KR20190081056A - Oil ssensor - Google Patents

Abstract

According to the present invention, an oil pressure sensor comprises a body having an inner space with one side open, a sensor element configured in the body and sensing a pressure of the oil flowing into the open one side, and a sensor cover in contact with an inner side surface of the body and surrounding and protecting the sensor element. The sensor element is inserted and fixed in a groove formed in the sensor cover. According to the present invention, a welding process including a difficulty of assembling the oil pressure sensor can be significantly reduced such that the process is advantageous and the costs can be reduced when compared to a conventional device.

Description

Oil pressure sensor {OIL SSENSOR}

The present invention relates to an oil pressure sensor for detecting whether the amount of automobile engine oil is appropriate.

Generally, the oil pressure sensor is a part that detects whether the amount of engine oil for lubrication, rust prevention, cooling, and airtightness of the driving parts in an automobile engine is appropriate.

That is, an oil pressure sensor for detecting the presence or absence of engine oil is installed in the oil circulation passage so that the driver can easily know the presence or absence of the engine oil through the oil warning lamp in the cluster, and the normal engine oil pressure If the oil pressure in the oil pressure sensor falls off and the oil warning light in the cluster is turned off, but the engine oil pressure is not above the specified value due to engine stop, oil shortage, oil pump failure, etc., And the oil warning lamp in the cluster is turned on.

Such an oil pressure sensor senses the pressure of the oil flowing through the oil passage in the body, and transmits a signal to the sensor element so as to determine whether the oil amount is normal or not.

In recent years, CVVT (Continuous Variable Valve Timing) technology has been developed to improve the fuel efficiency and exhaust gas regulation, Addition was required.

Therefore, in an engine equipped with a CVVT system, an oil temperature sensor is additionally installed in the oil circulation passage, and this oil temperature sensor has a built-in thermister.

That is, in the engine to which the CVVT system is applied, the thermistor included in the lower part of the body detects the temperature of the oil flowing through the oil circulation passage and outputs an electrical signal according to the detected value, And the ECU controls the valve operation timing using the input signal.

The oil temperature sensor is not limited to the oil pressure sensor but may be provided in the oil passage of the oil pressure sensor to measure both temperature and pressure. In the present invention, ≪ / RTI > all of which are to be measured.

1 shows a conventional pressure sensor in which a steel element 10 and a port 20 are welded to each other to maintain fixing and airtightness and weld the port 20 and hexagon 30 to each other.

The circuit board 40 is fixed on the hexagon 30 by bonding and the wire 50 is bonded between the steel element 10 and the circuit board 40.

However, in order to perform the wire bonding in this conventional technique, the fixing between the circuit board 40 and the steel element 10 must be ensured. Since the steel element 10 and the port 20 are fixed by welding, It is difficult to fix and there are disadvantages to fixing.

The matters described in the background art are intended to aid understanding of the background of the invention and may include matters which are not known to the person of ordinary skill in the art.

Korean Patent Registration No. 10-1116622

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an oil pressure sensor which can greatly reduce a welding process involving difficulty in assembling an oil pressure sensor, The purpose is to do.

An oil pressure sensor according to one aspect of the present invention includes a body having an inner space with one side opened, a sensor element configured in the body, the sensor element detecting a pressure of oil flowing into the opened side, And a sensor cover surrounding and protecting the sensor element, wherein the sensor element is inserted and fixed in a groove formed in the sensor cover.

In addition, the sensor cover may include an upper cover and a lower cover, one of the upper cover and the lower cover may have a coupling groove, and the other cover may have a coupling protrusion corresponding to the coupling groove, And the engaging projections are engaged with the engaging grooves.

Alternatively, the sensor cover may include an upper cover and a lower cover, and each of the upper cover and the lower cover may have a sensor groove for inserting the sensor element.

In this case, the sensor element is provided with a lateral protrusion protruding sideways, and each of the upper cover and the lower cover has an enlarged groove having a diameter larger than that of each of the sensor grooves, so that the side protrusion is inserted into the extended groove .

The thickness of the lateral projection is smaller than the height of the space formed by the expansion grooves of the upper cover and the lower cover.

Further, an O-ring is interposed between the side projecting portion and the surface of the extended groove of the lower cover.

The temperature sensor may further include a temperature sensor for detecting the temperature of the oil, and an NTC terminal connected to the temperature sensor on one side and the electric circuit on the other side of the sensor element.

The NTC terminal extends from the temperature sensor along the inner side of the lower cover and is connected to the upper circuit cover electrical circuit through the terminal through hole formed in the upper cover.

In addition, the lower cover is coupled with a structure surrounding the temperature element.

Meanwhile, the sensor cover and the lower cover may be bonded together.

According to the oil pressure sensor of the present invention, it is possible to realize a sensor without welding operation by changing the structure of a sensor element, and in the case of a composite sensor, a process can be simplified by using a lower body insert-injected with a temperature sensor.

1 shows a conventional oil pressure sensor.
2 shows an oil pressure sensor according to the present invention.
Figs. 3 and 4 show a part of the oil pressure sensor of Fig. 2. Fig.
5 and 6 show an application example of the oil pressure sensor of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In describing the preferred embodiments of the present invention, a description of known or repeated descriptions that may unnecessarily obscure the gist of the present invention will be omitted or omitted.

Fig. 2 shows an oil pressure sensor according to the present invention, and Figs. 3 and 4 show part of the oil pressure sensor of Fig.

Hereinafter, an oil pressure sensor according to an embodiment of the present invention will be described with reference to FIGS. 2 to 4. FIG.

An oil pressure sensor according to an embodiment of the present invention is a sensor for detecting the amount of engine oil for lubrication, rust prevention, cooling and hermetic sealing of a driving component in an automobile engine. It corresponds to a composite sensor.

Thus, the sensor element 120 for detecting the pressure in the body and the temperature element 140 for detecting the temperature are provided, and the configurations for conveying the detected signal are provided.

The body for protecting the internal structure of the sensor is formed by coupling the lower body 111 and the connector body 112 and the connector body 112 has an outer shape that can be connected to the mating connector.

The lower body 111 is formed with a hollow space at the center so that the temperature device 140 and the like can be configured. The space between the inner surface and the NTC mold 160, which will be described later, becomes an oil passage for introducing the oil.

The introduced oil passes through the NTC mold 160 and is detected by the sensor element 120 on the NTC mold 160 to detect the pressure of the oil.

The sensor element 120 is made of alumina (Al ₂ O ₃ ) and measures the pressure in a piezo resistive manner.

The sensor element 120 is embedded in a sensor cover divided into an upper cover 170 and a lower cover 180. An electrical circuit part (FPCB) 130 is connected to the upper side of the sensor element 120, The signal for the oil pressure is transmitted to the ECU (not shown) through an electrical connection.

Meanwhile, the oil pressure sensor of the present invention includes a temperature element 140 (Negative Temperature Coefficient-thermic resistor) so that temperature as well as pressure can be detected.

The temperature element 140 is provided at a position off the lower surface of the lower body 111 and detects the temperature of the oil circulating on the oil passage and is protected by the metal cover 141.

The signal of the temperature of the oil detected by the temperature sensor 140 is transmitted to the electric circuit unit 130 through the sensor cover by the NTC terminal 150.

The NTC mold 160 is provided in the inner space of the lower body 111 and is formed to contact the inner surface of the lower body 111 and the second O-ring 192 is provided between the lower body 111 and the NTC mold 160. [ So that airtightness can be maintained.

The oil pressure sensor of the present invention configured as described above has a structure for facilitating assembly of the sensor element 120 in the sensor cover and for coupling the sensor element 120 and the sensor cover without welding.

For this, the oil pressure sensor of the present invention is characterized in that the sensor cover is divided into an upper cover 170 and a lower cover 180, and the upper cover 170 and the lower cover 180 are coupled and fixed without welding, 130 and the wire 131 are bonded.

3 and 4, the upper cover 170 is formed with a sensor groove 171 into which the sensor element 120 is inserted, and corresponds to the lower side of the sensor groove 171 and has a diameter larger than the sensor groove 171 And the sensor element 120 is inserted into the sensor groove 171 and the extended groove 172 to be seated and the engagement groove 173 is formed for the engagement with the lower cover 180. [ .

A sensor groove 181 for inserting the sensor element 120 is formed in the lower cover 180 and an enlarged groove 182 corresponding to the upper side of the sensor groove 181 and having a diameter larger than the sensor groove 181, So that the sensor element 120 is inserted into the sensor groove 181 and the extended groove 182 to be seated and the engaging projection 183 is formed for engaging with the upper cover 170.

Here, the upper cover 170 and the lower cover 180 may be joined by a bonding method other than the coupling protrusions and the coupling grooves.

3, the lateral protrusion 121 is formed so as to protrude laterally to correspond to the sensor element 120, and the lateral protrusion 121 is seated in the extended groove 172 of the upper cover 170 The upper and lower bodies are respectively inserted into the sensor groove 171 of the upper cover 170 and the sensor groove 181 of the lower cover 180 with respect to the side projection 121. [

The thickness of the side protrusion 121 of the sensor element 120 is smaller than the height formed by the extended groove 172 of the upper cover 170 and the extended groove 182 of the lower cover 180.

Thus, the first O-ring 191 is interposed in the interspace so that the sensor element 120 can be kept in close contact and airtight.

Accordingly, the fluid F may not flow between the sensor element 120 and the inner surface of the sensor cover.

Since the oil pressure sensor according to the embodiment of the present invention is configured as described above, the sensor element can be fixed firmly without welding between the sensor element and the sensor cover, and the upper and lower covers can be easily separated. So that the upper cover and the lower cover can be assembled without welding, thereby enhancing workability.

5 shows an application example in which the sensor element 120, the upper cover 170, and the lower cover 180 in the previous embodiment are formed in the composite sensor to which the temperature sensor is attached. The sensor element 120 is pressed without welding, The upper cover 170 and the lower cover 180 are assembled by fitting.

Then, the lower cover 180 can be insert-injected together with the temperature sensor 140 to simplify the process.

The NTC terminal 150 is embedded in the lower cover 180 and the upper cover 170 is connected to the terminal through the terminal cover 150. The NTC terminal 150 is electrically connected to the electric circuit unit 130 through the sensor cover, A hole 174 is formed.

6 shows the assembly of the oil composite sensor. By forming the curling C on the lower body 111, the curling (C) structure of the lower cover 111, even when the external fluid pressure acts, Can be well supported.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

111: lower body C: curling
112: Connector body
120: Sensor element
121: side projection
130: electric circuit part 131: wire
140: Temperature element 141: Metal cover
150: NTC Terminal
160: NTC mold
170: upper cover
171: sensor groove 172: extended groove
173: coupling groove 174: terminal through hole
180: Lower cover
181: Sensor home
182: Extended Home
183:
191: first o-ring 192: second o-ring

Claims (10)

A body having an inner space open at one side;
A sensor element configured in the body and detecting a pressure of oil flowing into the open side; And
And a sensor cover which contacts the inner surface of the body and surrounds and protects the sensor element,
Wherein the sensor element is inserted and fixed in a groove formed in the sensor cover.
Oil pressure sensor. The method according to claim 1,
Wherein the sensor cover comprises an upper cover and a lower cover,
Wherein one cover of the upper cover and the lower cover is formed with a coupling groove and the other cover is formed with a coupling projection corresponding to the coupling groove so that the coupling projection is fitted into the coupling groove.
Oil pressure sensor. The method according to claim 1,
Wherein the sensor cover comprises an upper cover and a lower cover,
Wherein a sensor groove for inserting the sensor element is formed in each of the upper cover and the lower cover.
Oil pressure sensor. The method of claim 3,
Wherein the sensor element is formed with a lateral projection protruding sideways and each of the upper cover and the lower cover is formed with an enlarged groove having a diameter larger than that of each of the sensor grooves so that the side projection is inserted into the extended groove. doing,
Oil pressure sensor. The method of claim 4,
And the thickness of the lateral projection is smaller than the height of the space formed by the expansion grooves of the upper cover and the lower cover.
Oil pressure sensor. The method of claim 5,
And an O-ring is interposed between the lateral projecting portion and the surface of the extended groove of the lower cover.
Oil pressure sensor. The method of claim 6,
A temperature sensor for detecting the temperature of the oil; And
Further comprising an NTC terminal connected to the temperature sensor on one side and to an electric circuit part on the other side of the sensor element,
Oil pressure sensor. The method of claim 3,
Wherein the NTC terminal extends from the temperature sensor along the inner side of the lower cover and is connected to the upper circuit cover electrical circuit through a terminal through hole formed in the upper cover.
Oil pressure sensor. The method of claim 8,
Wherein the lower cover is coupled in a structure that surrounds the temperature element.
Oil pressure sensor. The method of claim 3,
Wherein the sensor cover and the lower cover are bonded together.
Oil pressure sensor.

Images