KR101828894B1 - Assembly structure of temperature sensor and harness - Google Patents

Abstract

The present invention relates to a temperature sensor, and more particularly, to a temperature sensor that improves a structure of a connector for a thermistor temperature sensor and a connector for a harness cable so as to enhance withstand voltage. In a temperature sensor and a connector assembly structure of a harness according to the present invention, one end of the temperature sensor is formed with a sensor connector, the harness is inserted into a harness connector, and the sensor connector and the harness connector is engaged with each other. In the harness connector, a terminal is positioned, which is each connected to a pair of conductors that are ends of the harness, and there is a partition wall formed vertically downward from an inner upper surface of the harness connector between the terminals.

Description

ASSEMBLY STRUCTURE OF TEMPERATURE SENSOR AND HARNESS [0002]

The present invention relates to a temperature sensor, and more particularly, to a temperature sensor that improves the structure of a connector for a thermistor temperature sensor and a connector for a harness cable to improve a withstand voltage.

The temperature sensor related to the present invention is a sensor that detects heat or temperature in a field such as a household appliance or a freezing facility where moisture or moisture is distributed around the device such as a refrigerator or a humidifier.

The conventional temperature sensor has a plastic injection method in which a device is continuously injected with synthetic resin such as polyvinyl chloride, polypropylene, polyethylene, polybutylene terephthalate or the like in order to prevent penetration of moisture and protect the sensor from external impact, There is a malting type in which the element and the wire are first coated with silicone and then coated (molded) two or three times with an epoxy resin, and a device is inserted into an expensive case such as copper or stainless steel And a case type in which an epoxy resin is filled in the housing.

These plastic injection type, epoxy molding type, and case type temperature sensors have a problem in that the manufacturing process is very complicated, the production cost is high, and the defect occurrence rate is high.

In order to solve such a problem, Korean Patent Registration No. 10-1162301 discloses a " temperature sensor having a silicon housing and a manufacturing method thereof ", so that when a temperature sensor is manufactured in the form of a molding, , The workability in the electronic product is deteriorated and it is impossible to recycle it.

In order to solve these problems, Applicant has filed a patent application for a connector-coupled type temperature sensor (Korean Patent Registration No. 10-1626859).

However, in the case of a thermistor-integrated type temperature sensor including such a connector-coupled type temperature sensor, there is a disadvantage in that a withstanding voltage is small and short-circuiting occurs between the terminals.

Korean Patent No. 10-1162301 Korean Patent No. 10-1626859

SUMMARY OF THE INVENTION An object of the present invention is to improve the withstand voltage and improve the quality of a temperature sensor.

In addition, by improving the quality of the temperature sensor by increasing the withstand voltage, the connector coupling method between the temperature sensor and the harness is adopted, thereby contributing to enhancement of the usability and workability of the temperature sensor.

According to an aspect of the present invention, there is provided a temperature sensor and a connector assembly structure of a harness, wherein one end of the temperature sensor is formed with a sensor connector, the harness is inserted into the harness connector, And the harness connector is provided with a terminal to which a pair of conductors respectively connected to the ends of the harness are respectively connected and a partition wall is formed between the terminals in a vertically downward direction from the inner upper surface of the harness connector.

Here, the harness connector may include a harness guide to which the harness can be inserted, the harness guide having a height greater than that of the harness guide and having a leading end of the harness protruding from the leading end of the harness guide .

Here, the harness connector is formed with a harness guide into which the harness can be inserted right and left, the opening of the sensor connector is formed in a 'convex' shape, And the partition wall is inserted into the second opening portion where the opening hole is small.

Here, the sensor connector may have an opening at the inlet side, an opposite side of the opening may be closed, and a guide groove front end may be formed on the opposite side of the opening to receive the front end of the partition in the longitudinal direction.

In this case, the opening of the sensor connector has a 'T' shape, a harness cable area located inside the harness connector is inserted into the lateral opening of the 'T' character, and the partition wall is inserted into the longitudinal opening of the 'T' .

Here, a waterproof bushing is inserted into a predetermined position of the cable of the harness, and the waterproof bushing seals a space formed between the opening of the harness connector and the cable to add a waterproof function.

Here, the waterproof bushing may have a pair of through holes arranged in parallel, and at least one waterproof wall may be formed at the outer periphery.

According to the configuration of the present invention described above, it is possible to improve the quality of the temperature sensor by improving the withstand voltage, and by adopting the connector coupling method between the temperature sensor and the harness, a temperature sensor capable of improving the usability and workability of the temperature sensor is provided can do.

1 is a perspective view of a connector assembly structure of a temperature sensor and a harness according to the present invention.
2 is an exploded perspective view of a connector assembly structure of a temperature sensor and a harness according to the present invention.
3 is a sectional view of a connector assembly structure of a temperature sensor and a harness according to the present invention.
4 is a perspective view of a connector for a temperature sensor and a connector for a harness according to the present invention.
5 is a perspective view showing a sealing packing structure coupled to a connector for a temperature sensor according to another embodiment of the present invention.
6 is an exploded perspective view showing a sealing packing structure coupled to a connector for a temperature sensor according to another embodiment of the present invention.
7 is a structural view of the packing shown in Fig.

Hereinafter, a connector assembly structure of a temperature sensor and a harness according to the present invention will be described in detail with reference to the drawings.

The detailed description of the specific embodiments shown in the accompanying drawings is read in conjunction with the accompanying drawings, which are considered a part of the description of the entire invention. The reference to direction or orientation is for convenience of description only and is not intended to limit the scope of the invention in any way.

Specifically, terms indicating positions such as "lower, upper, horizontal, vertical, upper, lower, upper, lower, upper, lower ", or their derivatives (e.g.," horizontally, Etc.) should be understood with reference to both the drawings and the associated description. In particular, such a peer is merely for convenience of description and does not require that the apparatus of the present invention be constructed or operated in a specific direction.

It should also be understood that the term " attached, attached, connected, connected, interconnected ", or the like, refers to a state in which the individual components are directly or indirectly attached, And it should be understood as a term that encompasses not only a movably attached, connected, fixed state but also a non-movable state.

FIG. 1 is a perspective view of a connector assembly structure of a temperature sensor and a harness according to the present invention, FIG. 2 is an exploded perspective view of a connector assembly structure of a temperature sensor and a harness according to the present invention, Sectional view of the connector assembly structure of the harness.

1 to 3, an assembly structure of a temperature sensor according to the present invention includes a temperature sensor 11, a harness 12, a sensor connector 13, and a harness connector 14.

The temperature sensor 11 may consist of a housing 21 and an assembly 23.

The housing 21 may be made of a plastic injection-molded product and may have a hollow cylindrical shape.

The assembly 23 may comprise a sensor connector 13, a base 23a, a thermistor 22 and a Dumet wire 22a.

The sensor connector 13 is a connection structure capable of male and female engaging with the harness connector 14.

The thermistor 22 and the dummy line 22a are temperature sensing parts to which a lead wire capable of sensing temperature is connected.

The base 23a is formed of a thin plate and has one end connected to the sensor connector 13 and the other end supporting the dummy line 22a and the thermistor 22 being seated at the end. And can be introduced into the sensor connector 13 through the hole.

The structure of such an assembly 23 is only one example for explaining the present invention, and it is also possible to adopt another type of temperature sensing structure, and the structure of the sensor connector 13 is necessary for implementing the present invention.

The harness connector 14 is one of the connection structures formed by male and female engagement with the sensor connector 13 and has a structure in which a part of the harness 12 is fastened to the inside thereof.

The harness 12 includes a terminal 24 and a cable 25 and each of the cables 25 is connected to and fixed to the terminal 24.

The terminal 24 has a structure in which it is seated inside the harness connector 14.

3, when the sensor connector 13 and the harness 12 are engaged with the thermistor 22, the dummy line 22a, the base 23a, and the housing 21, 14) are male and female.

The terminal 24 is seated in the harness connector 14 and has a structure in which one end of the terminal 24 is connected to the dummy line 22a and the other end is connected to the cable 25 so as to be electrically connected to each other. The cable 25 is a portion where the portion connected to the terminal 24 is a conductor portion (black display portion) and the other portion is covered with an insulator.

4 is a perspective view of a connector for a temperature sensor and a connector for a harness according to the present invention.

Fig. 4 (A) is a perspective view of the connector viewed from one direction, and Fig. 4 (B) is a perspective view before the connector is viewed from the other direction.

The temperature sensor assembly structure of the present invention has a structure in which the connection between the temperature sensor and the harness is connected by the connector connection between the sensor connector 13 and the harness connector 14. Especially, This is to improve the electrical short circuit problem.

In the known art, there is a connector coupling, and a structure for compensating an electrical short between the two terminals is disclosed. However, when the connector is coupled, the withstand voltage between the two terminals is relatively low, so that commercialization (especially by moisture or moisture There is a need to improve the quality of the power supply voltage and the withstand voltage problem.

In order to solve the waterproofing problem and the electric short-circuiting problem, the present invention is characterized in that the harness connector 14 is provided with a partition wall 143 which can electrically isolate both terminals from each other, The structure of the sensor connector 14 is changed so that there is no problem in joining to the sensor connector 14.

The sensor connector 13 includes an arm body 131 having an internal hollow shape and a locking protrusion 132 formed on an upper surface of the arm body 131 to lock the connector, A columnar groove 133 formed at one end of the upper surface of the arm body 131 and a partition wall 143 are inserted and guided so that the column 145 for the arm body 131 can be inserted, And a partition wall guide groove 134 in which grooves are formed.

The leading end of the barrier rib guide groove 134 is further formed with a guide groove leading end 135 to which the leading end 143a of the barrier rib can be coupled.

The harness connector 14 is connected to the other end of the harness insertion body 141 having the harness 12 inserted therein and the one end thereof opened and the terminal 24 of the harness 12 and the cable 25 A pair of harness guides 142 into which conductors are inserted, a partition 143 formed in a vertical direction between the pair of harness guides 142 to mitigate electrical shorting of the two terminals, a pair of harness guides 142 And a hook part 144 connected to the pillars 145 formed on the upper side of the pillars 145 and having a left and right fluidity in a seesaw form and a ring part formed at the leading end thereof.

The partition wall 143 is vertically downwardly downward between the pair of harness guides 142 and is formed to be longer than the height of the pair of harness guides 142, And has a length protruding forward from the distal end of the guide 142.

The first opening portion 136a having a large opening hole is an opening into which a pair of harness guides 142 are inserted and the opening portion having a small opening hole The two openings 136b are openings into which the barrier ribs 143 are inserted and the barrier ribs 143a are inserted through the second openings 136b and are coupled to the guide groove front end portions 135.

This structure is a short-circuit-proof structure to electrically isolate two terminals (two conductors of a harness cable and a pair of drain lines), and to extend the withstand voltage distance and to cut off the electrical short circuit.

FIG. 5 is a perspective view showing a sealing packing structure coupled to a temperature sensor connector according to another embodiment of the present invention, and FIG. 6 is a perspective view illustrating a sealing packing structure coupled to a temperature sensor connector according to another embodiment of the present invention. Fig. 7 is a structural view of the packing shown in Fig. 6. Fig.

Figs. 1 to 4 show an embodiment of a connector structure for improving the withstand voltage between two terminals for temperature sensing. Fig. 5 to Fig. 7 show an embodiment in which a waterproof bushing Yes.

5 and 6, the connector coupling structure of the temperature sensor includes a temperature sensor 31, a harness 32, a sensor connector 33, a harness connector 34, and a waterproof bushing 36.

The structure and role of the temperature sensor 31, the harness 32, the sensor connector 33, and the harness connector 34 are the same as those described above.

When the harness 32 is fixedly coupled to the harness connector 14, the cable 35 of the harness is positioned at the opening (inlet side) of the harness connector 14. At this time, an unsealed space is formed between the cable 35 and the opening of the harness connector 14, and moisture from the outside is penetrated through the space, shorting of the two terminals may occur.

In order to compensate for this, another embodiment of the present invention proposes a structure in which the waterproof bushing 36 can be inserted into the space in the embodiment of FIG.

The waterproof bushing 36 is coupled to the cable 35 before the harness 32 is inserted into the harness connector 34 and is coupled with the harness connector 34 in a state where the waterproof bushing 36 is engaged, The connector 34 and the sensor connector 33 are coupled to sense the temperature of the electronic device.

7, it is preferable that the waterproof bushing 36 is made of a soft synthetic resin material, and the through holes 36a through which the cables 35 can be inserted are formed side by side in pairs, And the waterproof wall 36b may be formed in a double or triple shape on the outer side (outer periphery). It goes without saying that even if the waterproof wall 36b has a single structure, the waterproof effect can be sufficiently seen.

Another embodiment of the present invention thus constituted not only makes it possible to increase the electrical performance by securing the insulation distance between the two terminals (cables) for temperature sensing and improving the withstand voltage, but also by using the waterproof bushing 36, It is possible to prevent the short circuit due to moisture in advance while blocking the moisture from the source by increasing the waterproof function.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

11, 31: temperature sensor 12, 32: harness
13, 33: sensor connector 14, 34: harness connector
21: housing 22: thermistor
22a: Dewar line 23: Assembly
23a: Base 24, 37: Terminal
25: Cable 36: Waterproof Bushing
131: arm body 132:
133: columnar groove 134: partition wall guide groove
135: guide groove leading end 141: harness insertion body
142: Harness guide 143:
143a: leading edge of the partition 144:
145: Column

Claims (7)

The sensor connector and the harness connector into which the harness is inserted are male-
Wherein the harness connector is provided with a terminal to which a pair of conductors respectively connected to the ends of the harness are respectively connected and a partition wall is formed vertically downward from the inner upper surface of the harness connector between the terminals,
The harness connector is formed with a harness guide into which the harness can be inserted laterally,
Wherein the partition wall is formed to have a height greater than that of the harness guide and has a front end of the partition protruding from the front end of the harness guide,
A guide groove front end portion in which a front end portion of the partition wall is seated in a longitudinal direction is formed on an inner side surface of the opening portion,
A connector assembly structure of a temperature sensor and a harness, the electrical connection portion of a terminal of the temperature sensor and a terminal connected to the harness being located in the harness guide. delete The method according to claim 1,
The harness connector is formed with a harness guide into which the harness can be inserted laterally,
The opening of the sensor connector is formed in a 'convex' shape,
Wherein the harness guide is inserted into a first opening portion having a large opening hole and the partition wall is inserted into a second opening portion having a small opening hole. delete The method according to claim 1,
The sensor connector has a T-shaped opening, a harness cable region located inside the harness connector is inserted into the transverse opening of the T-shaped connector, and the partition wall is inserted into the longitudinal opening of the T- Connector assembly structure of temperature sensor and harness. The method according to claim 1,
A waterproof bushing is inserted into a predetermined position of the cable of the harness,
And the waterproof bushing seals a space formed between the opening of the harness connector and the cable. The method according to claim 6,
Wherein the waterproof bushing has a pair of through holes formed in parallel and at least one waterproofing wall formed at an outer periphery thereof.

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