JPH0245918Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to a horn used in an automobile or the like, and more specifically to a horn having a structure that prevents noise.

Prior Art Conventional horns include, for example, those shown in Fig. 1 and Fig. 2.
There is something like the one shown in the figure (see pages 10-78 of the new Automotive Engineering Handbook, published in 1972).

In the figure, reference numeral 1 denotes a cylindrical case with a bottom, and a circular recess 2 is provided at the center of the bottom of the case 1. An electromagnet 3 is disposed within the recess 2. This electromagnet 3 consists of a bobbin 4, a coil 5 wound around the bobbin 4, and an iron core 6 inserted into the bobbin 4. The core 6 is fixed to the recess 2 by screwing a flange nut 7 onto a threaded end portion 6a of the core 6 that penetrates the bottom wall of the recess 2 and is exposed to the outside. At this time, the bobbin 4 is pressed against the bottom wall of the recess 2 by the iron core 6 and fixed to the recess 2. A horn mounting bracket 8, one end of which is inserted through the tip threaded portion 6a of the iron core 6, is sandwiched between the outer surface of the bottom wall of the recess 2 and the flange nut 7.

Furthermore, a shaft 9 that is attracted to the iron core 6 is disposed inside the case 1, and a tungsten contact 10 is also provided.
A fixed contact piece 10 having a diameter of 1.a is fixed to a contact piece attachment piece 11 attached to the bobbin 4.

The opening of the case 1 is closed by the diaphragm 12, with the peripheral edge of the circular diaphragm 12 fixed to the opening peripheral edge 1a of the case 1. The diaphragm 12 is fixed to the case 1 by placing the periphery of the diaphragm 12 on the opening periphery 1a of the case 1,
The peripheral edge of the diaphragm 12 and the opening peripheral edge 1a of the case 1 are connected to the peripheral edge 1 of the ring-shaped cover 13.
3a, the peripheral edge 13a of the cover 13 is caulked. By closing the opening of the case 1 with the diaphragm 12 in this manner, a resonance chamber 14 is formed within the case 1. Further, one end side of the shaft 9 is connected to the diaphragm 12 so as to pass through the center of the diaphragm 12, and the shaft 9 is urged by the diaphragm 12 so that the other end is separated from the iron core 6.
A movable contact piece 15 having a tungsten contact 15a is connected to a substantially central portion of the shaft 9 located within the resonance chamber 14.
5a is brought into contact with the tungsten 10a of the fixed contact piece 10. Further, a central portion of a circular sounding plate 16 is attached to one end of the shaft 9 that passes through the diaphragm 12 and is exposed to the outside.

Further, an opening 17 is provided on the periphery of the bottom of the case 1, a pipe connecting bush 18 is fitted into the opening 17, and a pipe 19 is connected to the pipe connecting bush 18. Resonance chamber 1
4 has an opening 17 and a pipe connection bush 1 inside.
8. It is communicated with the outside via a pipe 19.

In this horn, when a horn button (not shown) is pressed, the tungsten contact 10a of the fixed contact piece 10 and the tungsten contact 15a of the movable contact piece 15 are in contact with each other, so a current flows through the coil 5 of the electromagnet 3.
The iron core 6 is excited and the shaft 9 is connected to the diaphragm 1.
It is attracted against the elasticity of 2. Since the movable contact piece 15 is attached to the shaft 9, as the shaft 9 moves, the tungsten contact 15a of the movable contact piece 15 separates from the tungsten contact 10a of the fixed contact piece 10. Then, no current flows through the coil 5 and the iron core 6 is no longer excited, so the shaft 9 is urged by the elasticity of the diaphragm 12 and returns to its original position, and the tungsten contact 15a of the movable contact piece 15 is fixed. Contact is again made with the tungsten contact 10a of the contact piece 10. Therefore, as long as the horn button is kept pressed, the above-mentioned operation is repeated, the diaphragm 12 vibrates, applying sound pressure to the surrounding air, and the sound is blown from the sounding plate 16 integrated with the shaft 9. In addition, the inside of the resonance chamber 14 has an opening 1.
7. The resonance chamber 14 is communicated with the outside via the pipe connection bush 18 and the pipe 19.
This is to evaporate the moisture that has entered the chamber to prevent it from accumulating, and to drain the moisture and dust that has accumulated in the drinking chamber 14 to the outside.

However, in such a conventional horn, the tungsten contact 10a,
A fixed contact piece 10 and a movable contact piece 15 having a diameter of 15a are provided, and the outside of the resonance chamber 14 is communicated with the outside via an opening 17, a pipe connection bush 18, and a pipe 19. Contact piece 1
1 and the tungsten contact 10a of the movable contact piece 15, 1
5a is intermittently connected and disconnected and the tungsten contact 10
When an arc occurs between contacts 10a and 15a, both contacts 10a and 15a are exposed to the atmosphere, so they are oxidized by oxygen and moisture in the atmosphere, and if used for a long time, both contacts 10a , 15a have poor conductivity, causing no current to flow through the coil of the electromagnet 3, resulting in no sound.

Purpose of the invention This invention was made by paying attention to the problems of the conventional technology, and is designed to create a sealed structure for the resonance chamber that is formed inside the case and has a fixed contact piece with a tungsten contact and a movable contact piece inside. , aims to solve the above problems by installing an oxygen absorber in the resonance chamber.

Example This invention will be explained below based on the drawings.

FIGS. 3 and 4 are diagrams showing an embodiment of this invention.

First, the configuration will be explained. In the figures, the same or equivalent parts or members as in the conventional example are denoted by the same reference numerals, and redundant explanation will be omitted.

The opening of the case 1 is closed by the diaphragm 12, with the peripheral edge of the diaphragm 12 fixed to the opening peripheral edge 1a of the case 1. Diaphragm 1
2 to the case 1, the peripheral edge of the diaphragm 12 is placed on the opening peripheral edge 1a of the case 1, and the peripheral edge of the diaphragm 12 and the opening peripheral edge 1a of the case 1 are connected in a ring shape through a packing 21. After covering with the peripheral edge of the cover 13, the peripheral edge 13a of the cover 13 is caulked. Therefore, the opening peripheral edge 1a of the case 1 and the peripheral edge of the diaphragm 12 are joined in a sealed state. In this way, by closing the opening of the case 1 with the diaphragm 12, a resonance chamber 14 is formed inside the case 1.
is formed.

Further, a pipe connection bush 18 is fitted into an opening 17 provided at the periphery of the bottom of the case 1. A bottomed cylindrical resonance chamber closing cap 25 is connected to the pipe connection bush 18. This resonant chamber closing cap 25 is made of a resilient material, such as an elastomer, and has a bellows portion 25a that can be expanded and contracted in the middle.

An oxygen absorbent 26 having the property of absorbing oxygen and releasing approximately the same volume of carbon dioxide gas is housed at the bottom of the cap 25 for closing the resonance chamber. As the oxygen absorbent 26 in this embodiment, a commercially available freshness preserving agent C series manufactured by Toppan Printing Co., Ltd. is used. FIG. 4 is a graph showing the oxygen and carbon dioxide replacement ability of this freshness preserving agent, in which the vertical axis shows the gas (oxygen, carbon dioxide) concentration Vol% and the horizontal axis shows time h. Then, add a fixed amount of freshness preservation agent to the air volume of 500
ml into a 200 x 300 mm ² bag, and shows the change in gas concentration after that. As seen in gas displacement curve _A1 in this graph, when the temperature is 20°C, the oxygen concentration in the atmosphere, which is 20 Vol%, drops to 0.1 Vol% after 24 hours. Conversely, as seen in the gas displacement curve _A2 , it can be seen that the carbon dioxide concentration increases in inverse proportion to the decrease in the oxygen concentration. That is, it can be seen that the oxygen absorbent 26 absorbs oxygen and releases the same volume of carbon dioxide gas. Note that it is preferable that the oxygen absorbent 26 be in the form of a tablet because it is convenient to store it in the cap 25 for closing the resonance chamber.

Next, the action will be explained.

The bottom of the cap 25 for closing the resonance chamber is filled with an oxygen absorbent 26, and the open end of the cap 25 for closing the resonance chamber is connected to the pipe connection bush 18 fitted into the opening 17 of the case 1. Then, the opening 17 of the case 1 is closed by the cap 25 for closing the resonance chamber, and the peripheral edge 1a of the opening of the case 1 and the peripheral edge of the diaphragm 12 are caulked by the peripheral edge 13a of the cover 13 via the packing 21. Since they are joined in a sealed state, the resonance chamber 14 is formed in a sealed structure. Therefore, after approximately 24 hours have elapsed, the atmospheric oxygen in the resonance chamber 14 is replaced by the same volume of carbon dioxide gas as the oxygen by the oxygen absorbent 26 installed in the cap 25 for closing the resonance chamber. Therefore, the inside of the resonance chamber 14 never becomes negative pressure.

If a horn is used after the carbon dioxide gas has been replaced, the tungsten contact 10a of the fixed contact piece 10 and the tungsten contact 1 of the movable contact piece 15 in the resonance chamber 14
Even if an arc occurs between the contacts 10a and 5a, these contacts 10a and 15a will not be oxidized because they are exposed to carbon dioxide gas. Therefore, both contacts 10
There is no conduction failure on the surfaces of a and 15a, and the electromagnet 3
Current flows through the coil 5, and the noise will no longer occur.

Furthermore, even if the carbon dioxide gas in the resonance chamber 14 expands or contracts due to the surrounding heat, the capacity of the resonance chamber 14 is increased by expanding and contracting the bellows part 25a of the cap 25 for closing the resonance chamber. It is changing and absorbing.

Further, in the resonance chamber 14, the opening 17 of the case 1 is closed with a resonance chamber closing cap 25, and the opening peripheral edge 1a of the case 1 and the peripheral edge of the diaphragm 12 are connected to the peripheral edge 13 of the cover 13 via the packing 21.
Since the sealing structure is joined in a sealed state by caulking a, water and dust will not enter the interior of the resonance chamber 14, and internal corrosion due to water and the like is also prevented.

In this embodiment, the resonant chamber closing cap 25 is made of elastomer, but it goes without saying that it may be made of synthetic rubber or the like as long as it has elasticity.

Effects As explained above, according to this invention,
Its structure is such that an electromagnet, a shaft attracted by the electromagnet, and a fixed contact piece having a tungsten contact are disposed in a case, and a resonance chamber is formed in the case by closing the opening of the case with a diaphragm. ,
The diaphragm and the shaft are connected, the diaphragm urges the shaft away from the electromagnet, a resonance plate is provided on a portion of the shaft exposed to the outside, and a resonance plate is provided on a portion of the shaft located within the resonance chamber at all times. In the horn formed by connecting a movable contact piece having a tungsten contact that contacts a tungsten contact of the fixed contact piece, the resonance chamber is made into a sealed structure and an oxygen absorber is installed in the resonance chamber, so that the inside of the resonance chamber is Oxygen in the atmosphere is replaced by carbon dioxide gas after a certain period of time, so even if an arc occurs between the tungsten contacts of the fixed contact piece and the movable contact piece in the resonance chamber, oxidation will not occur and failures due to poor conduction will occur. This has the effect of preventing noise.

Further, since the resonance chamber has a sealed structure, it is possible to prevent water and dust from entering the resonance chamber, thereby preventing internal corrosion caused by water and the like.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a conventional horn, FIG. 2 is a perspective view of a fixed contact piece and a movable contact piece having tungsten contacts used in the same horn, and FIG. 3 is a sectional view of an embodiment of the horn of this invention. FIG. 4 is a graph showing the oxygen/carbon dioxide gas displacement ability of the oxygen absorbent. 1...Case, 3...Electromagnet, 9...Shaft, 10
...Fixed contact piece, 10a...Tungsten contact, 12...
diaphragm, 14... resonance chamber, 15... movable contact piece,
15a...Tungsten contact, 26...Oxygen absorber.

Claims (1)

[Claims for Utility Model Registration] An electromagnet, a shaft attracted by the electromagnet, and a fixed contact piece having a tungsten contact are disposed in a case, and the opening of the case is closed with a diaphragm to generate resonance within the case. forming a chamber, connecting the diaphragm and the shaft so that the diaphragm urges the shaft away from the electromagnet, providing a resonance plate on a portion of the shaft exposed to the outside, and positioning the shaft within the resonance chamber; In the horn formed by connecting a movable contact piece having a tungsten contact point that is always in contact with a tungsten contact point of the fixed contact piece, the resonance chamber has a sealed structure and an oxygen absorber is installed in the resonance chamber. Features a horn.