KR200351516Y1 - Temperature sensor - Google Patents

Abstract

The present invention relates to a temperature sensor mounted on a boiler or an automobile to detect a temperature of heating water or cooling water and transmitting it to a control device, wherein a thread is formed on the outer periphery of the body, and one side of the body on which the thread is formed is heated. Or a temperature sensor configured to detect a temperature of the coolant, and a temperature sensor coupled to an external connection wire for transmitting the temperature of the heating water or the coolant detected by the temperature sensor to the control device on the other side. The thermistor which is located inside and detects the temperature of heating water or cooling water, a thermistor mounting hole and a wiring pattern are formed, one side of the wiring pattern is connected to the electrode of the thermistor and the other side of the wiring pattern to the external connection The printed circuit board to which the wire is connected is provided inside the temperature sensor. The thermistor may be mounted at a position where the thermistor mounting hole is located. According to the temperature sensor of the present invention, the thermistor is firmly mounted on the printed circuit board, and is easy to manufacture even when the temperature sensing unit has a small diameter and a long length, and thermal response is improved.

Description

Temperature sensor {Temperature sensor}

The present invention relates to a temperature sensor, and in particular, a thermistor for detecting the temperature of heating or cooling water, such as a boiler or an automobile, located inside the temperature sensing unit of the temperature sensor, and thermistor mounting holes and wiring patterns are formed. The printed circuit board includes a printed circuit board, wherein the thermistor is mounted in a position where a thermistor mounting hole is formed in the printed circuit board, so that the thermistor is firmly mounted on the printed circuit board and senses temperature. The present invention relates to a temperature sensor that is easy to manufacture and improves thermal response even when the diameter of the part is small and the length is long.

In general, the temperature sensor detects the temperature of the heating water or the cooling water in order to maintain a constant temperature of the heating water used in the boiler and to prevent overheating, and to prevent overheating of the cooling water that cools the automobile engine. It is a device that plays a role of transmitting to the control device.

1 is a perspective view showing a general temperature sensor, the outer periphery of the body 110 is formed with a screw portion 111 for fastening the temperature sensor to a boiler or a car, etc., one side of the body formed with the screw portion is the temperature of the heating or cooling water The temperature sensing unit 120 to detect is formed and the other side is coupled to the external connection wire 130 for transmitting the temperature of the heating or cooling water detected by the temperature sensing unit to the temperature control device.

As shown in FIG. 2, a thermistor 121 for detecting a temperature of heating water or cooling water is mounted inside the temperature sensing unit, which is electrically connected to the external connection wire.

Each terminal (or electrode) 122 of the thermistor is covered with an insulating tube 123 to prevent short and the end of the uncoated terminal 122 and the end of the wire are shrink tube 126 to prevent short. Covered with Therefore, when the thermistor 121 coated with the shrink tube 126 is inserted into the space of the temperature sensing unit 120 and filled with a filler, the manufacturing of the temperature sensor is completed.

However, in the conventional temperature sensor as described above, when the terminal 122 and the wire 130 of the thermistor 121 are crimped and coupled, the coupling operation is difficult, as well as the terminal 122 or the wire 130 of the thermistor 121. There was a problem that the poor contact may occur when the cutting. In addition, in order to prevent a short between the terminals 122 of the thermistor 121, the terminals 122 are covered with the insulating tube 123 one by one, and the thermistor is inserted into a space formed inside the temperature sensing unit 120. In this case, it is difficult to insert the thermistor into the space of the temperature sensing part having the limited diameter because the terminal of the thermistor needs to be covered with the shrink tube 126 again to prevent the bending of the thermistor. There was a problem done.

In particular, when two or more thermistors are used in the temperature sensing unit, it is more difficult to insert the thermistor into the space in the temperature sensing unit. Therefore, when the temperature sensing unit has a small diameter and a long length, there is a problem of making the temperature sensor difficult.

The present invention for solving the above problems is an object of the present invention to provide a temperature sensor that is easy to manufacture even when the diameter of the temperature sensing unit is small and long.

In addition, an object of the present invention is to provide a temperature sensor capable of reducing the occurrence of contact failure or shortage of the thermistor, and having a good thermal response of the thermistor.

The present invention to achieve the above object,

A thread is formed on the outer circumference of the body, and one side of the body on which the thread is formed is formed with a temperature sensing unit for detecting the temperature of the heating or cooling water, and the other side controls the temperature of the heating or cooling water detected by the temperature sensing unit. In the temperature sensor which is connected to the external connection wire to the device,

A thermistor which is located inside the temperature sensing unit and detects the temperature of heating water or cooling water, a thermistor mounting hole, and a wiring pattern are formed. An electrode of the thermistor is connected to one side of the wiring pattern, and the other of the wiring pattern is connected. On the side is a printed circuit board to which the external connection wire is connected is provided in the interior of the temperature sensor, and the thermistor is made of a temperature sensor, characterized in that mounted in the position where the thermistor mounting hole is located.

1 is a perspective view showing a general temperature sensor.

2 is a side cross-sectional view of the temperature sensor shown in FIG.

3 is a view showing the internal structure of the temperature sensor according to an embodiment of the present invention.

4 is a perspective view of the bonded circuit board mounted with the thermistor shown in FIG.

FIG. 5 is a view showing a part of a cross section of the printed circuit board on which the thermistor shown in FIG. 3 is mounted;

<Description of Symbols for Main Parts of Drawings>

10 body 11 thread

20: temperature sensing unit 30: printed circuit board

40: insulated tube 50: thermistor

60: thermal expansion buffer 70: epoxy

80, 82, 84: wiring pattern 90: terminal

95: external connection wire

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

3 is a view showing the internal structure of the temperature sensor according to an embodiment of the present invention.

As shown in the figure, the outer periphery of the body 10 of the temperature sensor of the present invention is formed with a screw portion 11 for fastening the temperature sensor to a boiler or a car, etc., one side of the body is formed with a heating or cooling water Temperature sensing unit 20 for detecting the temperature of the formed is formed and the other side is coupled to the external connection wire 95 for transmitting the temperature of the heating or cooling water detected by the temperature sensing unit to the temperature control device.

In addition, the temperature sensor 20 and the plate-shaped printed circuit board 30 mounted over the entire interior of the body 10 is inserted in the temperature sensor. At the end of the temperature sensing portion of the printed circuit board, the number of thermistor mounting holes is formed by the number of thermistors 50, and the thermistor 50 is mounted at the position where the thermistor mounting holes are located. 3 shows the thermistor is mounted in the thermistor mounting hole, so the thermistor mounting hole is not shown separately, but the thermistor mounting hole is formed to match the shape of the thermistor to be mounted so that the thermistor is inserted into the hole and fixed. The configuration may be performed as shown in FIG.

In FIG. 3, two thermistors are mounted because two thermistors are used as a temperature sensing thermistor and an overheat prevention thermistor in a boiler or an automotive temperature sensor.

Wiring patterns 80, 82, and 84 are formed on the printed circuit board 30, and one side of the wiring pattern is electrically connected to an electrode of the thermistor mounted at a position where the thermistor mounting hole is located. In addition, the other side of the wiring pattern is connected to the terminal 90 formed on the printed circuit board and is connected to the external connection terminal 95 at the terminal 90.

A thermal expansion buffer unit 60 is formed on a portion of the printed circuit board on which the thermistor is mounted, which is provided to prevent breakage or poor contact of the thermistor caused by thermal shock such as rapid temperature change of the temperature sensing unit. The thermal expansion buffer may use various materials having a small thermal expansion coefficient and insulation, and it is preferable to use silicon rubber or the like.

On the other hand, as another embodiment of the embodiment shown in Figure 3, it is also possible to connect the electrodes of the thermistor with the wiring pattern after fixing the thermistor to a specific portion on the printed circuit board on which the thermistor mounting hole is located. At this time, the size of the thermistor mounting hole can be formed smaller than the size of the thermistor. That is, according to the present invention, the thermistor is mounted at the position where the thermistor mounting hole is located on the printed circuit board. The thermistor may be inserted into the thermistor mounting hole as shown in FIG. 3, but the thermistor is used for thermistor mounting hole. It is also possible to connect the electrodes of the thermistor with the wiring pattern after fixing them to a specific part on the printed circuit board.

It is preferable that the insulation tube 40 is provided at the end of the printed circuit board on which the thermistor is mounted. This prevents a short circuit between the temperature sensing unit and the printed circuit board.

After the printed circuit board equipped with the thermistor is assembled inside the temperature sensor and assembled with the thermal expansion buffer 60 and the insulating tube 40, the epoxy member 70 is filled and fixed inside the temperature sensor. (The cross-sectional view on the left side of FIG. 3 shows that the epoxy member 70 is filled in the temperature sensor in which the printed circuit board is inserted.)

FIG. 4 is a perspective view of the bonded circuit board on which the thermistor shown in FIG. 3 is mounted. The printed circuit board mounted and installed inside the temperature sensor has thermistor mounting holes 35 and wiring patterns 80, 82, and 84 as shown in the figure. In addition, the end of the printed circuit board on which the thermistor is mounted is coupled to the insulating tube 40 when charged into the temperature sensor.

In the present invention, by installing the thermistor mounting holes 35 on the printed circuit board, the thermistor is mounted therein, thereby enabling the heat response in both directions of the thermistor, thereby improving the thermal response of the temperature sensor. . If the thermistor is installed on one side of the printed circuit board using the printed circuit board without the thermistor mounting hole, the heat response to the side covered by the printed circuit board will be lowered. Therefore, use the thermistor mounting hole to prevent this. Is to mount the thermistor.

5 is a cross-sectional view of a printed circuit board on which a thermistor is mounted.

The thermistor shown in FIG. 5 is of a surface mounting device (SMD) type and is generally composed of an internal electrode 52, an external electrode 51, a nickel plating layer 53, a tin plating layer 54, and the like, and a printed circuit board. After insertion into the thermistor mounting hole 35 formed on the 30, electrodes on both sides are fixed by the solder 32 and connected to the wiring patterns (80, 82, 84 shown in FIG. 3). It is connected with). At this time, in order to fix the thermistor, it is also possible to use various electroconductive and adhesive members other than the above-mentioned solder.

In addition, when mounting the thermistor in the thermistor mounting hole, insert it into the thermistor mounting hole on the printed circuit board by using various adhesive members other than solder, and then fix each electrode of the thermistor to the wiring pattern and solder on the printed circuit board. It is also possible to connect.

However, chip type or diode type thermistors other than SMD type are also widely used. In the case of these other types of thermistors, thermistor mounting holes similar to the thermistor type are formed on the printed circuit board, and thermistors are inserted into the thermistor mounting holes. After that, each electrode may be fixed by connecting a wiring pattern on a printed circuit board with solder.

In addition, as described above, as another embodiment, it is possible to fix the thermistor to a specific portion on the printed circuit board on which the thermistor mounting hole is located, and then connect the electrodes of the thermistor with the wiring pattern.

The printed circuit board may be a double-sided printed circuit board. In other words, a substrate in which a wiring pattern can exist on both sides of a printed circuit board is used. In this case, since a part of the wiring pattern may be formed by being divided on opposite surfaces, it is possible to form a narrower width of the printed circuit board. Therefore, even when the length of the temperature sensing unit is long and the diameter is small, the temperature sensor can be manufactured more easily.

Although the technical idea of the present invention has been described in detail according to the above-described preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, one of ordinary skill in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

According to the temperature sensor of the present invention, the thermistor is firmly mounted at the position of the thermistor mounting hole formed in the printed circuit board, and the electrode of the thermistor is connected to the printed circuit board by soldering, thereby ensuring safety in the thermistor coupling. Since the response to heat is possible in both directions of, there is an excellent effect of improving the thermal response of the temperature sensor.

In addition, by mounting a thermistor on the printed circuit board to configure a temperature sensor, even if the length of the temperature sensing unit is long and the diameter is small, there is an advantage that the temperature sensor can be easily manufactured by applying a suitable printed circuit board.

Claims (3)

A thread is formed on the outer circumference of the body, and one side of the body on which the thread is formed is formed with a temperature sensing unit for detecting the temperature of the heating or cooling water, and the other side controls the temperature of the heating or cooling water detected by the temperature sensing unit. In the temperature sensor which is connected to the external connection wire to the device, A thermistor positioned inside the temperature sensing unit and detecting a temperature of heating water or cooling water; A thermistor mounting hole and a wiring pattern are formed, and a printed circuit board having an electrode of the thermistor connected to one side of the wiring pattern and an external connection wire connected to the other side of the wiring pattern is provided inside the temperature sensor. And And the thermistor is mounted at a position where the thermistor mounting hole is located. The temperature sensor as claimed in claim 1, wherein the thermistor is a SMD type. The temperature sensor of claim 1, wherein the printed circuit board is a double-sided printed circuit board.