JP2517791Y2 - Electromagnetic device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to an electromagnetic device such as a discharge lamp ballast.

[Conventional technology]

As shown in FIG. 4, a temperature protector 50 such as a thermal protector or a thermal fuse is provided next to the primary coil 51 to detect an abnormality such as a rare short circuit of an exciting coil of an electromagnetic device such as a discharge lamp ballast. It is installed on the iron core 52.
53 is a secondary coil.

By the way, the downsizing of lighting fixtures is demanded for design development or cost reduction, and in response to this, the pursuit of limit of downsizing of electromagnetic devices has been demanded. Therefore, it has become difficult to install the temperature protection device 50 on the iron core 52 next to the primary coil 51.

That is, it is difficult to install the temperature protection device 50 at the installation position shown in FIG. 4 by covering the device main body 55 with the case 54 as shown in FIG. 5, but it is possible to install it on the outside of the case 54. . However, there is a drawback in that the wiring inside the case 54 is complicated and the insertion work of the device main body 55 is also complicated.

In the case 54 'shown in FIG. 6, an installation space 57 is formed at the installation position shown in FIG. 4, but the case 54' does not have a corner cut portion, and the wiring inside the equipment is incorporated when it is built into a thin lighting fixture. There was a drawback that it was difficult to take space for the power supply crossovers.

Further, in either case, there is a high possibility that the temperature protection device 50 may be applied to the case 54 'to be damaged when the device body 55 is inserted into the case 54'. Further, the insulation process for the withstand voltage of the lead wire lead portion of the temperature protection device 50 becomes complicated and the cost becomes high.

Therefore, in order to solve these problems, a temperature protection device is provided at the end of the iron core on the primary coil 51 side in the longitudinal direction of the device body 55.
It is possible to arrange 50. In this electromagnetic device, the temperature protection device 50 can be installed without difficulty while complying with the demand for thin section.

[Problems to be solved by the device]

However, when such an electromagnetic device is housed in the case 54, 54 ', the end plate (not shown) of the case 54, 54' facing the temperature protection device 50 of the case 54, 54 'is a metal plate such as iron. Since the heat dissipation is good, there is a drawback that the temperature followability of the temperature protection device 50 at the time of an abnormality of the electromagnetic device is deteriorated and the temperature protection performance is deteriorated as compared with the case of FIG.

Therefore, an object of the present invention is to provide an electromagnetic device which can cope with miniaturization and can prevent deterioration of temperature protection performance.

[Means for solving the problem]

The electromagnetic device of the present invention comprises a device body having a primary coil at one end side, a metal cylindrical case housed so that the primary coil of the device body is on the opening side, and the opening of the case. A heat insulating end plate, a temperature protection device arranged between the end plate and the primary coil, and a compound filled in the case.

[Action]

According to the configuration of the present invention, the device body is housed in the metal case so that the primary coil of the device body is on the opening side,
The opening of the case is closed by a heat insulating end plate,
Since the temperature protection device is placed between the coil and the next coil, the electromagnetic device can be miniaturized without complicating the structure and assembly, and the temperature protection device can be installed without damage, and the lead wire lead part Insulation processing for dielectric strength becomes easy. Also, because the case is made of metal, it does not impair the heat dissipation of the device body, and it is difficult for the heat of the device body to radiate from the heat insulating end plate, and it stays inside the end plate,
Moreover, since the primary coil serves as a main heat source of the apparatus main body when an abnormality such as a rare short occurs, the temperature protection performance of the temperature protection apparatus is further improved and the temperature protection performance can be improved as compared with the conventional case. A coil with a thermal protector provided inside the coil (eg
No need to make the coil longer than No. 18),
Therefore, the coil wire does not become long and the coil frame does not become large.

[Embodiment] An embodiment of the present invention will be described with reference to FIGS. That is, this electromagnetic device includes the device main body 1,
It consists of a case 2, a temperature protection device 3, and a compound 4.

The apparatus body 1 is a ballast body of a discharge lamp ballast as an example, and is composed of a primary coil 5 and a secondary coil 6 like a single-winding type ballast, and the iron core 7 is an outer iron type.
The secondary coil 5 and the secondary coil 6 are arranged in series to have a thin shape.

The case 2 has a cylindrical shape made of metal that houses the apparatus main body 1, and is made of iron. Since the case 2 is made thin, it has an internal cross section close to the external dimensions of the cross section of the apparatus main body 1 as shown in FIGS. 5 and 6.

The end plate 10 that closes the opening at one end of the case 2 is heat insulating. The end plate 10 is, for example, a synthetic resin molded product.

The temperature protection device 3 is arranged between the end plate 10 and the device body 1. In the embodiment, the temperature protection device 3 is suspended on the connection board 11 provided on the primary coil 5 side of the device body 1. The temperature protector 3 uses a thermal protector or a thermal fuse as an example. The temperature protection device 3 is located closer to the primary coil 5 because the primary coil 5 serves as the main heat source of the device body 1 in the event of an abnormality such as a rare short circuit.

 The compound 4 is filled in the case 2.

Various capacitors used in the discharge lamp lighting circuit
12 and 13 are loaded in the case 2 at the same time. 14 is a connection plate.

According to this embodiment, the device body 1 is housed in the metal case 2 so that the primary coil 5 of the device body 1 is on the opening side, and the opening of the case 2 is closed by the heat insulating end plate 10. Since the temperature protection device 3 is arranged between the end plate 10 and the primary coil 5, the electromagnetic device can be miniaturized without complicating the structure and assembly, and the temperature protection device 3 can be installed without damage. Moreover, the insulation treatment for the withstand voltage of the lead wire lead-out portion becomes easy. Further, since the case 2 is made of metal, the heat dissipation of the device body 1 is not impaired, and it is difficult for the heat of the device body 1 to radiate from the heat insulating end plate 10, and the heat stays inside the end plate 10. When the abnormality occurs, the primary coil 5 serves as a main heat source of the device body 1, so that the temperature follow-up property of the temperature protection device 3 is further improved and the temperature protection performance can be improved as compared with the conventional case. Further, as compared with the case where the temperature protection device is provided inside the coil 5, it is not necessary to form the coil long, the coil wire is not long, and the coil frame is not enlarged.

FIG. 3 shows P ₁ when the main body 1 is normally lit, 10 of the primary coil 5
It shows the temperature of the temperature protection device 3 at P ₂ at the time of% rare short circuit and at P ₃ at the time of 20% rare short circuit of the primary coil 5. Q ₁ is Q ₂ when the temperature protection device 3 is installed in the position shown in FIG.
Is the case where the temperature protection device 3 is installed at the end of the iron core on the side of the primary coil 51 in the longitudinal direction, and Q ₃ is the case of this embodiment. As you can see by comparing these graphs,
In the case of this embodiment, the temperature followability is inferior to that of the conventional example of FIG. 4, but the temperature followability is better than that of the conventional example in which the temperature protection device 3 is installed at the longitudinal end of the iron core, and the drawback of this conventional example. It can be seen that is solved. Moreover, the point that the temperature followability is lower than that in FIG. 4 can be sufficiently dealt with by lowering the set value of the operating temperature of the temperature protection device 3.

In addition, this embodiment does not require complicated assembly work and cost increase as compared with the conventional example shown in FIGS. 5 and 6.

[Effect of device]

According to the electromagnetic device of the present invention, the main body of the device is housed in the metal case so that the primary coil of the main body is on the opening side, and the opening of the case is closed by the heat insulating end plate. Since the temperature protection device is placed between the coil and the next coil, the electromagnetic device can be miniaturized without complicating the structure and assembly, and the temperature protection device can be installed without damage, and the lead wire lead part Insulation processing for dielectric strength becomes easy. In addition, since the case is made of metal, the heat dissipation of the device body is not impaired, and it is difficult for the heat of the device body to radiate from the heat insulating end plate, and it stays inside the end plate. Serves as a main heat source of the device body, so that the temperature followability of the temperature protection device is further improved and the temperature protection performance can be improved as compared with the conventional case. A coil with a thermal protector provided inside the coil (eg
7418), it is not necessary to form the coil longer, and therefore, there is an effect that the coil wire is not lengthened and the coil frame is not upsized.

[Brief description of drawings]

FIG. 1 is a sectional view of an embodiment of the present invention, FIG. 2 is a perspective view of a device body, FIG. 3 is a temperature characteristic diagram of a temperature protection device when the device body is abnormal, and FIG. 4 is a perspective view of a conventional example. FIGS. 5, 5 and 6 are sectional views of other conventional examples. 1 ... Device body, 2 ... Case, 3 ... Temperature protection device,
4 ... Compound, 5 ... Primary coil, 10 ... End plate

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Junichi Sugano 404-1 Nishinobu Sume, Himeji City, Hyogo Prefecture Ikeda Electric Co., Ltd. (56) Bibliography Application for Application No. 59-26323 A micro film (JP, U) of the specification and drawings attached to the application. Film (JP, U)

Claims (1)

(57) [Scope of utility model registration request] 1. An apparatus main body having a primary coil on one end side,
A metallic cylindrical case that accommodates the primary coil of the apparatus main body on the opening side, a heat insulating end plate that closes the opening of the case, the end plate and the primary coil An electromagnetic device comprising a temperature protection device disposed between the two and a compound filled in the case.