JP2867750B2 - Thermal protector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermal protector used to prevent burnout of electric equipment such as a motor or a fluorescent lamp stabilizer.

[0002]

2. Description of the Related Art A conventional thermal protector has a configuration as shown in FIG. That is, the fixed-side contact 2 is provided at the tip of the fixed-side internal lead 1, and the thermally responsive element 4 provided with the movable-side contact 3 at the opposed position is connected to the tip of the movable-side internal lead 5 by welding. I have. The fixed internal lead 1 and the movable internal lead 5 are supported by a glass bead 6, and the fixed internal lead 1 and the movable internal lead 5 are connected to the fixed external lead 7 and the fixed external lead 7 inside the glass bead 6. The movable external lead wires 8 are connected by welding to constitute a mount body. The mount body is provided in the glass bulb 9, and a part of the fixed external lead 7 and a part of the movable external lead 8 are drawn out of the glass bulb 9.

A thermal protector having such a configuration is directly attached to a winding portion of a motor, a fluorescent lamp stabilizer, or the like, and the thermal responsive element 4 performs inversion recovery in response to an excessive temperature rise and an overcurrent at the time of abnormality. It has a function of performing a snap action operation and opening and closing the movable contact 3 and the fixed contact 2 to prevent burning of a motor, a fluorescent lamp stabilizer, and the like.

[0004]

This type of thermal protector is opened when the end of its life is exceeded by, for example, 10,000 times of the number of reversal and return operations due to an abnormality of an electric device such as a motor or a fluorescent lamp ballast. It is desirable to end 100% life in the state.

However, in such a conventional thermal protector, at the end of its life, the closed state due to contact welding or the like and the open state due to fusing of the fixed internal lead or the movable internal lead are about 50% each. End of life with probability. Therefore, when the life of the motor ends in a closed state, the temperature rise of the motor, the fluorescent lamp stabilizer and the like cannot be prevented, and there is a serious drawback that the ignition of the electric equipment cannot be completely prevented.

The present invention has been made in view of such a problem, and there is no danger that electric equipment such as a motor and a fluorescent lamp ballast will be ignited even at the end of its life. It is intended to provide an easy thermal protector.

[0007]

A thermal protector according to the present invention comprises a fixed electrode having a fixed internal contact having a fixed contact at one end and a fixed external lead connected to the other end in a glass bulb. And a movable electrode connected to a movable external lead wire via a movable internal lead wire at the other end of the thermally responsive element having a movable contact at one end opposed to the fixed electrode; The fixed external lead and the movable external lead are respectively drawn out of the glass bulb, and a thermal fuse is connected to one of the fixed external lead and the movable external lead drawn out of the glass bulb. The fixed-side external lead wire and the movable-side external lead wire drawn out of the glass bulb are folded back, and the thermal fuse is brought into contact with the outer surface of the glass bulb. An extension lead wire is connected to each end of the thermal fuse and the external lead wire on the side to which the thermal fuse is not connected, and the glass bulb, the thermal fuse, the fixed external lead wire, the movable external lead wire and The extension lead wire is shrink-coated with a shrink tube, and a part of the extension lead wire protrudes from the shrink tube.

Further, according to the present invention, in the above configuration, instead of connecting the thermal fuse to one of the fixed-side external lead and the movable-side external lead, the thermal fuse is brought into contact with the outside of the glass bulb. Extension leads are connected.

[0009]

The thermal protector of the present invention is used by being directly attached to a winding portion of a motor, a fluorescent lamp ballast, or the like. When the temperature of the winding portion rises above a specified value in the closed state, the thermal fuse is blown and the life is always ended in the open state.

[0010]

An embodiment of the present invention will be described below with reference to the drawings.

As shown in FIG. 1, a thermal protector according to an embodiment of the present invention comprises a fixed inner contact 1 provided with a fixed contact 2 at one end inside a glass bulb 9 and a fixed external lead connected to the other end. A fixed electrode to which the wire 7 is connected and a thermally responsive element 4 made of a bimetal or a trimetal having a movable contact 3 provided at one end opposite to the fixed electrode via a movable internal lead wire 5 at the other end. The movable electrode connected to the movable-side external lead wire 8 is provided integrally with the glass bead 6. One end of the glass bulb 9 is sealed, and the fixed external lead 7 and the movable external lead 8 are respectively drawn out of the glass bulb 9 from the sealed part. One end of a temperature fuse 11 made of tin-lead or the like is connected to one end of a fixed-side external lead wire 7 drawn out of the glass bulb 9 by a crimp terminal 10. Then, the fixed-side external lead wire 7 and the movable-side external lead wire 8 drawn out of the glass bulb 9 are folded back at a position about 5 mm in length from the end face of the glass bulb 9, and a thermal fuse 11 is attached to the outer surface of the glass bulb 9. Is in contact. The crimp terminal 10
Is located about 10 mm in length from the end face of the glass bulb 9. Further, the other ends of the temperature fuse 11 and the movable-side external lead wire 8 are connected to the other ends of the extension-coated lead wires 13 and 15 by crimping terminals 12 and 14, respectively. The lead wire 7, the movable external lead wire 8 and the extension-coated lead wires 13 and 15 are heat-shrink-coated with a highly insulating polyethylene-based shrinkable tube 16, and the extension-coated lead wire 1 is extended from the shrinkable tube 16.
The other end portions of 3, 15 are projected.

In the thermal protector having such a configuration, when the fixed contact 2 and the movable contact 3 are closed due to welding or the like at the end of the life, the temperature of the windings of the motor, the fluorescent lamp stabilizer, and the like becomes low. If it rises above the regulation,
Since the thermal fuse 11 connected to the fixed external lead wire 7 is blown and the life of the thermal protector ends in a closed state, it is possible to completely prevent ignition of various electric devices such as a motor and a fluorescent lamp ballast. it can. Moreover, even for the abnormal temperature rise of the winding portion such as a motor or a fluorescent lamp ballast, after
By utilizing the shrinkability of the shrink tube 16 described below.
Ri, ensuring the temperature fuse 11 to the outer surface of the glass bulb 9
Since it is Rukoto into contact with, the heat conduction from the winding unit
It becomes instantaneous and extremely good , and the operational sensitivity and operational accuracy of the thermal fuse 11 increase. Further, the entirety of the glass bulb 9, the temperature fuse 11, the fixed-side external lead wire 7, the movable-side external lead wire 8, and the crimp terminals 10, 12, and 14 and the extension coating lead wires 13 and 15 are respectively provided by the shrinkable tube 16. The thermal protector can be used by directly attaching it to the windings of motors, fluorescent lamp stabilizers, etc. because it is partly shrink-coated and insulated, making it extremely easy to attach the thermal protector to electrical equipment. be able to.

In the above embodiment, the case where the thermal fuse 11 is connected to the fixed-side external lead wire 7 has been described. However, the thermal fuse 11 may be connected to the movable-side external lead wire 8 instead. Needless to say, it may be connected to both the external lead wire 7 and the movable external lead wire 8.

[0014]

As described above, according to the thermal protector of the present invention, even when a closed state such as contact welding occurs at the end of the life of the thermal protector, the final mode of the end of the life is necessarily performed by blowing the thermal fuse. The circuit is closed, and there is no risk of ignition or the like even when used for various electric devices such as a motor and a fluorescent lamp ballast. In addition, contraction Chi
By using the shrinkage of the tube,
Can reliably contact the outer surface of the glass bulb
Therefore, the operating sensitivity and operating accuracy of the thermal fuse against the abnormal temperature rise of those windings increase,
Since it can be used by being directly attached to the winding portion, it can be easily attached to electric equipment, and the safety is extremely high.

[Brief description of the drawings]

FIG. 1 is a partially cutaway front view of a thermal protector according to an embodiment of the present invention.

FIG. 2 is a partially cutaway front view of a conventional thermal protector.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 fixed-side internal lead 2 fixed-side contact 3 movable-side contact 4 thermal-responsive element 5 movable-side internal lead 7 fixed-side external lead 8 movable-side external lead 9 glass bulb 11 thermal fuse 13, 15 extension coated lead 16 Shrink tube

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-59-151721 (JP, A) JP-A-3-98225 (JP, A) Full-scale operation 60-118847 (JP, U) Real-time operation 190645 (JP, U) JP-A 61-190646 (JP, U) JP-A 1-176342 (JP, U) JP-B 51-5704 (JP, B1) JP-B 46-23905 (JP, Y1) (JP, Y2) (58) Fields investigated (Int. Cl. ⁶ , DB name) H01H 37/00-37/56 H01H 85/00-85/62

Claims (2)

(57) [Claims] 1. A fixed electrode in which a fixed external lead wire is connected to the other end of a fixed internal lead wire provided with a fixed contact at one end, and one end facing the fixed electrode. A movable electrode connected to a movable external lead via a movable internal lead is provided at the other end of the thermally responsive element provided with a movable contact at the portion, and the fixed external lead and the fixed external lead are provided outside the glass bulb. One end of a temperature fuse is connected to one of the fixed external lead wire and the movable external lead wire pulled out of the movable bulb, and the movable fuse is pulled out of the glass bulb. The fixed external lead wire and the movable external lead wire are folded back, and the thermal fuse is brought into contact with the outer surface of the glass bulb. Attach one end of the extension leads to each end portion of the side of the external lead wire which is not continued, the glass bulb, the temperature fuse, the fixed-side external lead wire,
A thermal protector, wherein the movable outer lead wire and the extension lead wire are shrink-coated with a shrink tube, and the other end of the extension lead wire protrudes from the shrink tube. 2. A fixed electrode having a fixed external contact connected to the other end of a fixed internal lead having a fixed contact provided at one end in a glass bulb, and one end opposed to the fixed electrode. A movable electrode connected to a movable external lead via a movable internal lead is provided at the other end of the thermally responsive element provided with a movable contact at the portion, and the fixed external lead and the fixed external lead are provided outside the glass bulb. Each of the movable external leads is pulled out, and one end of a thermal fuse is connected to each of the fixed external lead and the movable external lead drawn out of the glass bulb, and pulled out of the glass bulb. The fixed-side external lead wire and the movable-side external lead wire are folded back to contact the thermal fuse with the outer surface of the glass bulb, respectively. One ends of the extension leads are connected, and the glass bulb, the thermal fuse, the fixed-side external lead, the movable-side external lead and the extension lead are shrink-coated with a shrink tube, and the shrink tube is A thermal protector characterized by protruding the other end of an extension lead wire.