JPH09288953A - Noncontact relay - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a noncontact relay which can achieve reduction of mounting space and simplify its structure connected to protective control equipment. SOLUTION: This noncontact relay 1 has a heat sink 8 and is connected to protective control equipment 2, a support 13 for locking the lock 12 of the protective control equipment 2 is attached to the heat-radiating fin 11 of the heat sink 8 by a press fitting, and the conducting terminal 10 of the protective control equipment 2 is directly coupled to the output terminal 9 of the noncontact relay 1. In that case a groove into which the support 13 is pressed is formed in the side face of the heat radiating fin 11 of the heat sink 8.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a contactless relay, and more particularly to a structure for mounting a protection control device on the contactless relay.

[0002]

2. Description of the Related Art Conventionally, when performing three-phase motor control, a mechanical or electronic thermal relay has been used as a protection control device together with a non-contact relay.
As shown in FIG. 4, each of the non-contact relay 31 and the thermal relay 32 is supposed to be mounted in parallel on a support rail 33 also called a DIN rail and then supported. The thermal relay 32 is connected to each output terminal of the contactless relay 31 at this time.
Each of the conductive terminals is connected via the electric wire 34. Reference numeral 35 in the figure denotes an electric wire connected to the three-phase motor, and 36 denotes an electric wire connected to the three-phase power source.

[0003]

By the way, in the above-mentioned conventional form, since the non-contact relay 31 and the thermal relay 32 are mounted in parallel, a large mounting space is required. Further, it is necessary to connect the non-contact relay 31 and the thermal relay 32 with the electric wire 34, and there is a disadvantage that the wiring work between them requires troublesome work.

The present invention was devised in view of such inconveniences, and provides a contactless relay which can realize a reduction in installation space and can simplify a connection structure with a protection control device. It is an object.

[0005]

A contactless relay according to the present invention comprises a heat sink and is connected with a protection control device, and a radiation control fin of the heat sink is provided with an attachment of the protection control device. A supporting tool to be locked is attached by press fitting, and a conductive terminal of the protection control device is directly connected to an output terminal of the contactless relay. At this time, a press-fitting groove for the support is formed on the side surface of the heat dissipation fin of the heat sink.

[0006]

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

FIG. 1 is an external perspective view showing a contactless relay and a thermal relay according to this embodiment, FIG. 2 is an exploded perspective view showing a heat sink of the contactless relay, and FIG. 3 is a contactless relay and a thermal relay. It is explanatory drawing which shows a rail attachment state. The reference numeral 1 in these figures
Is a contactless relay, 2 is a thermal relay as a protection control device, and 3 is a support rail to which these are mounted.

The contactless relay 1 according to the present embodiment is
A relay main body 7 in which an input terminal portion 4 corresponding to each phase of a three-phase alternating current and output terminal portions 5 and 6 on the three-phase load side and the three-phase power source side are respectively arranged, and the relay main body 7 A heat sink 8 fixed by screws is provided, and a mechanical or electronic thermal relay 2 is provided for each of the output terminals 9 constituting the output terminal section 5 on the three-phase load side. Each of the provided conductive terminals 10 is to be connected. The protection control device is not limited to the thermal relay 2, but may be a disconnection detector, a failure detector, a fuse unit, or the like.

The thermal relay 2 is arranged at a predetermined position on one side surface of the heat sink 8 made of aluminum, that is, on one side surface where the heat radiation fins 11 of the heat sink 8 are exposed in parallel. A support tool 13 for locking the provided fitting tool 12 is attached by press fitting. That is, this support 13
Is a metal plate with a predetermined thickness that is bent and formed into a U shape in side view,
In addition, a pair of radiating fins in which the bite recesses 14 of the support tool 13 are formed in advance on the side surfaces are formed by forming the bite recesses 14 on the open end surfaces of the upper piece and the lower piece facing each other. Corresponding to the respective thicknesses of the grooves 11, the recesses 14 are pressed in by biting.

At this time, a supporting recess 16 for receiving and supporting the tip portion of the mounting tool 12 disposed on the thermal relay 2 is formed at a position on one side of the upper piece constituting the supporting tool 13. Each of the conductive terminals 10 of the thermal relay 2 swings in accordance with the swinging operation around the swinging tool 13 of the thermal relay 2 in which the tip of the mounting tool 12 is supported by the supporting recess 16. After being operated, it is directly connected to each of the output terminals 9 constituting the output terminal section 5 on the three-phase load side arranged in the relay body 7. Further, a flat plate-shaped rail mounting tool 17 is fixed to the rail mounting surface of the heat sink 8 by screws, and the rail mounting tool 17 is hooked and supported on the support rail 3 to support a pair of fixed side engagements. It is provided with a stop piece 18 and a movable side engagement piece 19 which is fixed by sandwiching the support rail 3 between the stationary side engagement piece 18. In addition, the movable side locking piece 19 here is configured by interposing a spring 20, and is used for attaching / detaching the contactless relay 1 to / from the support rail 3.

Therefore, the thermal relay 2 is integrally attached to the relay body 7 of the contactless relay 1 according to this embodiment, and the contactless relay 1 is attached to the support rail 3. At the same time, the thermal relay 2 is also attached to and supported by the support rail 3. At this time, the output terminal portion of the thermal relay 2 and the three-phase motor (none of which are shown) are connected by the electric wire 21, while the three-phase power supply side provided in the relay body 7 is connected. The output terminal unit 6 and the three-phase power source (not shown) are connected via an electric wire 22.

[0012]

As described above, in the contactless relay according to the present invention, the support for locking the fixture of the protection control device is attached to the heat radiation fin of the heat sink by press fitting, and The output terminal of the contactless relay is directly connected to the conductive terminal of the protection control device. Therefore, it is not necessary to have a large installation space as in the case where the non-contact relay and the protection control device are installed in parallel, and it is possible to realize a large reduction in the installation space. In addition, since it is not necessary to connect the non-contact relay and the protection control device with an electric wire, and a troublesome wiring work is not required, the connection structure between the non-contact relay and the protection control device can be simplified. Can also be obtained.

[Brief description of drawings]

FIG. 1 is an external perspective view showing a contactless relay and a thermal relay according to the present embodiment.

FIG. 2 is an exploded perspective view showing a heat sink of the contactless relay according to the present embodiment.

FIG. 3 is an explanatory diagram showing a rail mounting state of the contactless relay and the thermal relay according to the present embodiment.

FIG. 4 is an explanatory view showing a rail mounting state of a contactless relay and a thermal relay according to a conventional example.

[Explanation of symbols]

 1 Contactless Relay 2 Thermal Relay (Protective Control Equipment) 8 Heat Sink 9 Output Terminal 11 Radiating Fin 12 Mounting Tool 13 Support Tool 15 Press-fitting Groove

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shoichi Konagata 11000 Ohara, Nakano Koza, Asahi-machi, Takeo-shi, Saga Omron Takeo Co., Ltd.

Claims (2)

[Claims] 1. A contactless relay comprising a heat sink and to which a protection control device is connected, wherein a support tool for locking a fitting of the protection control device is press-fitted to a radiation fin of the heat sink. The contactless relay is characterized in that the conductive terminal of the protection control device is directly connected to the output terminal of the contactless relay. 2. The contactless relay according to claim 1, wherein a press-fitting groove of a support is formed on a side surface of the heat dissipation fin of the heat sink.