stored water It is stored separately in the unit 140.

At this time, the coupling portion 141 for coupling the sensor unit 150 is formed to communicate with the moisture storage unit 140 at the lower side of the moisture storage unit 140, so that the sensor unit 150 as shown in FIG. Is coupled, the sensor unit 150 is formed on the upper side of the cylindrical housing 151, the screw fastening portion 152 for coupling to the coupling portion 141 of the oil and water separator 100, the screw fastening The rod-shaped water level sensor 153 penetrates through the center portion of the unit 152 so as to protrude upward of the housing 151.

Therefore, when the screw fastening part 152 is inserted into the coupling part 141 and is hermetically coupled, the water level sensor 153 is introduced into the water storage part 140 and the water is stored in the moisture storage part 140. When the water is introduced and stored, the water level is sensed by two electrodes formed on the top of the water level sensor 153, that is, the (+) electrode 154 and the (−) electrode 155.

Therefore, when the water level is detected by the (+) electrode 154 and the (-) electrode 155, an alarm is generated so that the driver or mechanic removes the water stored in the water storage unit 140.

In addition, the detection level of the water is determined according to the length of the water level sensor 153. If the length of the water level sensor 152 is long, it can be detected in a high level, and if the length is short, it can be detected in a low level. .

By the way, the general level sensor 153 is made of a metallic material, such as brass, for detecting the water level, the surface corrosion (oxidation film) is rapidly generated when exposed to moisture or liquid and electrical charge for a long time, Detecting ability is significantly reduced.

Therefore, when a detection error occurs due to a decrease in moisture detection ability, when the water stored in the water storage unit 140 becomes full due to the alarm member, water flows back through the outlet 120 and flows into the engine to stop the engine. Will cause serious problems.

In addition, the rod-shaped water level sensor 153 is a structure in which the body is formed of an injection molding, and the electrodes 154 and 155 are formed on the upper end thereof, and the manufacturing cost thereof is expensive.

In order to solve this problem, the present invention is to provide a water level sensor of the oil-water separator, which is resistant to corrosion and low in manufacturing cost by mounting a film type sensor having a conductive printed circuit instead of a rod-type water level sensor. .

Water level sensor of the oil and water separator of the present invention for solving this problem is

A separation unit installed in the fuel system of the vehicle to separate the water contained in the fuel, a water storage unit for storing the water separated from the separation unit, and a sensor unit for entering the water storage unit to detect the water level In the configured oil separator,

The sensor unit

A housing having a fastening part to be detachable from the water storage part;

A pair of strip-shaped conductive lines are formed side by side at intervals on the outer surface of the base film of the film material, and the base film protrudes in an upward direction of the housing to be inserted into the moisture storage unit. It consists of a sensing film.

The conductive line is also printed with metallic powder and polymer mixture.

According to the present invention, the conductive powder is printed on the film as a metallic powder and polymer mixture, and is mounted inside the moisture storage unit. Therefore, since the conductive line is not a pure conductor, surface corrosion hardly occurs and thus no change in the sensing ability of the water occurs. Therefore, it is possible to accurately generate the alarm according to the water level, and is also manufactured by the process of forming a conductive line on the film by printing method is easy to manufacture, there is an advantage that the manufacturing cost is very low.

1 is a view showing the structure of a conventional oil and water separator.
2 is a cross-sectional view of the combination of FIG.
Figure 3 is a view showing the structure of the water level sensor according to the present invention.
Figure 4 is a view showing an exploded structure of the sensing film.
5 is a combined view of FIG.
Figure 6 is a view of the bottom of Figure 5;
7 is a cross-sectional view of the present invention.
8 is a configuration circuit diagram of a water level sensing device implemented by the present invention.
9 is an exploded view showing another embodiment of the present invention.
10 is a cross sectional view of FIG.
11 is a view showing the structure of a film type capacitance sensor.
12 is a view showing a connection structure between a capacitive sensor and a wiring;

The present invention thus constructed will be described in detail with reference to the accompanying drawings.

Figure 3 is a view showing a structure according to an embodiment of the present invention, the structure of the housing 151 is the same, instead of the rod-type level sensor 153 is mounted a sensing film 200 consisting of a film.

That is, the sensing film 200 protrudes upward in the inside of the screw fastening part 152, and epoxy is filled in the screw fastening part 152 to fix the sensing film 200 and perform waterproofing. A fixing portion 280 is formed.

4 is a view illustrating an exploded structure of the sensing film 200, and a double-sided adhesive film 220 having a width that can be mounted on the screw fastening unit 152 is provided. Both sides of the double-sided adhesive film 220 are provided. Or a base film is formed with a conductive line on one side.

The first base film 230 attached to one side of the double-sided adhesive film 220 is made of a synthetic resin material such as PP, PE, PVC, and the like on the outer side, that is, on the opposite side of the double-sided adhesive film 220. A pair of conductive lines 231 and 232 are formed side by side in the longitudinal direction in a strip form, and the conductive lines 231 and 232 are formed by a printing method by a conductive ink of a metallic powder and a polymer mixture or by etching. Can be formed.

At this time, the lower side of the first base film 230 has a form bent 90 degrees to the outside, the conductive lines 231 and 232 are formed to extend on the upper surface of the bent portion.

In addition, the first protective film 240 for protecting the conductive lines 231 and 232 to the outer surface of the first base film 230 is laminated and bonded by bonding or thermocompression.

In this case, the first protective film 240 may be formed of the same material as the first base film 230, and one or more sensing holes 241 and 242 are formed in portions corresponding to the conductive lines 231 and 232, respectively.

That is, sensing holes 241 and 242 are formed to expose portions of the conductive lines 231 and 232 when the first protective film 240 is stacked on the outer surface of the first base film 230. The position where) is formed becomes the position to detect the water level.

The second base film 250 having a pair of conductive lines 251 and 252 printed in the same strip shape as the first base film 230 is also attached to the other side of the double-sided adhesive film 220, and an outer surface thereof. The second protective film 260 in which the sensing holes 261 and 262 are formed is attached.

In addition, in order to stably mount the sensing film 200 configured as described above to the housing 151, the PC 210 is provided in a disc shape so as to be seated on the inner lower surface of the housing 151, and a sensing film at the center thereof. Mounting hole 211 is formed so that the 200 is inserted from the bottom to be exposed to the upper side of the PC 210.

Therefore, as illustrated in FIG. 5, the sensing module mounted on the PC 210 is formed, and the lower bent portions of the first base film 230 and the second base film 250 are as shown in FIG. 6. It has a structure that is electrically connected to the lower surface of the.

6, printed circuit patterns are formed on the bottom surface of the PC 210, and a controller 214 for processing a signal sensed from the sensing film 200 and transmitting it to an external controller is mounted. The connector 214 for directly connecting with the wire 215 is mounted.

In this case, crimp terminals 270 and 272 are used to connect the bent portions of the lower side of the first base film 230 and the second base film 250 to the printed circuit pattern, and the crimp terminals 270 and 272 are made of a conductive material. And a plurality of sharp pins 271 and 273 protruding from the lower sides thereof, respectively, and the pins 271 and 273 of the crimp terminals 270 and 272 are formed of the first base film 230 and the second base film. The conductive lines 231, 232, 251, and 252 of the 250 pass through the printed circuit patterns of the PCB 210 to be electrically connected to each other.

7 is a cross-sectional view of a structure in which the sensing film 200 configured as described above is mounted on the housing 151. The sensing film 200 is inserted into the center of the screw fastening portion 152 in the lower direction to protrude upward. In the state in which the PC 210 is in close contact with the lower surface of the screw fastening part 152, the epoxy is filled between the screw fastening part 152 and the sensing film 200 to fix the sensing film 200 and to perform waterproofing. do.

Therefore, as shown in FIG. 1, the sensor unit 150 is replaced with the present invention as shown in FIG. 3, and the upper portion of the sensing film 200 is inserted into the coupling part 141 of the oil / water separator 100. After screwing the screw fastening portion 152 and the coupling portion 141, the present invention is mounted.

On the other hand, it is possible to configure a variety of methods for sensing the moisture in accordance with the implementation state of the present invention, Figure 8 shows a circuit diagram according to such an implementation method.

That is, the conventional rod-type water level sensor 153 simply generates a water detection signal when the water reaches a specific water level, but the present invention is based on the presence or absence of water, the water level, the capacitance value according to the implementation method. It is to be able to perform the level detection according to.

To this end, the implementation method may vary depending on the shape of the sensing holes 241 and 242 as shown in FIG. 8, and FIG. 8 illustrates the relationship between the first base film 230 and the sensing holes 241 and 242. For sensing, the first base film 230 and the second base film 250 may be selectively configured in one or both.

As shown in FIG. 8A, when one sensing hole 241 or 242 is formed at a position corresponding to a specific water level to sense moisture, the sensing holes 241 and 242 are formed when the water level is formed at the position of the sensing hole 241 or 242. Through the conductive lines 231 and 232 are conducted, the resistance values R1 and R2 are input to the controller 210 to detect the presence of moisture.

In the case of FIG. 8B, a plurality of sensing holes 241 and 242 are formed at predetermined intervals at the positions of the conductive lines 231 and 232, which detect the level of the water level, and at each height where the sensing holes 241 and 242 are formed. When the water level is detected, the area where the conductive lines 231 and 232 are conducted increases, and the resistance values R1 and R2 of the conductive lines 231 and 232 may be analyzed by the controller 210 or a remote controller to determine the water level level. Will be.

8 (c) detects the level of the water level by the capacitance value, which detects the presence of water level and the water level by the capacitance value between the conductive lines 231 and 232 even without the sensing holes 241 and 242. It is a structure that can be done.

Figure 9 is a view showing another embodiment of the present invention, the upper portion of the housing 300, the rod-shaped insertion portion 310 is hollow is formed to protrude, the insertion portion 310 is formed on the outer lower portion The screw fastening part 311 is formed and fastened to the water storage tank 140 of the oil / water separator 100.

At this time, the insertion part 310 is in a state in which the inside thereof is completely maintained in an airtight state with the upper part of the housing 300, and has a structure in which the lower part of the housing 300 is open and in communication.

A capacitive sensor 340 in the form of a film is inserted into the insertion part 310, and the capacitive sensor 340 is formed by rolling it up while maintaining a space in a lateral direction as shown in FIG. 11. The wiring 330 is connected to the center portion thereof.

As shown in FIG. 12, when the two films 341 and 342 overlap each other, the wiring 330 is positioned up and down between the wirings 330, and then fixed by adhesive or thermocompression. .

The wiring 330 has a form standing in the vertical direction, the capacitive sensor 340 is mounted on the upper side, and the lower side is electrically connected to the PCB 320, the mounting hole 321 formed in the PCB 320 Through it is connected to the pattern by soldering on the lower surface.

The lower surface of the PC 320 is the same as the structure of the embodiment.

10 is a cross-sectional view of the coupling, in which the capacitive sensor 340 is inserted from the lower side into the insertion portion 310, where the PC 320 is in contact with the lower surface of the screw fastening portion 311 with an adhesive or the like. Fix it.

At this time, the length of the wiring 330 is to determine the mounting position of the film-type capacitive sensor 340, the level detection position is determined according to the position of the capacitive sensor 340.

When the inserting portion 310 according to another embodiment of the present invention is mounted in the water storage tank 140, the water is completely isolated from the water in the water storage tank 140 by the inserting portion 310, and the PCB 320 A frequency for capacitance measurement is applied to the wiring 330 from the circuit part of the circuit.

When the capacitance value is changed at the position of the capacitance sensor 340, it is determined that the water level is detected.

As described above, the present invention enables the manufacture of a semi-permanent product having a simple structure, a low cost, and a semi-permanent product by attaching a film-type sensor which is simple to manufacture instead of a rod-type sensor composed of an electrode made of brass.

100: oil-water separator 141: coupling portion
151 housing 152 screw connection
200: sensing film 210: PCB
211: mounting hole 220: double-sided adhesive film
230,250: base film 231,232,251,252: conductive line
240,260: Protective film 241,242,261,262: Sensing hole
270,272: Crimp terminal 271,273: Pin
280: fixed part

Claims (10)

A separation unit installed in the fuel system of the vehicle to separate the water contained in the fuel, a water storage unit for storing the water separated from the separation unit, and a sensor unit for entering the water storage unit to detect the water level In the configured oil separator,
The sensor unit
A housing having a fastening part to be detachable from the water storage part;
A pair of strip-shaped conductive lines are formed side by side at intervals on the outer surface of the base film of the film material, and the base film protrudes in an upward direction of the housing to be inserted into the moisture storage unit. Sensing film; level detection device of the oil-water separator, characterized in that consisting of.
The method of claim 1, wherein the sensing film is a base film is attached to one side or both sides of the double-sided adhesive film, a pair of conductive lines in the form of a strip in the longitudinal direction on the outer surface of the base film formed side by side at intervals Level detection device of oil / water separator.
The water level detecting device of the oil / water separator according to claim 1, wherein an upper protective film is laminated on the outer surface of the base film to protect the conductive line.
[4] The water level separator of claim 3, wherein a sensing hole is formed at a position corresponding to each conductive line so as to expose the conductive line.
The water level detecting device of the oil / water separator according to claim 4, wherein a plurality of sensing holes are formed at predetermined intervals at positions corresponding to the conductive lines.
The sensing film of claim 1, wherein the sensing film protrudes upward from the lower side of the housing through the fastening part, and the lower part of the housing is mounted with the PCB, and the sensor mounting hole is formed at the position corresponding to the fastening part. The upper side of the oil through the sensor mounting hole and the fastening portion protrudes to the upper side of the housing and the lower side of the sensing film is fixed by the fixing means on the lower surface of the PCB, the conductive line is configured to be electrically connected to the PCB Water level sensing device.
The water level detecting device of the oil / water separator according to claim 1, wherein the conductive line is printed with a metallic powder and a polymer mixture.
A separation unit installed in the fuel system of the vehicle to separate the water contained in the fuel, a water storage unit for storing the water separated from the separation unit, and a sensor unit for entering the water storage unit to detect the water level In the configured oil separator,
The sensor unit
A housing having a fastening part to be detachably attached to the water storage part and having an inserting portion having an inner space part protruding upward and isolated from the inside of the water storage part;
A capacitance sensor formed of a film material and inserted into the insertion unit;
A PCB mounted at a lower side of the housing;
And a wire for connecting the capacitive sensor and the PCB.
The water level detecting device of the oil / water separator according to claim 8, wherein the capacitance sensor is formed by rolling a film material.
10. The water level detecting device of claim 8, wherein the wiring is configured to electrically connect with the PCB while supporting the capacitive sensor inside the insert.

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