KR19980033002A - Noise reduced relay - Google Patents

Abstract

The relay comprises an inner housing 1 and an outer housing 5, 6, wherein the inner connection 3 is connected to the outer connection 7 via the strand 8. The entire intermediate space between the inner and outer housings is preferably filled with barrier material in powder form. The barrier material supports the entire surface of the inner housing at intervals from the outer housing and prevents vibrations from being transferred from the inner housing to the outer housing.

Description

Noise reduced relay

The present invention comprises an inner housing, from the housing an inner connecting portion exits through the inner contact surface, comprising an outer housing, from which the outer connecting portion exits through an outer connecting surface opposite the inner contact surface, the inner housing And a flexible coupling conductor that couples the inner connection with the respective respective outer connection, extending between each sidewall of the outer housing.

In order to attenuate the switching noise of the relay, a method of inserting a relay encapsulated in an inner housing into an additional outer housing and coupling electrical connections between the inner and outer housings through a plurality of or a few flexible lines has already been many times Proposed. Embodiments of this manner are known, for example, from Japanese Patent Laid-Open No. 03-127424. The known method, of course, has the problem that the transmission of noise from the inner housing to the outer housing cannot be sufficiently prevented. That is, when the flexible coupling conductor is formed as a relatively stable sheet band, the conductor itself carries a relatively large portion of noise, although the conductor supports the entire surface of the inner housing at intervals from the outer housing. However, if the coupling conductor is made of a very weak material, the noise transmission of the conductor is reduced, but in this case the coupling conductor cannot stably support the inner housing at intervals from the outer housing. Thus, for example, after an external collision, the inner housing is in contact with at least one side of the outer housing so that switching noise is transmitted directly to the outer housing.

It is an object of the present invention to produce a relay in which the housing wall is doubled in the manner mentioned in the preamble so that the transmission of noise to the outside is greatly reduced and the noise reduction is also reliably maintained.

1 is a cross-sectional view of a relay formed in accordance with the present invention.

Figure 2 is a schematic diagram showing a few flat strands consisting of two machining steps (a and b) for use in a relay according to the invention.

FIG. 3 is a schematic diagram illustrating the blocking material base for the relay of FIG. 1. FIG.

FIG. 4 is a schematic view showing the process of assembling a relay having an inner housing in a connection frame joined with a base according to FIG. 3 and a flat strand according to FIG. 2.

5 is a schematic diagram illustrating a relay coupled with a connection frame according to FIG. 4.

6 is a schematic view showing a closing frame for the connection surface of the outer housing.

FIG. 7 is a schematic diagram illustrating a process of assembling the relay frame pre-assembled with the closing frame in the housing cap according to FIG. 5.

8 is a schematic view showing a process of filling a relay assembled in a cap with a blocking material.

9 is a schematic view showing a cover for the base opening.

10 is a perspective view of a fully assembled relay.

Explanation of symbols on the main parts of the drawings

1: internal housing 2: connection surface

3: inner connection part 4: outer housing

5: cap 6: bottom plate

7 external connection 8 strand

9: connection section 10: base frame

11: blocking material 12: blocking joint

13: insertion opening 14: connection frame

15: inside opening 16: closed frame

17 nozzle 18 cover

This object is achieved according to the invention by the coupling conductor supporting the entire face of the inner housing at intervals from the outer housing, and filling the intermediate space between the inner and outer housings with amorphous barrier material with high inner friction. .

When the relay is constructed in accordance with the present invention, by filling the intermediate space between the inner and outer housings completely with the blocking material, neither side of the inner housing is in contact with the outer housing. The coupling conductor, preferably formed of strands, may also be soft enough to not transmit vibrations. During fabrication, the coupling conductor has to contribute to the positioning of the inner housing to some extent, while the blocking material filling the intermediate space thereafter ensures the gap between the inner and outer housings.

As the blocking material, for example, a permanently elastic sealing material can be used. Preferably, however, a powder material made of plastic is used, which exhibits very good noise reduction properties. In this case, different plastic materials, such as polycarbonate, are contemplated. Filling in this manner is also environmentally friendly because recycled plastics in powder form can be used. The size of the particles is preferably between 50 μm and 100 μm. Of course, a material that is stable even at the operating temperature of the relay must be selected.

The special formation of the relay is described in the dependent claims.

Embodiments of the present invention are described in detail below with reference to the drawings:

The relay shown in cross section in FIG. 1 comprises an inner housing 1 having a connection surface 2 exiting from the inner connection 3 in a conventional manner. The inner housing 1 is arranged in the outer housing 4 at intervals on all sides, and the outer housing is actually formed of one cap 5 and one bottom plate 6. The bottom plate 6 faces the inner connection surface 2 and forms an outer connection surface, from which the external connection 7 emerges. In this embodiment the external connection 7 is integrally coupled with the flexible connecting conductor in the form of a strand 8, with the opposite ends of the strand towards the internal connection 3 at a right angle in the region of the internal connection surface 2. Bent to engage the internal connections. The strands 8 respectively extend without contacting the housing and the cap in an intermediate space between the inner housing 1 and the cap 5 of the outer housing. The strand is formed of flat strands as shown in FIG. 2 in this embodiment. In this case, FIG. 2A shows a flat strand 8 in its raw form, while FIG. 2B shows a flat strand 8 with both ends compressed, bent and partially cut to high temperature. In this way, an external connection 7 and an external section 9 are formed for engagement with the internal connection 3. The external connections 7 penetrate the base frame 10 at the inner surface of the bottom plate 6, which frame is made of a barrier material, for example a permanent elastic elastic composite. The base frame 10 supports the strand 8 at the desired place during assembly and additionally prevents vibrations from being transmitted to the outer housing. In addition, the entire intermediate space between the inner housing 1 and the outer housing 4 is filled with a barrier material 11 in the form of a powder, for example a polycarbonate powder. The powder has an internal friction such that the inner housing 1 and the strand 8 can maintain a predetermined distance with respect to the outer housing. On the other hand, the powder material has a high blocking action against the switching noise of the relay in the inner housing 1. The blocking joint 12 between the bottom plate 6, the cap 5 and optionally the base frame 10 is a permanently elastic sealing compound or adhesive in a conventional manner as well as the through hole for the external connection 7. Are sealed or glued together.

In the following figures, the individual parts of the relay of FIG. 1 are shown partially assembled and partially modified. It can also be seen from the figures that the individual parts can be specially arranged and formed in accordance with the present invention to assemble the relay simply and economically.

As already mentioned, the ends of the flat strand (only a few are shown) according to FIG. 2 are compressed, cut and bent. The strand is thereby inserted into the insertion opening 13 of the blocking frame 10 shown in FIG. 3, resulting in the connecting frame 14 shown in FIG. 4. The blocking frame 10 has an inner opening 15 large enough that the inner housing 1 according to FIG. 4 can be inserted into the preassembled connecting frame 14 through the inner opening. The internal connection 3 is coupled with the connection end 9, for example by soldering, to form a preassembled relay with an external connection 7 according to FIG. 5.

FIG. 6 shows an additional closure with through-holes 17 for external connections, arranged on the base frame 10 in a different embodiment from FIG. 1, to protect the exterior of the base frame 10 made of a barrier material. Show frame 16. As shown in FIG. 7, the preassembled relay is inserted into the cap 5 together with the closing frame 16, so that only the base opening 10 and the inner opening 15 of the closing frame 16 are opened. According to FIG. 8, the powdered barrier material fills the inner opening 15 via, for example, one nozzle 17 schematically shown. If the entire intermediate space between the inner housing 1 and the cap 5 is filled with the blocking material 11, an additional cover 18 shown in FIG. 9 is provided in the inner opening 15. The remaining gaps and through holes are closed or sealed with a permanently elastic adhesive.

As already explained with reference to FIG. 1, the closing of the housing at the external connection surface can be made by only one bottom plate 6, so that the closing frame 16 and the lid 18 are removed from the bottom plate. Combined into one part.

By the noise reduced relay according to the invention, the transmission of noise from the inside to the outside is greatly reduced, and the noise reduction can also be reliably maintained.

Claims (12)

An inner housing (1), from which the inner connection (3) exits through the inner connection surface (2), An outer housing (5, 6), from which the outer connecting portion (7) exits through the outer connecting surface (6) opposite the inner connecting surface (2), In a noise-reduced relay, comprising a flexible coupling conductor (8) extending between each side wall of the inner housing and the outer housing and coupling the inner connection (3) with the respective respective outer connection (7), Amorphous blocking material 11 with a coupling conductor 8 supporting the entire face of the inner housing 1 at intervals from the outer housings 5, 6, and the intermediate space between the inner and outer housings having a high inner friction. Relay, characterized in that the (). The method of claim 1, Relay, characterized in that the blocking material (11) is in powder form. The method of claim 1, Relay, characterized in that the blocking material (11) is a permanently elastic material. The method according to any one of claims 1 to 3, The coupling conductor (8) is formed as a flat strand, the end section of the strand being compressed to high temperature to form an integrally formed external connection (7). The method according to claim 1, 2 or 3, The outer housing encloses a base frame (10) made of a material for blocking noise, through which the external connection is made. The method of claim 4, wherein The outer housing encloses a base frame (10) made of a material for blocking noise, through which the external connection is made. The method of claim 5, Relay, characterized in that the base frame (10) is made of a permanent elastic elastic aggregate. The method of claim 5, Relay, characterized in that the base frame (10) comprises at least an inner recess (15) coincident with at least the outer contour of the inner housing (1). The method of claim 5, Relay, characterized in that the coupling conductor (8) is stamped in the area of the internal connection surface (2), bent inward at right angles and connected with the internal connection of the relay. The method of claim 5, Relay, characterized in that the inner recess of the base frame (10) is closed by a cover (8). The method according to claim 1, 2 or 3, Relay, characterized in that the outer housing (4) is formed of a cap (5) and a bottom plate (6; 16, 18). The method of claim 11, Relay, characterized in that the bottom plate is formed of an outer frame (16) and a cover (18).