KR102239325B1 - Manufacturing method of thermocouple type temperature sensor - Google Patents

Abstract

The present invention relates to a method of manufacturing a thermocouple temperature sensor, and when the thermocouple temperature sensor is manufactured, the covering material of the wire can be prevented from peeling off, damage to the covering material and the metal core wire, etc., and the occurrence of defects is effectively prevented, while quality and measurement reliability The main object is to provide a method of manufacturing a thermocouple temperature sensor in which the improvement of is possible. In order to achieve the above object, the step of manufacturing a pre-molded part; Coupling the manufactured pre-molded part to the ends of the two wires so as to surround at least a portion of the covering material among the ends of the two wires; And installing a main molding part to surround at least a portion of the pre-molding part.

Description

Manufacturing method of thermocouple type temperature sensor

The present invention relates to a method of manufacturing a thermocouple temperature sensor, and more particularly, when the thermocouple temperature sensor is manufactured, the covering material of the wire may be peeled off or damage to the covering material and the metal core wire may be prevented, and the occurrence of defects may be effectively prevented. The present invention relates to a method of manufacturing a thermocouple temperature sensor that can improve quality and measurement reliability.

As is known, a thermocouple is an element that measures temperature by using the Seebeck effect in which thermoelectric power is generated when two types of metals are connected and a temperature difference occurs at both ends of the connection, and is usually referred to as a thermocouple.

Thermocouples can be used as temperature sensors in devices, appliances, automobiles, structures, buildings, and other places where temperature measurement is required. It can be used as a sensor, refrigerant temperature sensor, and duct temperature sensor.

A typical thermocouple has a basic configuration of connecting two wires made of different metals, and has a fixing portion that holds and fixes the two connected wires so as not to be separated.

In the thermocouple, each wire has a configuration in which a metallic core wire is surrounded by a protective covering material, that is, the core wire is covered with a covering material, and ends of the core wires exposed without being covered by the covering material in the two wires are connected to each other.

At this time, the fixing portion is installed to surround at least a portion of the covering material, and may be installed to surround the exposed core portion and the connection portion of the two wires.

As an example, in a conventional thermocouple temperature sensor, as the fixing part, a molding part may be formed by injection molding synthetic resin to surround the exposed core wire part and the connection part of the two wires together with the covering material of the two wires. While protecting, the two wires can be integrally fixed so that they are not separated from each other.

In other words, the thermocouple temperature sensor is manufactured by inserting the end and the connection part of the two wires into the molding part for fixing and protection.

Alternatively, a thermocouple temperature sensor can be manufactured by inserting and assembling the ends of the two wires and the connection part in the pre-processed fixed part.

However, in manufacturing the thermocouple temperature sensor, when inserting the end of the wire including the connection part, or when placing the end of the wire including the connection part in the mold and injection molding the molded part, which is a fixed part, the covering material of the wire is peeled off. Damage may occur, such as damage, coating material and metal core wire being stamped.

Accordingly, the present invention was created to solve the above problems, and when the thermocouple temperature sensor is manufactured, the covering material of the wire can be prevented from peeling off, damage to the covering material and the metal core wire, etc. can be prevented, and the occurrence of defects can be effectively prevented. And a method of manufacturing a thermocouple temperature sensor in which measurement reliability can be improved.

In order to achieve the above object, according to an embodiment of the present invention, the step of manufacturing a pre-molded part; Coupling the manufactured pre-molded part to the ends of the two wires so as to surround at least a portion of the covering material among the ends of the two wires; And installing a main molding part to surround at least a part of the pre-molding part.

Here, the pre-molding portion, the cylindrical portion formed so that the ends of the two wires are inserted inwardly to pass through; And a wire support portion formed in an elongated shape integrally from the cylindrical upper portion and supported in a state in which the ends of the two wires are seated.

In addition, the wire support portion has a fixing protrusion protruding from the seating surface on which the ends of the two wires are seated, and the fixing protrusion is inserted between the connection portion to which the metal core wires on both sides of the two wires are connected and the metal core wire portions on the two sides You can make it fit.

In addition, in a state in which the pre-molding part is coupled to the ends of the two wires, further comprising the step of installing a sensor body so as to surround at least a part of the pre-molding part, the ends of the two wires, and the connection part to which the metal core wires of the two wires are connected Including, it may be formed by injection molding the main molding in the space between the inner surface of the sensor body and the surface of the pre-molding part.

In addition, in a state in which the pre-molding part is coupled to the ends of the two wires, the step of assembling the plate so that the connection part to which the ends of the two wires and the metal core wires of the two wires are connected is seated on one side. And, the main molding part is installed to surround at least a part of the end and connection part of the two wires coupled to the plate, and the pre-molding part, and the pre-molding part is a cylindrical shape formed so that the ends of the two wires can be inserted and passed through Top; And a wire support portion formed in a shape integrally elongated from the cylindrical upper portion and supported in a state in which the ends of the two wires are seated, and the wire support portion is seated in which two wires can be inserted inwardly along a length direction. Grooves can be formed.

Accordingly, according to the manufacturing method of the thermocouple temperature sensor according to the present invention, the fixing part for protecting, coupling and fixing the two wires to each other is configured to include a main molding part and a pre-molding part, and before installing the main molding part, the main molding part By pre-installing the pre-molding part in the wire part to be inserted inward, the wire can be fixed to a predetermined position in the mold by the pre-molding part when the main molding part is installed. It is possible to effectively prevent the covering material from being stamped or peeled off by a mold or the like.

1 is a perspective view illustrating a thermocouple temperature sensor according to an embodiment of the present invention.
2 is a view for explaining step by step a manufacturing process of the thermocouple temperature sensor according to an embodiment of the present invention.
3 is a perspective view illustrating a thermocouple temperature sensor according to another embodiment of the present invention.
4 is a diagram for explaining step-by-step a manufacturing process of a thermocouple temperature sensor according to another embodiment of the present invention.
5 is a perspective view illustrating a thermocouple temperature sensor according to another embodiment of the present invention.
6 is a diagram for explaining step-by-step a manufacturing process of a thermocouple temperature sensor according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the embodiments of the present invention. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms.

When a part of the specification "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary.

1 is a perspective view illustrating a thermocouple temperature sensor according to an embodiment of the present invention, and FIG. 2 is a diagram for explaining step-by-step a manufacturing process of a thermocouple temperature sensor according to an embodiment of the present invention.

In FIG. 1, the main molding part 26, which is an exterior part, is transparently shown to show the internal configuration.

In the present invention, in the thermocouple temperature sensor 1, a fixing part for integrally connecting and fixing the two wires 10 while protecting the ends and the connection part 12 of the two wires 10, a pre-molding part ) (21) and a main molding part (26).

In addition, in the present invention, in manufacturing the thermocouple temperature sensor 1, the pre-molding part 21 of a predetermined shape is manufactured by injection molding, and the thermocouple temperature sensor ( By inserting (inserting) the wire 10 of 1) and assembling it, the pre-molding part 21 is formed to surround the two wires 10 of the thermocouple temperature sensor 1.

At this time, the pre-molding part 21 is assembled to surround at least a part of the ends of the wire 10 of the thermocouple temperature sensor 1, the pre-molding part 21, as illustrated in FIG. 1, two wires ( It can be manufactured in a shape that can surround the entire circumference of the covering material 13 for a predetermined section at the end of 10).

The pre-molding part 21 may be manufactured by injection molding into a predetermined shape using synthetic resin capable of electrical insulation.

The pre-molding part 21 may have a cylindrical part 22 through which the two wires 10 are inserted together so that the covering material 13 can be wrapped over the entire circumference at the ends of the two wires 10. And, the assembly of the pre-molding part 21 and the wire 10 is possible by inserting and passing the two wires 10 with the core wire 11 connected to the inside of the cylindrical part 22 of the pre-molding part 21. Can be done.

Preferably, the pre-molding portion 21 may have a wire support portion 23 formed in an integrally elongated shape from the cylindrical portion 22, and the two wires 10 are cylindrical of the pre-molded portion 21 The ends of the two wires 10 and the connection part 12 are supported in a state seated on the wire support part 23 of the pre-molding part 21 in a state inserted so as to pass through the inside of the upper part 22.

At this time, a fixing protrusion that can be inserted and fitted between the two metal core wires 11 connected to the connection part 12 of the two wires 10 on the end seating surface of the wire support part 23 in the pre-molding part 21 ( 24) may be formed to protrude.

When the fixing protrusion 24 is fitted as described above, the two wires 10 can be fixed in position and coupled to the pre-molding unit 21, and at least a part of the pre-molding unit 21 in the combined state, that is, A main molding part 26 is provided to surround at least a part of the cylindrical part 22 and the entire wire support part 23, and the ends of the two wires 10 and the connection part 12 together.

In an embodiment of the present invention, the main molding part 26 may be formed by injection molding using a synthetic resin, and at least a part of the pre-molding part 21 and the end and the connection part of the two wires 10 in the mold ( After positioning 12), the main molding part 26 may be molded by injecting synthetic resin to surround them.

In this way, in the present invention, the fixing part for protecting the two wires 10, coupling and fixing them to each other is configured to include the main molding part 26 and the pre-molding part 21, and before installing the main molding part, the inside of the main molding part By pre-installing the pre-molding part 21 on the wire to be inserted into the wire, the wire 10 is fixed to a predetermined position in the mold by the pre-molding part when the main molding part 26 is installed. When the main molding part 26 is installed, it is possible to effectively prevent the covering material 13 of the wire 10 from being stamped or peeled off by a mold or the like.

That is, the pre-molding part 21 serves as a protective member and a guide holder for the wire 10 when the main molding part 26 is installed.

3 is a perspective view illustrating a thermocouple temperature sensor according to another embodiment of the present invention, and FIG. 4 is a view for explaining step-by-step a manufacturing process of a thermocouple temperature sensor according to another embodiment of the present invention.

1 and 2 illustrate an example of manufacturing a thermocouple temperature sensor that can be used as an ambient temperature sensor, FIGS. 3 and 4 can be used as a refrigerant temperature sensor. Here is an example of manufacturing another type of thermocouple temperature sensor.

As shown, the pre-molding part 21 is manufactured so that the covering material 13 can be surrounded by a predetermined section at the ends of the two wires 10, and at this time, the pre-molding part 21 has two wires 10 inside. ) Can be manufactured in a cylindrical shape that can be inserted and passed through.

The pre-molding part 21 may be manufactured by injection molding using synthetic resin, and two wires 10 are inserted and passed inside the pre-molding part 21 manufactured in a cylindrical shape as illustrated in FIG. 4. By doing so, the pre-molding part 21 and the two wires 10 can be assembled.

After the assembly is performed as described above, the sensor body 27 is assembled to surround at least a part of the pre-molding unit 21 including the ends of the two wires 10 and the connection unit 12.

Here, the sensor body 27 is manufactured and processed in advance in a shape that can surround at least a part of the pre-molding part 21 including the end of the two wires 10 and the connection part 12.

At this time, the inner surface of the sensor body 27 includes the exposed core wire 11 and the connection part 12 of the two wires 10 in a shape that can be in close contact with at least a portion of the ends of the wire 10. Can be formed.

However, between the inner surface of the sensor body 27 and the outer surface of the pre-molding unit 21, the sensor body 27 is manufactured and processed in a shape that can have a gap and space spaced apart without contacting each other.

Eventually, at least a part of the pre-molding part 21, the end of the wire 10, and the entire connection part 12 are inserted into the sensor body 27, and then the main molding part 26 using a synthetic resin in the mold. By injection molding, the thermocouple temperature sensor 1 can be manufactured.

In this way, the main molding part 26 may be formed in the space between the inner surface of the sensor body 27 and the surface of the pre-molding part 21 by injection molding, whereby the wire 10 and the wire 10 and the The pre-molding part 21 and the entire sensor body 27 may be integrally fixed and coupled.

As described above, in the embodiments of FIGS. 3 and 4, the same effects as those of the embodiments of FIGS. 1 and 2 can be obtained by pre-installing the pre-molding unit 21.

5 is a perspective view illustrating a thermocouple temperature sensor according to another embodiment of the present invention, and FIG. 6 is a view for explaining step-by-step a manufacturing process of a thermocouple temperature sensor according to another embodiment of the present invention.

5 and 6 show an example of manufacturing a duct temperature sensor, and as shown, a pre-molding part 21 having a shape that can be coupled so as to be in close contact with the covering material 13 of a predetermined section at the ends of the two wires 10. ) Is prepared first.

At this time, the pre-molding part 21 may be manufactured by injection molding using synthetic resin, may be formed in a bent shape, and a cylindrical part 22 through which two wires 10 can be inserted and passed, and the It may be configured to include a wire support portion 23 formed elongated in a bent shape in the cylindrical portion 22.

In addition, the wire support portion 23 may be formed with a seating groove 25 in which the two wires 10 are inserted inwardly and adhered to each other along the length direction.

After the pre-molding part 21 is manufactured as described above, the two wires 10 are inserted into the cylindrical part 22 to pass through, and the wire support part 23 is seated in a state where the two wires 10 are bent. Insert into the groove (25).

Then, after assembling the plate 28 so that the end of the two wires 10 and the connection part 12 are seated on one side, the end and the connection part of the two wires 10 coupled to the plate 28 (12), and a main molding part 26 is installed to surround at least a part of the pre-molding part 21

At this time, the main molding part 26 may be installed to surround the entire wire support part 23 and a part of the cylindrical part 22, and this main molding part 26 is a wire in a state in which the plate 28 is assembled. After placing the (10) and the pre-molding part 21 in the mold, it can be molded by injecting a synthetic resin into the mold.

As described above, in the embodiment of FIGS. 5 and 6, the two wires 10 and the covering material 13 are protected by additionally using the plate 28 as a fixing part that serves as a protection and fixing, and in the end, the covering material 13 ) Can be effectively prevented from scratching or peeling.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements made by the person skilled in the art using the basic concept of the present invention defined in the following claims It is also included in the scope of the present invention.

10: wire
11: core wire
12: connection
13: covering material
21: pre-molding part
22: cylindrical upper part
23: wire support
24: fixed protrusion
25: seating groove
26: main molding part
27: sensor body
28: plate

Claims (5)

Manufacturing a pre-molded part;
Coupling the prepared pre-molded part to the ends of the two wires so as to surround at least a portion of the covering material among the ends of the two wires; And
Including the step of installing the main molding to surround at least a portion of the pre-molding part,
The pre-molding part
A cylindrical portion formed so that the ends of the two wires can be inserted into and passed through; And
It is formed in an integrally elongated shape from the cylindrical upper portion and is configured to include a wire support portion supported in a state where the ends of the two wires are seated,
The wire support part has a fixing protrusion protruding from the seating surface on which the ends of the two wires are seated, and the fixing protrusion is inserted and fitted between the connection part to which the metal core wires on both sides of the two wires are connected and the metal core wire parts on both sides of the wire. Method of manufacturing a thermocouple temperature sensor, characterized in that. delete delete delete delete

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