KR101314874B1 - Stick type temperate sensor for preventing short - Google Patents

Abstract

PURPOSE: A bar type temperature sensor for preventing a short circuit is provided to install a sensor unit and a signal wire on a recessed portion of a bar type housing unit, thereby protecting the sensor unit and the signal wire from impact. CONSTITUTION: A bar type temperature sensor (100) for preventing a short circuit includes a sensor unit (10), signal wires (20), a housing unit (30), insulating members (40), a molding unit, and a partition unit (36). The sensor unit senses temperature and includes a pair of lead wires. The signal wires are connected to the sensor unit in order to display the temperature sensed by the sensor unit to the outside. Exposed portions of the lead wires of the sensor unit which are partially peeled off are connected to the signal wires. The housing unit includes a recessed portion (32) in which the sensor unit and the signal wires are seated. The insulating members protect the exposed portions of the signal wires and the lead wires of the sensor unit by covering and prevent a mutual short circuit thereof. The molding unit of a gel state is buried into the recessed portion of the housing unit to cover the insulating members and the signal wires and solidified. The partition unit is protruding upwardly from the bottom surface of the recessed portion in order to the mutual separation of the adjoining insulating members.

Description

Short type bar temperature sensor {STICK TYPE TEMPERATE SENSOR FOR PREVENTING SHORT}

The present invention relates to a rod type temperature sensor for preventing short circuit, and more particularly, to protect the sensor unit and the signal line by embedding the housing in a rod-type housing, and install a partition between the signal lines and wrap the insulation tube in the stripped signal line. The present invention relates to a rod type temperature sensor for preventing short circuits.

The bar type temperature sensor is a component that displays the temperature detected on the display unit through a signal line, which is detected by the sensor, and is used to measure the temperature of various devices such as large motors, microwave ovens, automotive cooling and exhaust systems, and the like.

In case of double motor, it detects excessive heat and stops temporarily when it reaches the temperature higher than the standard to lower the temperature and restart to use the motor continuously. If the motor is continuously used without detecting excessive temperature, damage may occur to the winding coil or the like and the motor may be damaged.

To prevent this, a temperature sensor is installed between the winding coils to sense the temperature generated by the motor.

Background art of the present invention has been presented in Korean Laid-Open Patent Publication No. 10-2010-0063380 (name of the invention: fixing structure and fixing method for a temperature sensor for a motor).

The conventional temperature sensor for a motor is connected to a state in which signal lines connected to the sensor unit are wound in an insulating tape, and thus, when a long time use, the insulating tape is peeled off and moisture is introduced. In addition, there is no means to protect the sensor unit and the signal line has a disadvantage that the temperature sensor is easily damaged by the impact.

Therefore, there is a need to improve this.

The present invention has been made by the above-mentioned necessity, and provides a short type bar temperature sensor which can protect the sensor unit and the signal line from impact since the sensor unit and the signal line are installed in the recessed recessed part of the rod-type housing. The purpose is.

Further, an object of the present invention is to provide a short type bar temperature sensor capable of preventing a short circuit due to contact by covering an exposed part of the stripped signal line and a lead wire of the sensor part with an insulating member and installing partition walls between the insulating members.

It is also an object of the present invention to provide a short-proof rod type temperature sensor that prevents irregular top protrusion by adhering the signal line and the bottom of the sensor unit to the bottom of the recess and prevents water from entering by molding the recessed portion of the housing with epoxy. to be.

In order to achieve the above object, the bar-type bar temperature sensor of the present invention includes: a sensor unit for sensing a temperature and having a pair of lead wires; A signal line to which exposed portions partially exposed to the lead wire of the sensor unit are respectively connected; A housing in which the sensor part and the depression in which the signal line is placed are formed; And an insulating member surrounding the exposed portion of the signal line and the lead wire of the sensor part to prevent a short between each other.

In addition, the lead portion of the sensor portion and the exposed portion of the signal line is characterized in that the welding by welding with a laser or silver lead.

In addition, the length L1 of one of the exposed portions of the signal lines is formed to be longer than the length L2 of the other exposed portion, thereby preventing contact between each other when the exposed portion is exposed by detachment of the insulating member. It is characterized by blocking the short.

In addition, the recessed portion is open at one side in the longitudinal direction, the width W1 of the recessed portion of the site where the sensor is placed is characterized in that it is formed smaller than the width (W2) of the recessed portion of the site where the signal line is placed.

The insulating member may be a rubber insulating tube covering the exposed portion of the signal line and the lead wire.

In addition, an adhesive is applied to the bottom of the recess to attach the insulating member to the bottom of the signal line.

In addition, the housing is formed with a molding portion which is hardened by embedding in a gel state to harden to cover the insulating member and the signal line.

In addition, the partition wall portion protruding from the bottom of the depression is formed between the adjacent insulating member for mutual separation.

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In the short type bar temperature sensor according to the present invention, since the sensor unit and the signal line are installed in a recess formed in the rod-type housing, the sensor unit and the signal line can be protected from impact.

In addition, since the exposed part of the stripped signal line and the lead of the sensor part are wrapped with an insulating member, and partition walls are provided between the insulating members, short circuit due to moisture and contact can be prevented.

In addition, by adhering the signal line and the bottom of the sensor unit to the bottom of the recessed portion to prevent irregular upper protrusion, and molding the recessed portion of the housing to prevent moisture inflow.

1 is a perspective view of a rod type temperature sensor for preventing a short according to an embodiment of the present invention;
2 is an exploded perspective view of a bar-type temperature sensor for preventing a short according to an embodiment of the present invention;
3 is an enlarged perspective view of an essential part of FIG. 1;
4 is an enlarged plan view of a main part of FIG. 3;
Figure 5 is a cross-sectional view of the rod-type temperature sensor for preventing short, according to an embodiment of the present invention,
Figure 6 is a view showing the manufacturing process of the bar-type temperature sensor for preventing short according to an embodiment of the present invention,
Figure 7 is a flow chart showing the manufacturing process of the bar-type temperature sensor for preventing short according to an embodiment of the present invention.

Hereinafter, a bar-type temperature sensor for preventing shorts according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view of a rod type temperature sensor for preventing a short in accordance with an embodiment of the present invention, Figure 2 is an exploded perspective view of the rod type temperature sensor for preventing a short in accordance with an embodiment of the present invention, Figure 3 is an enlarged main assembly of Figure 1 4 is an enlarged plan view of an essential part of FIG. 3, and FIG. 5 is a cross-sectional view of a rod type temperature sensor for preventing a short according to an embodiment of the present invention.

Figure 6 is a view showing the manufacturing process of the anti-short rod temperature sensor according to an embodiment of the present invention, Figure 7 is a flow chart showing the manufacturing process of the anti-short rod temperature sensor according to an embodiment of the present invention.

1 to 7, the short-circuit rod type temperature sensor 100 according to an embodiment of the present invention includes a sensor unit 10, a signal line 20, a housing 30, and an insulating member 40. It is made to include.

The sensor unit 10 is a temperature sensing configuration that senses temperature and includes a pair of lead wires 12.

Here, the sensor unit 10, which uses a platinum sensor, is used to measure the temperature of various devices such as large motors, microwave ovens, automotive cooling and exhaust devices.

The sensor unit 10 includes a sensor body and a lead wire 12 protruding from the sensor body to one side.

The signal line 20 is connected to display the temperature sensed by the sensor unit 10 to the outside, and exposed portions 22 of which part is peeled off are respectively connected to the lead wire 12 of the sensor unit 10.

Although one of the signal lines 20 is made of one line and the other is made of two lines, this is only an example, and each of the signal lines 20 may be made of only one line.

The reason why the other one of the signal lines 20 is composed of two lines is to reduce the resistance in the long distance connection.

The lead wire 12 and the exposed portion 22 of the sensor unit 10 may be connected by welding with a laser or silver lead.

The lead wire 12 of the sensor unit 10 is formed long so as to be welded and fixed with a laser or silver lead in a state where the lead wire 12 overlaps the exposed portions 22 of the signal lines 20.

As shown in FIG. 4, the length L1 of one of the exposed portions 22 of the signal lines 20 is formed to be longer than the length L2 of the other exposed portion 24. By the departure of the exposed portion 22 can prevent the short to prevent contact between each other when exposed.

The housing 30 has a configuration in which a depression 32 in which the sensor unit 10 and the signal line 20 are placed is formed.

The housing 30 has a rod shape.

The depression 32 is recessed to open a predetermined area from the upper side in the housing 30.

The depression 32 is formed to have a depth such that the sensor unit 10 and the signal line 20 are not exposed to the upper side of the housing 30.

The depression 32 has one side open in the longitudinal direction.

The depression 30 includes a first depression in which the sensor unit 10 is placed and a second depression in which the signal line 20 is placed.

As shown in FIG. 4, the width W1 of the depression 32 of the portion where the sensor portion 10 is placed is smaller than the width W2 of the depression 32 of the portion where the signal line 20 is placed. Is formed.

The insulating member 40 wraps and protects the exposed part 22 of the signal line 20 and the lead wire 12 of the sensor part 12, thereby preventing a short between each other.

The insulating member 40 is preferably an insulating tube made of rubber material which is respectively covered on the exposed portion 22 of the signal line 20 and the lead wire 12 of the sensor portion 10.

The insulating member 40 is inserted into the signal line 10 and moved to the exposed part 22 of the signal line 20 and the lead wire 12 of the sensor part 10, and then it is preferable to apply a shrinking tube that contracts by applying heat. Do.

The insulating member 40 may be a sensitized insulating member which is fixed by wrapping the exposed portion 22 and the lead wire 12 in a tape form.

The shape of the insulating member 40 can be variously modified.

An adhesive 34 is applied to the bottom of the recess 32 to attach the insulating member 40 to the bottom of the signal line 20.

The reason for attaching the insulating member 40 and the signal line 20 to the bottom of the depression 32 using the adhesive 34 is that the insulating member 40 and the signal line 20 protrude unevenly upward. This is to prevent. Therefore, the quality of the product can be improved.

The housing 30 is formed with a molding part 50 which is embedded in the recess 32 in a gel state so as to cover the insulating member 40 and the signal line 20.

The molding part 50 may correspond to the depression part 32, and may be formed in advance to have a groove into which the insulating member 40 and the signal line 20 may be inserted, and may be press-fitted into the depression part 32 through an adhesive. have.

That is, the molding part 60 may be provided in various forms in the depression part 32.

As shown in FIG. 5, the molding part 50 preferably has the same height as the upper surface of the housing 30. The reason for this is to prevent the molding part 50 from being caught by another component and being separated when the housing 30 is moved.

The partition wall portion 36 protruding upward from the bottom of the recess 32 is formed between the neighboring insulating members 40 to separate each other.

The partition 36 may be integrally formed by not removing the housing 32 from the housing in the process of forming the recess 32 in the housing 32 or may be separately processed and attached to the bottom of the recess 32.

The short-proof rod-type temperature sensor 100 of the present invention, the insulating member 40 provided in the exposed portion 22 of the signal line 20 and the lead wire 12 of the sensor unit 10 by vibration or continuous shock during use. Even if part or all is peeled off, the short circuit can be prevented because the partition wall 36 prevents contact with each other.

Hereinafter, with reference to the accompanying drawings to look at the manufacturing method of the anti-stick bar temperature sensor according to an embodiment of the present invention.

1, 2, 6 and 7, the manufacturing method of the anti-short rod temperature sensor 100 according to an embodiment of the present invention, the preparation step 10), stripping step (S20), welding step (S30), the insulating member installation step (S40), insulating member heating shrinkage step (S50), the seating step (S70), the bonding step (S70) and the molding step (S80) is made.

In the preparing step S10, a plurality of signal lines 20 and a sensor unit 10 for connecting the signal lines 20 are prepared.

The stripping step S20 is a step of forming the exposed portion 22 by stripping the signal lines 20.

The welding step S30 is a step of welding and fixing the exposed part 22 of the signal line 20 and the lead wire 12 of the sensor part 10 by laser or silver solder.

Insulating member installation step (S40) is a step of providing an insulating member 40 in the exposed portion 22 of the signal line 20 and the lead wire 12 of the sensor unit 10.

The insulating member 40 may be inserted through the signal line 20 or installed after being wrapped around the outer circumferential surface to block a short due to inflow of moisture.

Insulating member heat shrink step (S50) is a step of applying heat to the insulating member 40 to shrink to the exposed portion 22 of the signal line 20 and the lead wire 12 of the sensor unit 10.

The insulating member 40 inserts an insulating tube having an inner diameter larger than the outer diameter of the signal line 20 to be disposed on the exposed portion 22 of the signal line 20 and the lead wire 12 of the sensor unit 10, and then the column. It is contracted by adding and tightly installed without gaps.

In the mounting step S60, the insulating member 40 and the signal line 20 are seated on the recessed portion 32 of the housing 30.

At this time, the bottom portion of the depression 32 is provided with a partition wall portion 36 protruding upwards to separate the exposed portion 22 of the neighboring signal line 20 and the lead wire 12 of the sensor portion 10, thereby shorting Can be prevented from occurring.

5 and 6, after the adhesive 34 is applied to the bottom of the recess 32, the bonding member S70 is attached to the bottom surface of the insulating member 40 and the signal line 20. .

The molding step S80 is a step in which a molding part 50 is formed in the recess 32 of the housing 30 so as to cover the insulating member 40 and the signal line 22.

It is preferable that the molding 50 has the same height or does not protrude from the upper surface of the housing 30.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the following claims.

10: sand west 12: lead wire
20: signal line 22: exposed part
30 housing 32 recessed part
34 adhesive 36 partition wall
40: insulation member 50: molding part
S10 ~ S80: manufacturing steps of the present invention

Claims (11)

A sensor unit for sensing a temperature and having a pair of lead wires;
A signal line to which exposed portions partially exposed to the lead wire of the sensor unit are respectively connected;
A housing in which the sensor part and the depression in which the signal line is placed are formed; and
And an insulating member surrounding the exposed portion of the signal line and the lead wire of the sensor part to prevent a short between each other.
The depression is open at one side in the longitudinal direction,
The width W1 of the recessed portion of the portion where the sensor is placed is formed smaller than the width W2 of the recessed portion of the portion where the signal line is placed,
The depression includes a first depression in which the sensor is placed, and a second depression in which the signal line is placed.
The depression is formed to have a depth so that the sensor unit and the signal line is not exposed to the upper side of the housing,
The housing has a rod shape,
Welding the lead portion of the sensor portion and the exposed portion of the signal line by welding with a laser or silver lead,
The length L1 of one exposed portion of the signal lines is formed longer than the length L2 of the other exposed portion,
Blocking the short by preventing contact between each other when the exposed portion is exposed by the separation of the insulating member,
The insulating member is an insulating tube made of rubber material which is covered on the exposed portion of the signal line and the lead wire,
Adhesive is applied to the bottom of the depression to attach the insulating member and the bottom of the signal line,
The housing is provided with a molding part which is embedded in the recessed portion and hardened in a gel state to cover the insulating member and the signal line.
Short-bar rod temperature sensor, characterized in that the partition wall portion protruding from the bottom of the depression is formed between the insulating member adjacent to each other.
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