CS202535B2 - Valve cooled by the circulation of the cooling medium for the inner combustion motor and method of making the same - Google Patents

Description

The invention relates to a valve cooled by the circulation of a cooling medium for an internal combustion engine, the valve having a stem which is provided with an inlet and outlet duct for the cooling environment and a screwed head which is provided with a chamber connected to these ducts.

Valves of this kind in the prior art have many disadvantages. The connection between the head and the shaft is very delicate and difficult to manufacture, and in particular it is difficult to maintain a perfect seal. Experience has shown that after a period of use of these valves, the refrigerant leaking into the engine cylinders can cause leakage and cause serious malfunctions. In addition, due to the very high temperatures achieved, the hollow valve head deforms very quickly and, as a result, the valve head and the valve seat are no longer in perfect contact when closed. The various solutions that have been proposed to date to improve valve tightness and avoid deformation of the valve head have proven difficult and costly in practice, but still have not achieved satisfactory results, particularly with respect to the shocks and high temperatures that the valve is operating during engine operation. exposed.

The subject of the invention is a valve of the above-mentioned type, characterized in that the stem is provided with a threaded band near one end, while the head is provided in the neck forming part with an axial opening which opens into the valve head chamber and into which it is screwed the threaded zone of the valve stem, wherein the threads of the threaded zone and the threaded bore have a clearance between them and the valve head and stem are connected by soldering.

According to a further feature of the invention, the threaded zone of the shaft is provided with at least one end a groove for receiving the solder. In the embodiment of the invention, the axial threaded bore of the head is provided with a groove for receiving the solder at least at one end; however, both of these embodiments are not always necessary.

According to a further feature of the invention, at its end provided with a threaded zone, the stem has an extension penetrating into the head chamber and resting at its end on a flat wall of the valve chamber forming the inner surface of the valve head plate. The adapter is provided with openings for connecting the channels arranged in the stem to the valve head chamber. /

The invention also relates to a method for producing this valve, characterized in that a solder is placed on the stem and / or the valve head near the threaded zone and after screwing the head on the stem the valve is subjected to local heating above the melting point of the solder. as a result of capillarity and the weight of the connection gaps.

According to another feature of the invention, the heating of the valve is performed by induction.

During the connection of the head to the shaft, a bias is created in the flat wall of the chamber forming it. the inner surface of the head plate, α in the central region of the head by pressing the shaft in the direction of its axis.

Screwing the head to the valve stem is a simple connection, with subsequent brazing fixing the head to the valve stem with sufficient strength to achieve a perfect seal between the head and valve stem connection. The bias that acts on the valve head plate prevents deformation of the valve head due to repeated bending stresses and allows the valve head to withstand the high impact pressures to which the valve is subjected during operation.

The solder used, for example, in the form of rings, can be placed simply in the valve head and / or the valve stem, before it is joined. The solder is then brought to fusion by feeding. heat to the connected valve. Induction heating has the advantage that heating takes place rapidly to a depth, i.e. into the threaded region where the solder rings are located. Thus, the method of manufacturing the valve utilizes very simple means which do not require too much working time and only represent the least number of working processes. This process therefore greatly simplifies the manufacture of chilled valves and eliminates any risk of releasing and escaping the cooling environment after a relatively long operating time, under the most severe operating conditions.

According to a further feature of the invention, during the screwing of the valve head onto the rod, a bias is applied to the inner surface of the valve head chamber corresponding to the valve head plate, in the central region of the surface, by pressure acting in the direction of the axis of the rod. This preload, which acts on the valve head plate, prevents the valve head from being deformed by repeated bending stresses and allows the valve head to withstand the high impact pressures to which the valve is subjected during operation.

The invention also relates to a circulation-cooled valve produced by the method according to the invention, characterized in that its rod is provided with a threaded portion near one of its ends, the head being provided in its neck-forming portion with an axial threaded opening which opens into a valve head chamber and into which the threaded zone of the valve rod is screwed, the threads of the threaded zone and the threaded bore having a predetermined clearance therebetween, and that the valve head and the valve rod are connected by soldering by solder which fills the gaps between them thread spacing.

1 is an axial sectional view of a valve according to the invention during its manufacture, prior to brazing; FIG. FIG. 2 shows the same axial section of a valve according to the invention, wherein the valve is shown in a final embodiment.

The drawing shows a valve 1 having a stem 2 provided with two coaxial channels 4 inside which are connected to a cooling circuit (not shown) and a screwed head which is provided with a chamber 6 inside.

³ , 202535

On the head 5 3 ^e there is a sealing ring zone J which, when the valve 1 is closed, comes into contact with a seat (not shown) in the cylinder head of the engine »

The head 5d ^{e is} provided in its neck portion 5a with an axial threaded bore 8 opening into the chamber 6. The threaded bore 2 of the stem 2 is screwed into this axial threaded bore 0 when the valve J is mounted. although they have the same pitches, they are not exactly complementary and have some will between them. The shank 2 is provided with an extension 10 beyond the threaded zone 2, the diameter of which is smaller than the diameter of the threaded zone 2, so that the extension 10 can pass through the axial threaded hole 8 and penetrate into the chamber 6. The extension 10 has several. four openings 21, 12 which serve to connect the ducts 1, 2 to the chamber 6. In addition, the extension 10 is of such a length that when the stem 2 is screwed into the valve head 5, i.e. before the edge edge 13 of the head 5 comes into contact with the shoulder 14 of the shaft 2, the end 10a of the extension 10 is supported on a flat surface 6a of the chamber 6 corresponding to the plate 5b of the head 5. bias, since it is a function of the amount of torque when screwing the shaft 2 into the head Near the edge head 13 of the head and the shoulder 14 of the shaft 2, grooves 25, 16 are provided for receiving the solder.

To fasten the head 5 ⁿ ® of the shaft 2, insert the solder rings 17 (FIG.) On the extension 10 of the shaft 2 and insert the solder rings 18 into the groove 15 of the head 5 or the groove 16 of the shank 2. Hyni screw the shaft 2 onto the head 5 so that the end 10a of the stem 10 extension 10 abuts against the wall 6a of the chamber 6, thereby ensuring sufficient pressure to exert a precoating plate 5b. which prevents later deformation due to the high pressures to which valve 2 is subjected during operation.

When the head 5 and the stem 2 have been joined together by screwing in and the head 5 is supported by the flat 6a of the chamber 6 to extend the 2θ of the stem 2, the valve 2 is subjected to local heating, e.g. by induction, so that the solder is melted 5 and the shaft 2, i.e. the gaps between the threads of the axial threaded hole 8 and the threaded zone 5, as well as the gaps between the edge row 13 and the shoulder 22 · P ° of cooling of the valve 2 has the form shown in FIG. that is, the head 5 ^{and the} stem 2 of the valve 2 are firmly joined together and perfectly sealed by a solder which completely fills any gaps.

The clearance between the turns can be determined by experiment, and this clearance is essentially dependent on the flowability of the solder, i.e., its properties and the temperature that is achieved during its melting. The bias discussed above should also be predetermined to prevent release or lift of the valve head plate 5 by thermal deformation, which release may cause the valve head plate 5a to impact on the valve stem 2 ^and cause coolant erosion due to the cooling environment.

The method according to the invention makes it possible to produce a valve cooled by the circulation of a cooling medium in a very simple and economical manner, the valve being formed from two parts which are rigidly connected together with perfect tightness and the valve head can practically not undergo any deformation. the end of his shaft.

Instead of heating the valve by induction, any other suitable local heating method may be used, in particular by means of a burner.

It goes without saying that the invention is by no means limited to the described embodiment, given by way of example only. In particular, other means constituting technical variations of the means described, as well as combinations thereof, may be used so long as they do not go beyond the spirit of the invention.

Claims (8)

OBJECT OF THE INVENTION A valve cooled by the circulation of a cooling medium for an internal combustion engine, the valve having a stem having an inlet and outlet duct for the cooling environment therein as well as a screwed head which is provided with a chamber connected to these ducts inside, characterized in that the stem (2) is provided near one end with a threaded band (9), while the head (5) is provided in the neck-forming portion (5a) with an axial threaded bore (8) which opens into the chamber (6) of the head (5) of the valve (1) ) and into which the threaded band (9) of the stem (2) of the valve (1) is screwed, the threads of the threaded zone (9) and the threaded bore (8) having a clearance and head (5) and valve stem (2). 1) are soldered together. Valve according to Claim 1, characterized in that the threaded zone (9) of the stem (2) is provided with at least one end a groove (16) for receiving the solder (17). Valve according to claim 1, characterized in that the axial threaded bore (8) of the head (5) is provided with at least one end a groove (15) for receiving the solder (18). Valve according to Claims 2 and 3, characterized in that the stem (2) has at its end provided with a threaded zone (9) an extension (10) penetrating into the chamber (6) of the head (5) and resting against its end (10a). o a flat wall (6a) of the valve chamber (6) forming the inner surface of the plate (5b) of the valve head (5). Valve according to Claim 4, characterized in that the extension (10) is provided with openings (11, 12) for connecting the channels (3, 4) arranged in the stem (2) to the chamber (6) of the valve head (5) . 6. A method according to claim 1, characterized in that solder is placed on the stem and / or on the valve head close to the threaded zone and after screwing the head onto the stem, the valve is subjected to local heating above the melting point of the solder. the weight of the joe gaps. 7. A method according to claim 6, wherein the valve is heated by induction. 8. A method according to claim 6, characterized in that during the connection of the head to the shank by screwing, a bias is created in the flat wall of the chamber forming the inner surface of the head plate and in the central region of the shaft by pressing the shank in its direction.