Title of Invention	AN ELECTROMECHANICAL HORN WARNING SYSTEM
Abstract	An electromechanical warning horn system comprising a hollow body (2) having a cylindrical wall (8) closed by a bottom wall (9) and a flanged edge (12), at least a bobbin (3) abutting on said bottom wall (9); an elastic membrane (6), provided with at least a mobile core (7) fixed to said flanged edge (12), at least a contact breaker (4) constituted by a support (22) and a spring (23) provided with electric contacts (27, 28), and an insulating plate (5) sandwiched between said support (22) and said spring (23), and provided with at least a layer (31, 32) of resistive silk-screen ink.

Title of Invention

AN ELECTROMECHANICAL HORN WARNING SYSTEM

Abstract

An electromechanical warning horn system comprising a hollow body (2) having a cylindrical wall (8) closed by a bottom wall (9) and a flanged edge (12), at least a bobbin (3) abutting on said bottom wall (9); an elastic membrane (6), provided with at least a mobile core (7) fixed to said flanged edge (12), at least a contact breaker (4) constituted by a support (22) and a spring (23) provided with electric contacts (27, 28), and an insulating plate (5) sandwiched between said support (22) and said spring (23), and provided with at least a layer (31, 32) of resistive silk-screen ink.

Full Text	DESCRIPTION The present invention relates to an electromechanical warning horn system. More particularly, the present invention relates to an electromechanical warning horn system especially suitable to be applied on motor-vehicles. Electromechanical warning horn systems are known that comprise a hollow body, open at an end, an electric bobbin housed within said hollow body, and a membrane, provided with a moving core, fixed at the edge of the open end of said hollow body. The electric bobbin is fixed to the wall of the closed end of the hollow body and is associated to a contact breaker constituted by a support, a spring provided with electric contacts and an insulating plate sandwiched between said support and said spring. As is known, the electromechanical warning horn systems of this type generate during the working undesired electromagnetic transients. To prevent this drawback, it has been proposed to house in the hollow body, in correspondence of special supports, a resistor of adequate value whose ends are electrically connected to the support and the spring of the contact breaker, resulting in this way parallel to the electric contacts. The presence of the resistor allows to attenuate the entity of the electromagnetic transients, as it allows to cause a drastic drop of the opening and closing overvoltages of the electric contacts. The introduction of the resistor, while solving on the one hand the problem of the transients, is not free from further drawbacks of both a constructive and a functional character. A first drawback lies in that the introduction of the resistor constitutes a constructive complication, as it involves the presence of electric connections and special supports, with an ensuing increase in the cost of the warning horn system. A second drawback lies in that, because of the vibrations and the temperatures deriving both from the running vehicle and the working of said warning horn system, the resistor can be damaged and/or the ends can lose the electric contact which leads to malfunction. Object of the present invention is to obviate the above drawbacks. More particularly, object of the present invention is to provide an electromechanical warning horn system which, besides solving the problem of the electromagnetic transients, allows to obviate the drawbacks of a constructive and functional character referred to hereinabove. According to the present invention, these and still other objects that will be clear thanks to the following description are obtained by means of an electromechanical warning horn system comprising:- a hollow body whose wall comprises a first cylindrical part closed by a bottom wall, a second flat part, a third cylindrical part and a flanged edge; at least a bobbin abutting on said bottom wall; an elastic membrane, provided with at least a moving core fixed to said flanged edge of said hollow body; at least a contact breaker comprising a support, a spring provided with electric contacts and an insulating plate sandwiched between said support and said spring; wherein said insulating plate is provided with at least a layer of resistive silkscreen ink. Said at least a layer of resistive silk-screen ink has a global resistance suitable to eliminate the electromagnetic transients. Said at least a layer of resistive silk-screen ink may be coated on one, and preferably both, the surfaces of the insulating plate. The constructive and functional characteristics of the electromechanical warning horn system of the present invention will be better understood thanks to the following detailed description wherein reference is made to the attached drawings that illustrate an embodiment reported only by way of non limiting example, and wherein: Figure 1 shows the schematic view of a section of the electromechanical warning horn system of the present invention, Figure 2 shows the schematic front view of the insulating plate of the warning horn system of Figure 1; Figure 3 shows the schematic lateral view of the plate of Figure 2, according to the "d" direction of Figure 2. With reference to the attached figures, the electromechanical warning horn system of the present invention, indicated by 1 as a whole, comprises a hollow body 2, an electric bobbin 3, a contact breaker 4 comprising an insulating plate5, and an elastic membrane6 provided with a moving core 7. The hollow body 2 is defined by a wall comprising a first cylindrical part 8 closed by a bottom wall 9, a second flat part 10 forming a shoulder, a third cylindrical part 11 and a lower flanged edge 12. The flat part 10 is provided with a through-hole 13. To the bottom wall 9 a supporting element 14 is associated that is provided with a threaded pin 15 for the fastening to the vehicle and a cylindrical protrusion 16 suitable to constitute the fixed core of bobbin 3; said threaded pin 15 and said cylindrical protrusion 16 being located, respectively, on the external part and the internal part of the hollow body 2. Bobbin 3 has a coil 17wound on a reel 18. Reel 18 comprises a central hole and protruding flanges 19, 20. The diameter of the central hole is equal to the external diameter of protrusionl6; the-extemal diameter of flanges 19 and 20 is substantially equal to the internal diameter of the first cylindrical part 8 of the hollow body 2, and the height of reel 18 is substantially equal to said first cylindrical part 8. To flange 19 there is radially associated, and forms an integral part thereof, an extension 21, suitable to fix reel 18, and therefore bobbin 3, to the hollow body 2, in correspondence of the shoulder constituted by the flat part 10. The contact breaker 4 comprises a support 22, a spring 23 and the insulating plate 5. Support 22 has a fastening zone 24 facing the flat part 10 of the hollow body 2, and is provided with a first electric contact 27, preferably made from tungsten. Spring 23 is constituted by a laminar element facing support 22 starting from zone 24 until it covers the electric contact 27. At the end corresponding to the electric contact 27, said spring 23 is provided with a second electric contact 28, preferably from tungsten, mutually facing said electric contact 27. The insulating plate 5 is sandwiched between support 22 and spring 23 and is extended, in the same way as spring 23, starting from zone 24 of support 22 until it covers said electric contacts 27 and28. Said insulating plate 5 has on-each of the opposite surfaces 29 and 30 at least a layer 31 and 32 of resistive silk screen ink preferably coated with an often polymeric (PTE) film technology on the respective surfaces 29 and 30. A hole 33 allows to connect without interruption, thank to the resistive silk screen ink or through suitable conductive means, the opposite layers 31and 32. The layers 31:and 32 of resistive silk-screen ink are such as to provide a global electric resistance sufficient to eliminate the undesired electromagnetic transients ensuing from the opening and dosing of the electric contacts. Preferably, said insulating plate 5 is constituted by bakelized cloth, and the resistive silk-screen ink is selected from among 10 and 40 fl/unit area, preferably 22 and 28 ^/unit area, while the global resistance is selected from among the values 50 and 130 D, and preferably 70 and 1101. For the assembly of the contact breaker 4 of the electromechanical warning horn system of the present invention, a rivet 34 is caused to pass through a base 35 from plastic material, hole 13 of the flat part 10 of the hollow body 2, extension 21 of reel 18, spring 23, the insulating plate 5 and the fastening zone 24 of support 22. Rivet 34 is then riveted and, fixes in this way bobbin 3 and the contact breaker 4 to the hollow body 2. In this way, layers 31 and 32 of resistive silk-screen-ink are electrically connected to the electric contacts 27 and 28 through spring 23 and support 22 respectively, so as to constitute the electric resistance necessary to eliminate the undesired electromagnetic transients. Membrane 6 provided with a moving core 7 is then fixed by means of a clinching to the flange-shaped edge 12 of the hollow body 2, to complete the assembly. In resting conditions, the moving core 7 goes away from bobbin 3, the electric contact 28 abuts, under the action of spring 23, on the electric contact 27, so that the electric circuit of the warning horn system is closed and ready to be controlled. During the running of the electromechanical warning horn system of the present invention, when the control device is activated, the electric circuit is complete, and therefore bobbin 3 draws the moving core 7, associated to membrane 6, that approaches the fixed core 16. During this movement, the moving core 7 acts on the insulating plate 5 which, in its turn, acts on spring 23, opening the electric contacts 27 and 28, causing thereby the interruption of the electric circuit. The overvoltage which generates at this moment in correspondence of the electric contacts 27 and 28, leading even to the formation of an electric arc, is absorbed by the resistance of layers31 and 32 of resistive silk-screen ink, in parallel with the electric contacts 27 and 28. With the interruption of the electric circuit, bobbin 3 releases the moving core 7 and therefore membrane 6 which goes back to its starting position, allowing in this way spring 23 to bring again the electric contact 28 in abutment with the electric contact 27, so that a new cycle can start. It is now obvious that the insulating plate 5 provided with layers 31 and 32 of resistive silk-screen ink can provide the electric resistance necessary to eliminate the unpleasant electromagnetic transients, and it is as much obvious how the drawbacks arising from the application of the electric resistance of the known art are overcome and eliminated. The electromechanical warning horn system according to the present invention has allowed the drastic drop of the undesired electromagnetic transients, associated to an unusual constructive simplicity due to the elimination of the electric resistance as an autonomous element and the elimination of the related supports. While the present invention has been described in conjunction with a specific embodiment, it is obvious that many alternatives and variations will be apparent to those skilled in the art in the light of the foregoing description. Accordingly, the invention is intended to embrace all of the alternatives and variations that fall within the spirit and scope of the invention. WE CLAIM: 1. An electromechanical horn warning system comprising: a hollow body (2) whose wall comprises a first cylindrical part (8) closed by a bottom wall (9), a second flat part (10), a third cylindrical part (11) and a flanged edge (12); at least an electric bobbin (3) abutting on said bottom wall (9), an elastic membrane (6), provided with at least a moving core (7), fixed to said edge flange-shaped edge (12) of said hollow body (2); - at least a contact breaker (4) comprising a support (22), a spring (23) provided with electric contacts (27,28) and an insulating plate (5) sandwiched between said support (22) and said spring (23) characterized in that said insulating plate (5) is provided with at least a layer (31, 32) of resistive silk screen ink. 2. The electromechanical horn warning system as claimed in claim 1, wherein the at least a layer (31, 32) of silk-screen ink has an overall resistance suitable to eliminate electromagnetic transients. 3. The electromechanical horn warning system as claimed in claim 1, wherein the at least a layer (31, 32) of silk-screen ink is coated on both surfaces (29, 30) of the insulating plate (5). 4. The electromechanical horn warning system as claimed in claim 3, wherein the layers (31, 32) coated on both surfaces (29, 30) of the insulating plate (5) are connected to each other through a through-hole (33). 5. The electromechanical horn warning system as claimed in claim 1, wherein said insulating plate (5) is made from bakelite cloth. 6. The electromechanical horn warning system as claimed in claim 1, wherein the at least one layer (31, 32) of resistive silk-screen ink has a resistance in the range of 10 and 40 W/unit area, and the overall resistance is selected from among the values 50 and 130 W. 7. The electrom-echanical horn warning system as claimed in claim 6, wherein the at least one layer (31, 32) of resistive silk-screen ink is selected from among^the values of 22 and 28 Il/unit area and has an overall resistance comprises between 70 and 110 8. An electromechanical horn warning system substantially as herein described with reference to the accompanying drawings.

Full Text

DESCRIPTION
The present invention relates to an electromechanical warning horn system.
More particularly, the present invention relates to an electromechanical warning horn system especially suitable to be applied on motor-vehicles.
Electromechanical warning horn systems are known that comprise a hollow body, open at an end, an electric bobbin housed within said hollow body, and a membrane, provided with a moving core, fixed at the edge of the open end of said hollow body.
The electric bobbin is fixed to the wall of the closed end of the hollow body and is associated to a contact breaker constituted by a support, a spring provided with electric contacts and an insulating plate sandwiched between said support and said spring. As is known, the electromechanical warning horn systems of this type generate during the working undesired electromagnetic transients.
To prevent this drawback, it has been proposed to house in the hollow body, in correspondence of special supports, a resistor of adequate value whose ends are electrically connected to the support and the spring of the contact breaker, resulting in this way parallel to the electric contacts. The presence of the resistor allows to attenuate the entity of the electromagnetic transients, as it allows to cause a drastic drop of the opening and closing overvoltages of the electric contacts.
The introduction of the resistor, while solving on the one hand the problem of the transients, is not free from further drawbacks of both a constructive and a functional character.

A first drawback lies in that the introduction of the resistor constitutes a constructive complication, as it involves the presence of electric connections and special supports, with an ensuing increase in the cost of the warning horn system.
A second drawback lies in that, because of the vibrations and the temperatures deriving both from the running vehicle and the working of said warning horn system, the resistor can be damaged and/or the ends can lose the electric contact which leads to malfunction.
Object of the present invention is to obviate the above drawbacks.
More particularly, object of the present invention is to provide an electromechanical warning horn system which, besides solving the problem of the electromagnetic transients, allows to obviate the drawbacks of a constructive and functional character referred to hereinabove.
According to the present invention, these and still other objects that will be clear thanks to the following description are obtained by means of an electromechanical warning horn system comprising:-
a hollow body whose wall comprises a first cylindrical part closed by a bottom
wall, a second flat part, a third cylindrical part and a flanged edge;
at least a bobbin abutting on said bottom wall;
an elastic membrane, provided with at least a moving core fixed to said flanged
edge of said hollow body;
at least a contact breaker comprising a support, a spring provided with electric
contacts and an insulating plate sandwiched between said support and said spring; wherein said insulating plate is provided with at least a layer of resistive silkscreen ink. Said at least a layer of resistive silk-screen ink has a global resistance suitable to eliminate the electromagnetic transients.
Said at least a layer of resistive silk-screen ink may be coated on one, and preferably both, the surfaces of the insulating plate.

The constructive and functional characteristics of the electromechanical warning horn
system of the present invention will be better understood thanks to the following detailed
description wherein reference is made to the attached drawings that illustrate an
embodiment reported only by way of non limiting example, and wherein:
Figure 1 shows the schematic view of a section of the electromechanical warning horn
system of the present invention,
Figure 2 shows the schematic front view of the insulating plate of the warning horn
system of Figure 1;
Figure 3 shows the schematic lateral view of the plate of Figure 2, according to the "d"
direction of Figure 2.
With reference to the attached figures, the electromechanical warning horn system of the present invention, indicated by 1 as a whole, comprises a hollow body 2, an electric bobbin 3, a contact breaker 4 comprising an insulating plate5, and an elastic membrane6 provided with a moving core 7.
The hollow body 2 is defined by a wall comprising a first cylindrical part 8 closed by a bottom wall 9, a second flat part 10 forming a shoulder, a third cylindrical part 11 and a lower flanged edge 12. The flat part 10 is provided with a through-hole 13. To the bottom wall 9 a supporting element 14 is associated that is provided with a threaded pin 15 for the fastening to the vehicle and a cylindrical protrusion 16 suitable to constitute the fixed core of bobbin 3; said threaded pin 15 and said cylindrical protrusion 16 being located, respectively, on the external part and the internal part of the hollow body 2.
Bobbin 3 has a coil 17wound on a reel 18. Reel 18 comprises a central hole and protruding flanges 19, 20. The diameter of the central hole is equal to the external diameter of protrusionl6; the-extemal diameter of flanges 19 and 20 is substantially equal to the internal diameter of the first cylindrical part 8 of the hollow body 2, and the height of reel 18 is substantially equal to said first cylindrical part 8.

To flange 19 there is radially associated, and forms an integral part thereof, an extension 21, suitable to fix reel 18, and therefore bobbin 3, to the hollow body 2, in correspondence of the shoulder constituted by the flat part 10.
The contact breaker 4 comprises a support 22, a spring 23 and the insulating plate 5. Support 22 has a fastening zone 24 facing the flat part 10 of the hollow body 2, and is provided with a first electric contact 27, preferably made from tungsten. Spring 23 is constituted by a laminar element facing support 22 starting from zone 24 until it covers the electric contact 27. At the end corresponding to the electric contact 27, said spring 23 is provided with a second electric contact 28, preferably from tungsten, mutually facing said electric contact 27.
The insulating plate 5 is sandwiched between support 22 and spring 23 and is extended, in the same way as spring 23, starting from zone 24 of support 22 until it covers said electric contacts 27 and28. Said insulating plate 5 has on-each of the opposite surfaces 29 and 30 at least a layer 31 and 32 of resistive silk screen ink preferably coated with an often polymeric (PTE) film technology on the respective surfaces 29 and 30. A hole 33 allows to connect without interruption, thank to the resistive silk screen ink or through suitable conductive means, the opposite layers 31and 32. The layers 31:and 32 of resistive silk-screen ink are such as to provide a global electric resistance sufficient to eliminate the undesired electromagnetic transients ensuing from the opening and dosing of the electric contacts. Preferably, said insulating plate 5 is constituted by bakelized cloth, and the resistive silk-screen ink is selected from among 10 and 40 fl/unit area, preferably 22 and 28 ^/unit area, while the global resistance is selected from among the values 50 and 130 D, and preferably 70 and 1101.
For the assembly of the contact breaker 4 of the electromechanical warning horn system of the present invention, a rivet 34 is caused to pass through a base 35 from plastic material, hole 13 of the flat part 10 of the hollow body 2, extension 21 of reel 18, spring 23, the insulating plate 5 and the fastening zone 24 of support 22. Rivet 34 is then riveted

and, fixes in this way bobbin 3 and the contact breaker 4 to the hollow body 2. In this way, layers 31 and 32 of resistive silk-screen-ink are electrically connected to the electric contacts 27 and 28 through spring 23 and support 22 respectively, so as to constitute the electric resistance necessary to eliminate the undesired electromagnetic transients.
Membrane 6 provided with a moving core 7 is then fixed by means of a clinching to the flange-shaped edge 12 of the hollow body 2, to complete the assembly.
In resting conditions, the moving core 7 goes away from bobbin 3, the electric contact 28 abuts, under the action of spring 23, on the electric contact 27, so that the electric circuit of the warning horn system is closed and ready to be controlled.
During the running of the electromechanical warning horn system of the present invention, when the control device is activated, the electric circuit is complete, and therefore bobbin 3 draws the moving core 7, associated to membrane 6, that approaches the fixed core 16. During this movement, the moving core 7 acts on the insulating plate 5 which, in its turn, acts on spring 23, opening the electric contacts 27 and 28, causing thereby the interruption of the electric circuit. The overvoltage which generates at this moment in correspondence of the electric contacts 27 and 28, leading even to the formation of an electric arc, is absorbed by the resistance of layers31 and 32 of resistive silk-screen ink, in parallel with the electric contacts 27 and 28. With the interruption of the electric circuit, bobbin 3 releases the moving core 7 and therefore membrane 6 which goes back to its starting position, allowing in this way spring 23 to bring again the electric contact 28 in abutment with the electric contact 27, so that a new cycle can start.
It is now obvious that the insulating plate 5 provided with layers 31 and 32 of resistive silk-screen ink can provide the electric resistance necessary to eliminate the unpleasant electromagnetic transients, and it is as much obvious how the drawbacks arising from the application of the electric resistance of the known art are overcome and eliminated.

The electromechanical warning horn system according to the present invention has allowed the drastic drop of the undesired electromagnetic transients, associated to an unusual constructive simplicity due to the elimination of the electric resistance as an autonomous element and the elimination of the related supports.
While the present invention has been described in conjunction with a specific embodiment, it is obvious that many alternatives and variations will be apparent to those skilled in the art in the light of the foregoing description.
Accordingly, the invention is intended to embrace all of the alternatives and variations that fall within the spirit and scope of the invention.

WE CLAIM:
1. An electromechanical horn warning system comprising: a hollow body (2) whose
wall comprises a first cylindrical part (8) closed by a bottom wall (9), a second flat
part (10), a third cylindrical part (11) and a flanged edge (12);
at least an electric bobbin (3) abutting on said bottom wall (9), an elastic membrane (6), provided with at least a moving core (7), fixed to said edge flange-shaped edge (12) of said hollow body (2); - at least a contact breaker (4) comprising a support (22), a spring (23) provided with electric contacts (27,28) and an insulating plate (5) sandwiched between said support (22) and said spring (23) characterized in that said insulating plate (5) is provided with at least a layer (31, 32) of resistive silk screen ink.
2. The electromechanical horn warning system as claimed in claim 1, wherein the at least a layer (31, 32) of silk-screen ink has an overall resistance suitable to eliminate electromagnetic transients.
3. The electromechanical horn warning system as claimed in claim 1, wherein the at least a layer (31, 32) of silk-screen ink is coated on both surfaces (29, 30) of the insulating plate (5).
4. The electromechanical horn warning system as claimed in claim 3, wherein the layers (31, 32) coated on both surfaces (29, 30) of the insulating plate (5) are connected to each other through a through-hole (33).
5. The electromechanical horn warning system as claimed in claim 1, wherein said insulating plate (5) is made from bakelite cloth.
6. The electromechanical horn warning system as claimed in claim 1, wherein the at least one layer (31, 32) of resistive silk-screen ink has a resistance in the range of 10 and 40 W/unit area, and the overall resistance is selected from among the values 50 and 130 W.
7. The electrom-echanical horn warning system as claimed in claim 6, wherein the at least one layer (31, 32) of resistive silk-screen ink is selected from among^the values of 22 and 28 Il/unit area and has an overall resistance comprises between 70 and 110

8. An electromechanical horn warning system substantially as herein described with reference to the accompanying drawings.

Documents:

119-chenp-2003 abstract granted.pdf

119-chenp-2003 claims granted.pdf

119-chenp-2003 description (complete) granted.pdf

119-chenp-2003 drawing granted.pdf

119-chenp-2003-abstract.pdf

119-chenp-2003-claims.pdf

119-chenp-2003-correspondnece-others.pdf

119-chenp-2003-correspondnece-po.pdf

119-chenp-2003-description(complete).pdf

119-chenp-2003-drawings.pdf

119-chenp-2003-form 1.pdf

119-chenp-2003-form 26.pdf

119-chenp-2003-form 3.pdf

119-chenp-2003-form 5.pdf

119-chenp-2003-other documents.pdf

119-chenp-2003-pct.pdf

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Patent Number

225994

Indian Patent Application Number

119/CHENP/2003

PG Journal Number

02/2009

Publication Date

09-Jan-2009

Grant Date

04-Dec-2008

Date of Filing

21-Jan-2003

Name of Patentee

FABBRICA ITALIANA ACCUMULATORI MOTOCARRI MONTECCHIO - F.I.A.M.M. S.P.A

Applicant Address

VIALE EUROPA 63, I-36075 MONTECCHIO MAGGIORE,

Inventors:

#	Inventor's Name	Inventor's Address
1	VIERO, BRUNO	VIALE EUROPA 63, I-36075 MONTECCHIO MAGGIORE,

PCT International Classification Number

B60Q5/00

PCT International Application Number

PCT/EP01/08212

PCT International Filing date

2001-07-17

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	MI2000A001780	2000-08-01	Italy