KR101368970B1 - Insulation connector for inserting hearter sensor - Google Patents

Abstract

An object of the present invention is to provide an insulated connector for a heater sensor insert, the configuration of the present invention is coupled to the end of the tubular heater and the inside is provided with a sensor insert hole for inserting the heater sensor and the inside of the heater A connector body made of an insulating material through which the sensor insert hole communicates; A proximal end is coupled to the connector body so as to surround the outside of the sensor insert hole, and a sensor insertion hole is formed at a distal end thereof to communicate with the sensor insert hole, and passes through the sensor insertion hole and the sensor insert hole of the connector body. It characterized in that it comprises a connector cap of an insulating material to be introduced into the tubular heater.

Description

Insulation connector for heater sensor inserts {Insulation connector for inserting hearter sensor}

The present invention relates to an insulated connector for a heater sensor insert, and more particularly, by providing an insulating structure at a tubular heater input end, when the sensor is inserted into the heater to measure the temperature of the heater, The present invention relates to an insulated connector for a heater sensor insert that touches a power supply provided at an end portion and prevents an accident such as a short circuit phenomenon or an instrument failure due to external energization.

Tempered glass for external display windows of portable electronic devices such as mobile phones, navigation devices, MP3, and home electronic devices is often made of thin glass of soda lime silica series, which is preheating furnace, salt bath furnace, slow cooling furnace, After passing through the hot water furnace, the hydrothermal furnace and the drying furnace sequentially, the overall configuration carried by the mobile unit is automatically made to produce tempered glass having a certain strength, thickness and transmittance of the tempered glass.

Conventional tempered glass making technology is generally made in a small scale, and the manufacturing apparatus also produces and manufactures tempered glass mainly used for watch glass in the form of manual work. Since the manufacturing of the tempered glass is carried out by a small scale, it is impossible to obtain the uniformity of the quality of the tempered glass produced, excessive generation of defective products occurs in the manufacturing, and the worker And thus the accident of large and small occurs frequently.

In order to solve this problem, a method of manufacturing a large amount of tempered glass at a time by placing a plurality of long quartz tube heaters (for example, quartz tube heaters of about 3 to 5 m in length) in a plurality of side by side in an industrial oven chamber. Proposed. Such tubular heaters (that is, quartz tube heaters, hereinafter referred to as tubular heaters for convenience) are provided with holders for power supply at both ends, and a heating coil is built in the quartz heating tube, and is fixed by a fixing means such as a bracket. It is provided having a structure fixedly arranged inside the oven chamber.

On the other hand, the temperature of the tubular heater rises to a high temperature in the oven chamber, the rod-shaped heater sensor is inserted to measure the temperature of the heater. The heater sensor is usually connected to the measuring instrument, and the temperature of the heater detected by the heater sensor is measured by the measuring instrument to adjust the temperature of the heater by the controller. In a state in which a plurality of tubular heaters are arranged inside an industrial oven chamber, during a heating operation, a measurer randomly selects a heater and inserts a heater sensor directly into the corresponding heater to sense the sensor.

However, in the related art, an electrically conductive metal holder is provided at both ends of the tubular heater for power supply, and the holder is supported by a separate bracket or the like in the oven chamber to install a plurality of heaters, so that the measurer directly installs the rod-shaped heater. When the sensor is inserted into the heater, the heater sensor touches the power supply part (such as the holder) of the heater, causing a short phenomenon, and causing a serious problem such as a failure of the measuring instrument due to external energization. That is, when a measurer inserts a heater sensor inside the heater, the touch panel is accidentally touched by a power supply such as a heater holder or a power supply connector. Loss is a frequent occurrence.

The present invention was developed to solve the above problems, an object of the present invention is to touch the power supply of the heater when the sensor is introduced into the heater for the temperature measurement of the tubular heater, etc. It is an object of the present invention to provide an insulated connector for a heater sensor insert that prevents an accident such as a short circuit or an instrument failure due to external energization.

According to the present invention for solving the above problems, it is coupled to the end of the tubular heater and is provided with a sensor insert hole for inserting the heater sensor therein of the insulating material in communication with the interior of the heater and the sensor insert hole A connector body; A proximal end is coupled to the connector body so as to surround the outside of the sensor insert hole, and a sensor insertion hole is formed at a distal end thereof to communicate with the sensor insert hole, and passes through the sensor insertion hole and the sensor insert hole of the connector body. There is provided an insulated connector for a heater sensor insert, comprising a connector cap made of an insulating material to be introduced into the tubular heater.

An inner connection ring of an insulating material is coupled to a holder provided at an end of the heater, and the connector body and the connector cap are sequentially coupled to the holder after the inner connection ring is coupled to the holder. .

Insert nuts are respectively provided in the inner connection ring and the connector body, and the insert nut is screwed to the holder of the heater such that the inner connection ring and the connector body are detachably attached to an end of the heater. It is characterized by a combination.

The connector body is provided with an extension body portion away from the end of the heater, the sensor insert hole is provided in the center of the extension body portion, the sensor insert hole is the same as the heater to meet the sensor insertion hole of the connector cap The inner diameter of the sensor insert hole and the sensor input hole is aligned with the line, and the rod-shaped heater sensor inserted into the sensor insert hole and the sensor input hole is configured to be smaller than the inner diameter of the tubular heater. It is characterized in that it is guided to be injected while advancing in a straight line.

The extension body part has a space portion communicating with the inside of the heater at an inner end thereof, and a rear extension pipe extending in an end direction of the heater is provided at an inner end center portion of the extension body part, and an outer side of the extension body part of the sensor insert hole. It is characterized in that the communication from the end to the inner end.

According to the insulated connector for a heater sensor insert according to the present invention, when the rod-shaped heater sensor is inserted through the sensor insertion hole provided at the front end of the connector cap, which is a main part, the heater sensor is a sensor insert hole provided in the inner center of the connector body. Through the straight through the tubular heater without being in contact with the surrounding objects (for example, insert nut, etc.) while advancing in a straight line, in this state to measure the temperature of the heater, the connector cap and the connector body It is made of an insulating material, so that the power supply portion of the heater and the surrounding fitting (for example, an industrial oven chamber, etc.) can be insulated, whereby the rod-shaped heater sensor is heated at the end of the tubular heater The heater sensor only touches the connector cap or connector body of insulating material when inserting into the Since the touch sensor is not touched, the heater sensor can be accidentally touched by the heater power supply while the heater sensor is inserted into the heater. This prevents the occurrence of short-circuit, prevents the electric shock of the operator (operator) due to the electric current of the heater sensor in contact with the high-voltage power supply, and prevents the measuring instrument connected to the heater sensor from being energized. There is an advantage in preventing serious problems such as.

1 is an exploded perspective view of an insulated connector for a heater sensor insert according to the present invention
2 is a perspective view showing a combined state of the main part shown in FIG.
Figure 3 is a cross-sectional view showing the internal structure of Figure 2;
4 is a perspective view showing a state in which the present invention is coupled to both ends of the heater
5 is a cross-sectional view illustrating a process of inserting a heater sensor into a heater through the present invention.

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

Referring to the drawings, an embodiment of the present invention is coupled to a holder 7 provided at an end of the tubular heater 5 (that is, an end of the quartz tube heater 5) and the heater sensor 10 is picked up inside. A sensor insert hole 22 for inserting the sensor body 20 into which the sensor insert hole 22 communicates with the heater 5, and the sensor insert hole 22 of the connector body 20. A proximal end is coupled to the front of the connector body 20 so as to surround the outside of the portion, and a sensor input hole 32 communicating with the sensor insert hole 22 is formed at the front end thereof so that the sensor input hole 32 and the connector body 20 are formed. It is an insulated connector for a heater sensor insert, characterized in that it comprises a connector cap 30 of an insulating material for passing the sensor insert hole 22 of the heater sensor 10 is introduced into the tubular heater (5). .

The inner connection ring 40 of the insulating material is coupled to the holder 7 provided at the end of the heater 5, so that the inner connection ring 40 is coupled to the holder 7 and then the connector body 20. And the connector cap 30 are sequentially coupled to the holder 7. The inner connection ring 40 is made of an insulating material such as plastic, and an insert nut 52 made of metal is embedded in the inner connection ring 40. At this time, the holder of the metallic material (7) is provided at the end of the tubular heater (5), the holder 7 is provided with a circular short tube portion (7a), the screw portion (7b) on the outer peripheral surface of the circular short tube portion (7a) The threaded portion of the inner circumferential surface of the insert nut 52 is threadedly coupled to the outer circumferential surface of the circular short pipe portion 7a of the holder 7 provided at the end of the tubular heater 5, thereby forming an inner connection ring 40. ) Can be coupled to the end of the heater (5).

The connector body 20 is provided with a threaded portion 21c on an outer circumferential surface thereof and an annular coupling body portion 21 having a space portion therein, and an extension body portion 24 integrated on the front surface of the coupling body portion 21. It includes.

The coupling body portion 21 is provided with a flange portion 21a extending radially outward in the middle portion of the outer circumferential surface, and a coupling ring portion 21b is provided at a front position of the flange portion 21a, and the coupling ring portion 21b is provided. The threaded portion 21c is formed on the outer circumferential surface thereof. In addition, the extension body portion 24 of the connector body 20 has a pair of front extension body portions 24a which are symmetrical with respect to the center when viewed from the front, and at the rear end of the front extension body portions 24a. And a bridge portion 24b connected to the coupling ring portion 21c, wherein the front extension body portion 24a extends in the direction intersecting the bottom portion 24a1 at both ends of the bottom portion 24a1 and is parallel to each other. It has a shape having a side wall portion 24a2. In addition, a sensor insert hole 22 communicating with the front and rear ends is formed in the central portion of the extension body 24. That is, the sensor insert hole 22 is formed in the center part between each bottom part 24a1 of the front extension body part 24a. In addition, the bridge portion 24b is provided in a radial direction with respect to the center portion, and a space portion communicating from the inside to the outside is formed between the bridge portions 24b.

An insert nut 54 made of metal is embedded in the connector body 20. The insert nut 54 has a coupling hole 54a which communicates with the front and rear ends thereof, and a threaded portion 54b is formed on the inner circumferential surface of the coupling hole 54a, so that the tubular heater 5 The connector body 20 is coupled to the end of the tubular heater 5 by being coupled to the threaded portion 7b provided on the outer circumferential surface of the circular short pipe portion 7a of the holder 7 provided at the end. Reference numeral 54c denotes a stepped portion 54c formed inside the front end side of the insert nut 54, and reference numeral 54d is an electric wire connection hole 54d formed to face each other on the outer peripheral surface of the front end side of the insert nut 54.

At this time, the connector body 20 is provided with an extension body portion 24 in a direction away from the end of the heater 5, a sensor insert hole 22 is provided in the center of the extension body portion 24, the sensor insert The hole 22 is disposed at the same center line position as the inside of the tubular heater 5 in contact with the sensor insertion hole 32 of the connector cap 30 to be described later, and the sensor insert hole 22 of the connector body 20. The inner diameter of the sensor insertion hole 32 of the connector cap 30 is configured to be relatively smaller than the inner diameter of the tubular heater 5, and thus a rod-shaped heater inserted into the sensor insert hole 22 and the sensor insertion hole 32. The sensor 10 may be guided to be directly introduced while linearly advancing into the heater 5 without contacting the surroundings in the connector body 20.

In addition, the extension body 24 of the connector body 20 has a space portion communicating with the inside of the heater 5 at an inner end thereof, and an inner side end portion of the extension body 24 at an end direction of the heater 5. The rear extension pipe 26 extended in this manner is provided, and the sensor insert hole 22 communicates from the front end of the extension body part 24 to the inner end 26IE of the rear extension pipe 26. At this time, a part of the extension body 24 is introduced into the coupling hole 54a of the insert nut 54 made of metal, and the inner end 26IE of the extension body 24 is the wire connector hole of the insert nut 54. Since it takes the structure which enters into the end part of the heater 5 more than 54d, when the rod-shaped heater sensor 10 is thrown in through the internal sensor insert hole 22 of the connector body 20, the heater 5 will be made. Entering through the inner end 26IE of the rear extension pipe 26 may be introduced straight into the heater sensor 10 in a straight line.

The connector cap 30 is coupled to the front of the connector body 20 to surround the outside of the sensor insert hole 22 portion of the connector body 20. The connector cap 30 has a cylindrical cap shape in which front and rear ends communicate with each other, and the connector cap 30 has a threaded portion 31 formed on an inner circumferential surface of the rear end portion thereof, so that the threaded portion 31 of the rear end of the connector cap 30 is formed. The connector cap 30 is coupled to the threaded portion 21c of the outer circumferential surface of the coupling ring 21b provided in the connector body 20 to surround the extension body 24 and the sensor insert hole 22 of the connector body 20. This combined structure can be taken. In addition, the connector cap 30 is also made of an insulating material such as plastic. The connector cap 30 has a cover plate 38 detachably coupled to the front end portion. The inside of the front end of the connector cap 30 is provided with a locking projection piece 36 extending inwardly toward the radial center, the outer peripheral surface of the cover plate 38 is coupled to the annular locking groove 38a, the cover plate ( When the 38 is pushed into the front end of the connector cap 30, the cover plate 38 is detachably coupled to the front end of the connector cap 30 by the engagement between the locking projection piece 36 and the locking groove 38a. You will have a structured one. In addition, the sensor insertion hole 32 is provided in the center portion of the cover plate 38, and as a result, the sensor insertion hole 32 is provided in the center portion of the connector cap 30. Of course, the sensor insertion hole 32 of the connector cap 30 is aligned at the same center position as the sensor insert hole 22 of the connector body 20, so that the sensor insertion hole 32 and the connector body of the connector cap 30 are aligned. The rod-shaped heater sensor 10 can be inserted into the heater 5 through the sensor insert hole 22 of 20. Reference numeral 38b denotes an electric wire insertion groove 38b in which an electric wire having entered into the electric wire insertion groove 38b is connected to one electric wire connection hole 54d of the insert nut 54 embedded in the connector body 20. In addition, a wire electrically connected to the heating coil 5a inside the heater 5 is connected to another wire connection hole 54d of the insert nut 54 embedded in the connector body 20.

The inner connection ring 40, the connector body 20, and the connector cap 30, which are the main parts of the present invention, are sequentially coupled to both ends of the heater 5 from the inside to the outside, and the insulated connector structure of the present invention is separately Of the tubular heater 5 to insulate between the power supply portion and the peripheral mounting (meaning the industrial oven chamber, etc.) in the tubular heater 5 by being supported at a required position (for example, an industrial oven chamber). The heater 5 can be arranged in a state.

According to the present invention having such a configuration, when the rod-shaped heater sensor 10 is introduced through the sensor insertion hole 32 provided at the front end of the connector cap 30, the heater sensor 10 is the connector body 20 Through the sensor insert hole 22 provided in the inner central portion of the sensor is inserted into the heater 5 straight and straight without contacting the surrounding objects (for example, peripheral parts such as the insert nuts 52 and 54). In this state, the temperature of the heater 5 is measured.

Therefore, in the present invention, when the rod-shaped heater sensor 10 is inserted into the heater 5 at both ends of the tubular heater 5, the heater sensor 10 is connected to the connector cap 30 or the connector body of the above-described insulating material. Since only the heater 20 is touched and the power supply portion (such as the holder 7 or the heater power supply connector) of the heater 5 is not touched, the heater sensor 10 is placed inside the heater 5. It is possible to prevent the occurrence of a short phenomenon by accidentally touching the heater sensor 10 to the power supply portion of the heater 5 while inserting it, and the heater (10) is energized when the heater sensor 10 is energized by a high pressure power supply. Workers) also prevents the phenomenon of electric shock, in particular, there is an advantage of preventing a serious problem, such as a failure of the measuring instrument connected to the heater sensor 10 due to the energization.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

5. Heater 5a. Heating coil
7. Holder 7a. Round tube
7b. Thread 10. Heater Sensor
20. Connector body 21. Coupling body
21a. Flange 21b. Thread
21c. Coupling ring 22. Sensor insert hole
24. Extension body portion 24a. Front extension body
24a1. Bottom 24a2. Side wall portion
24b. Bridge part 26. Rear extension pipe
30. Connector cap 31. Thread
32. Sensor hole 36. Block
38. Cover plate 38a. [0035]
38b. Cable Entry Groove 40. Inner Connection Ring
52. Insert nut 52a. Thread
54. Insert nut 54a. Joiner
54b. Thread 54c. Step
54d. Wire connector

Claims (5)

It is coupled to the end of the tubular heater (5) is provided with a sensor insert hole 22 for inserting the heater sensor 10 therein is insulated that the interior of the heater 5 and the sensor insert hole 22 is in communication A connector body 20 of material;
A proximal end is coupled to the connector body 20 so as to surround the outside of the sensor insert hole 22, and a sensor insertion hole 32 is formed at the front end to communicate with the sensor insert hole 22. 32 and a connector cap 30 made of an insulating material through the sensor insert hole 22 of the connector body 20 to allow the heater sensor 10 to be introduced into the tubular heater 5. and,
The inner connection ring 40 of the insulating material is coupled to the holder 7 provided at the end of the heater 5, and the inner connection ring 40 is coupled to the holder 7, and then the connector body ( 20 and the connector cap 30 are sequentially coupled to the holder 7,
Insert nuts 52 and 54 are provided in the inner connection ring 40 and the connector body 20, respectively, and the insert nuts 52 and 54 are connected to the holder 7 of the heater 5. The inner connection ring 40 and the connector body 20 are detachably coupled to the end of the heater 5 by screwing, and the heater (54d) is connected to the wire connection hole 54d of the insert nut 54. 5) An electric wire connected to the heating coil 5a inside is connected,
The connector body 20 is provided with an extension body 24 in a direction away from the end of the heater 5, the sensor insert hole 22 is provided in the center of the extension body 24, The sensor insert hole 22 meets the sensor insertion hole 32 of the connector cap 30 and is aligned with the heater 5, and at the same time, the sensor insert hole 22 and the sensor insertion hole 32 are provided. The inner diameter of is made relatively smaller than the inner diameter of the tubular heater (5),
A part of the extension body 24 is introduced into the coupling hole 54a of the insert nut 54 made of metal so that the inner end 26IE of the extension body 24 is the wire of the insert nut 54. The rod-shaped heater sensor 10 inserted into the sensor insert hole 22 and the sensor input hole 32 is configured to enter more toward the end portion of the heater 5 than the connection hole 54d. Insulation connector for a heater sensor insert, characterized in that guided to be introduced while advancing in a straight line inside the 5).
delete delete delete The method of claim 1,
The extension body part has a space portion communicating with the inside of the heater at an inner end thereof, and a rear extension pipe extending in an end direction of the heater is provided at an inner end center portion of the extension body part, and an outer side of the extension body part of the sensor insert hole. Insulation connector for heater sensor insert, characterized in that the communication from the end to the inner end.

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