FR2816358A1 - Fusible valve for motor vehicle internal combustion engine cooling circuit has reaction chamber with locking spring and piloted control for forced cooling by full opening of valves - Google Patents

Abstract

The fusible valve for a motor vehicle internal combustion engine has a housing (1) with an armature (2) and a regulator (3) having a closure spring (4). The valve has a safety stop (5) and a rapid purge control for the circuits. It has a reaction chamber (13) with a locking spring (14) and a piloted control (15) to allow forced cooling of the thermal regulator by full opening of the valves.

Description

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 High security fuse valve device (s) replacing all faulty components in all thermal regulation function systems.

 The invention relates to a fuse high safety valve device (s) replacing all the failing members in all regulation function systems comprising a body 1, a frame 2, a thermal regulation element 3 (pilot or not), a spring. 4, a safety stop 5, a safety assistance 6, a retaining joint 7 (purge and anti-leak), an interior valve 10, an exterior valve 11, a fuse element 12, a chamber 13, a safety interlock 14, of a controlled heating element 15.

concernées pour la réalisation de nouveaux moteurs thermiques ont considérablement progressées. Elles offrent aujourd'hui à ceux-ci de meilleures performances, et des consommations réduites. In recent years, all technologies

concerned for the realization of new thermal engines have progressed considerably. Today they offer them better performance and reduced consumption.

 The ranges between optimum performance and failure are becoming more and more limited. The slightest failure of one of the elements of any thermal regulation function system is too often fatal for thermal engines.

 Old or new thermal regulation function systems of electronic generation are not secured with an automatic or programmed opening system of thermal regulation circuit.

 The object of the present invention is to remedy all these drawbacks which are sudden or caused by all the elements which constitute the thermal regulation function system.

 The invention, as characterized in the claims, solves all the problems of faulty functions of all thermal regulation function systems. It annihilates all the destructive harmful effects undergone by the systems victims of any failure of its thermal regulation function system.

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The advantages obtained thanks to this invention consist essentially in this: - A full opening of valve (s) (designed (s) by the internal valve 10, by the external valve 11, by the fuse element 12, by the reaction chamber 13) in the event of failure of any element of the regulation function system.

 - A safety interlock in the event of extreme functions of the regulation function system, but nevertheless normal by means of a reaction chamber 13, designed with two anti-creep systems S (rolling, throttling ...) and anti-leakage (folding ...) combined with a safety locking system 14 integral with the external valve 11 (fig. 6).

 - Automatic safety (fusion) or piloted (resistance) 15 for certain applications thanks to a fuse element12.

 - A setting in abutment (5) of the regulating element (3) for a faster safety passage with the use of the power of the closing spring 4. The thrust of the spring 4 facilitates the ejection of the internal valve 10 towards this safety stop 5 and removes all problems of seizing, rust on the fusible element and provides maximum ejection power.

 - A safety assistance 6, which propels the external valve 11 by its thrust in an axial direction opposite to the axial direction of the internal valve 10, which allows the rapid and complete opening of the thermal regulation circuit.

 - A special anti-loss retaining joint, special purge from first use.

 The invention is set out below in more detail using drawings representing only the embodiments of each of the functions of a control system equipped with fuse high safety valve device (s) replacing all the organs failing in all thermal regulation systems.

 FIG. 1 represents a regulation system equipped with the fuse high safety valve device (s) replacing all the failing members in any regulation function system, when it is put into service for the first time.

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 The retaining joint 7 made of thermally deformable material blocks the thermal regulation element 3 in the open position on the safety stop 5. This blocking allows, when the system is put into service for the first time, rapid, automatic and efficient purging of the thermal regulation circuit.

 As soon as the system heats up for the first time, the maintenance seal 7 loses all mechanical strength and deforms under the pressure of the closing spring 4 of the regulating element 3. The unlocked system closes again, the safety stop is released. The retaining joint 7 after this deformation provides a perfect leak-proof function of the fusible element of the reaction chamber 13 during the neutralization and safety engagement phases, in accordance with the present invention (see fig. 2).

 FIG. 2 represents a regulation system equipped with the fuse high security valve device (s) replacing all the failing members in all the thermal regulation function systems in normal operation function.

The operating temperature is lower than the opening temperature of the system under normal regulation.

The closing spring 4 compresses the thermal regulation element 3, the internal valve 10 and the external valve 1 on the body 1. The valve (designed by 10, 11, 12, 13) is closed in accordance with the present invention.

 FIG. 3 represents a regulation system equipped with the device of high safety fuse valve (s) replacing all the faulty organs in all the thermal regulation function systems in normal running function, the engine at optimum operating temperature with the valve open ( designed by 10, 11, 12, 13) in accordance with the present invention.

 FIG. 4 represents a regulation system equipped with a fuse high security valve device (s) replacing all the failing members in all the thermal regulation systems as a function of triggered security.

 In the event of any failure of one or more regulating system members, the valve formed by the internal valve 10, the external valve 11, the fusible element 12, of the reaction chamber 13, is in the closed position under the effect of the closing spring 4, the faulty regulation system cannot be done.

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 The temperature increases until reaching the melting point of the fusible element 12, inserted in the reaction chamber 13, this melting separates the inner 10 and outer 11 valve.

This rise in temperature automatically triggers the safety of the valve (designed by 10, 11, 12, 13). The internal valve 10 is driven under the pressure of the closing spring 4 via the thermal regulation element 3 in an axial direction up to the safety stop 5. The external valve 11 is ejected, driven under the pressure of the assistance safety 6 in an axial direction opposite to that of the valve 10 and allows full automatic opening of the thermal regulation circuit. The retaining joint 7 prevents losses of fusible element in the thermal regulation circuit in the melting stage.

 The circuit then in full opening allows rapid and permanent cooling of the motor victim of the failure of an element of the thermal regulation system. During cooling, safety engaged after melting, the fuse element 12 solidifies and welds the inner valve 10 and the outer valve 11 in the safety position. Triggering can be carried out in a piloted manner by activating a heating element (resistance, etc.). This triggered trigger 15 allows a safe setting at any operating temperature, in accordance with the present invention.

une chambre de réaction 13 conçue par l'ensemble 10, 11, 12, et des deux systèmes S anti-fluage (laminage, étranglement...) et anti-fuites (pliage...) et un système de verrouillage de sécurité 14, évitent les déclenchements intempestifs. FIG. 5 represents a regulation system equipped with the fuse high safety valve device (s) replacing all the members in all the thermal regulation systems in function of safety interlock (extreme running function not requiring a safety device) . In certain cases of extreme operation (high outside temperature, overload, etc.) temperatures higher than the melting temperature of the fuse element are reached. It is necessary to lock the security to avoid nuisance tripping. This locking achievable thanks to

a reaction chamber 13 designed by the assembly 10, 11, 12, and of the two anti-creep (laminating, throttling ...) and anti-leakage (folding ...) systems and a safety locking system 14 , avoid nuisance trips.

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 During this function, the valve (formed by the inner valve 10 and the outer valve 11, the fuse element 12, the reaction chamber 13) reaches an extreme open position.

The safety lock 14 comes into contact with the frame 2 and then compresses. It locks the external valve 11 on the internal valve 10. The valves 10 and 11 are unable to have a movement of one relative to the other and the reaction chamber 13 filled with fusible element 12 is neutralized by the assistance of two anti-creep and anti-leak systems.

The fuse element 12 becomes liquid but remains enclosed in the reaction chamber 13. The two anti-creep and anti-leak systems S prevent any effusion of fuse element 12 in the circuit.

When the thermal regulation system cools, the fuse element 12 solidifies, welds the inner valve 10 and the outer valve 11 together in their initial positions. The valve (formed of 10, 11, 12, 13) closes as the cooling progresses, under the pressure of the closing spring 4. The thermal regulation function has been preserved.

 Lockout is only authorized if one or more elements of the regulation system are faulty in accordance with the present invention.

Claims (8)

CLAIMS 1) High safety fuse valve device (s) replacing all the failing members in all thermal regulation systems, characterized in that it comprises: a body 1, a frame 2, a thermal regulation element controlled or not 3, a closing spring 4, a safety stop 5, a safety assistance 6, a retaining gasket 7 (purge, anti-leakage), an interior valve 10, an exterior valve 11, a fuse element 12, a reaction chamber 13, a safety interlock 14, a controlled heating element 15, allowing the valve designed with the internal valve to be fully opened, the external valve 11 and the fuse element 12 in the event of a failure of organs of all thermal regulation function systems. 2) Device according to claim 1 characterized in that it

 comprises a fuse element 12 inserted in the reaction chamber 13, automatically triggers by its fusion the safety of the valve (designed by the internal valve 10, the external valve 11, the fuse element 12, the reaction chamber 13). 3) Device according to any one of the preceding claims, characterized in that the fuse element 12, upon cooling after melting and after passing through safety solidifies and welds the inner valve 10 and the outer valve 11 together in the safety position . 4) Device according to any one of the preceding claims, characterized in that it comprises a reaction chamber 13 (designed by the internal valve 10, the external valve 11, the fuse element 12, the reaction chamber 13), of these two anti-creep (laminating, throttling ...) and anti-leakage (folding ...) systems and a safety locking system 14 ( integral with the external valve 11), neutralize security, avoid inadvertent trips. <Desc / Clms Page number 7> 5) Device according to any one of the preceding claims, characterized in that it includes a safety stop 5 of the regulating element 3 for a faster safety passage with the use of the power of the closing spring 4. The thrust of the spring 4 facilitates the ejection of the internal valve 10 towards this safety stop 5 and eliminates all the problems of seizure, of rust on the fusible element and offers maximum ejection power. 6) Device according to any one of the preceding claims, characterized in that it includes a safety assistance 6. The external valve 11 is ejected, driven under the thrust of the safety assistance 6 in an axis axial opposite to that of valve 10, and allows full automatic opening of the thermal regulation circuit. 7) Device according to any one of the preceding claims, characterized in that it comprises a retaining joint 7, made of thermally deformable material. It blocks the thermal regulation element 3 in the open position on the safety stop 5. This blocking enables rapid and effective automatic purging of the thermal regulation circuit during the first commissioning. As soon as it heats up for the first time, it loses all mechanical resistance and deforms under the pressure of the closing spring 4. The unlocked system closes again. 8) Device according to any one of the preceding claims, characterized in that it comprises an element 15 (resistance or other, etc.) which allows safety at any operating temperature.