FR3097561A1 - Device for depositing a coating for the manufacture of a valve seat - Google Patents

Abstract

The invention relates to a device (1) for depositing a coating on a closed wall (21) of a cylinder head (2) delimiting an opening (14) intended to receive a valve in order to manufacture a seat (3). valve, said device having an elongated outlet nozzle (7) and capable of diffusing a material constituting the coating by means of at least one hot gas at very high speed. According to the invention, the device comprises a means for rotating the nozzle (7) allowing said nozzle (7) to perform at least once a 360 ° rotary movement in order to deposit the coating on the whole of said wall (11). Figure for the abstract: Fig. 1

Description

DEVICE FOR DEPOSITING A COATING FOR THE MANUFACTURE OF A VALVE SEAT

The invention relates to a device for depositing a coating for the manufacture of a valve seat.

A cylinder head of a vehicle engine generally comprises a plurality of housings each intended to receive a valve. In order to manufacture valve seats, it is planned to deposit, by means of a device having a nozzle, a coating on the wall delimiting each of these housings. These housings have a circular opening and the wall delimiting each of these openings is of frustoconical shape. The coating must therefore be deposited on a closed frustoconical band, namely over 360°. It is important to note that the deposition of the coating is carried out gradually from one opening to another, and not simultaneously around all the openings of the cylinder head. Indeed, a valve seat will first be created around an opening, then gradually around the other openings of the cylinder head.

Currently, certain methods implemented for carrying out the deposition of such a coating favor a fixed position of the nozzle and a 360° rotation of a support part of the cylinder head, in order to sweep the entire wall delimiting an opening.

Other processes are based on a fixed support part of the cylinder head, and on the activation of robots capable of handling the device for depositing the coating, so that it can cover the entire wall delimiting an opening.

However, these methods are complex to implement, are imprecise, are slow and lack flexibility, in particular to be able to easily and quickly adapt to different valve and/or cylinder head geometries.

A device according to the invention makes it possible to deposit a coating around the openings of a cylinder head to manufacture valve seats, while overcoming the drawbacks noted in the methods of the state of the art.

The subject of the invention is a device for depositing a coating on a closed wall of a cylinder head defining an opening intended to receive a valve in order to manufacture a valve seat, said device having an elongated outlet nozzle and capable of diffusing a constituent material of the coating by means of at least one hot gas at very high speed.

According to the invention, the device comprises means for rotating the nozzle allowing said nozzle to perform at least once a rotary movement over 360° in order to deposit the coating on the entirety of said wall. The nozzle is the element of the device through which the coating intended to constitute the seat of a valve on the cylinder head of an engine is diffused. The principle of a device according to the invention is to include a means for rotating the nozzle in order to allow it to pivot through at least 360°. In this way, assuming that the cylinder head remains in a fixed position, the nozzle can deposit the coating on the entire wall delimiting the opening, in order to develop a valve seat around an opening of said cylinder head. It is assumed that the cylinder head has a plurality of openings and that the deposition of the coating takes place first around an opening, then when the valve seat has been created around said opening, the cylinder head is moved to repeat the deposition operation around another opening, and so on. Advantageously, the rotation means is motorized in order to properly control the rotary movement of the nozzle. This rotation means can either be directly associated with the nozzle and cause the rotation of said nozzle alone, or be associated with the device and cause the rotation of the nozzle by means of a setting rotation of the device to which said nozzle is secured. Preferably, the device comprises metal particles and receives a pressurized gas which makes it possible to accelerate said particles at the nozzle outlet thanks to the particular shape of said nozzle. Preferably, the nozzle is fixed within the device. The nozzle can perform several successive rotations of 360°, in order to create the valve seat, after several passages.

According to a possible characteristic of the invention, the device comprises a hollow body provided with a heating element capable of heating said at least one gas and to which the nozzle is secured, the rotation element being capable of rotating said body. In this way, the rotation of the body generates a simultaneous rotation of the nozzle which is fixed to said body.

According to a possible characteristic of the invention, the body is cylindrical and the nozzle is inclined with respect to the axis of revolution of said body, the rotation element causing a rotation of the body around said axis. Thanks to this configuration, the rotation of the device is well controlled since it takes place around the axis of revolution of said body. Specifying that the nozzle is inclined with respect to the axis of revolution of the body means that the longitudinal axis of the nozzle and said axis of revolution are not parallel. In this way, the nozzle can for example make an angle of 10°, 45° or 90° with the axis of revolution of the body.

According to a possible characteristic of the invention, a longitudinal axis of the nozzle is inclined by 45° with respect to the axis of revolution of the body. Such a configuration of the device is particularly suitable for depositing a substance on a frustoconical wall of the cylinder head defining a circular opening.

According to a possible characteristic of the invention, the gas is high pressure nitrogen. This is an illustrative example particularly suitable for a device according to the invention, and not a limiting example.

According to a possible characteristic of the invention, the nozzle is a Laval nozzle. Such a nozzle makes it possible to accelerate the pressurized gas passing through it, and therefore the particles constituting the coating to be deposited.

According to a possible characteristic of the invention, the material constituting the coating is powdery and comprises steel particles, nickel alloy particles and copper particles. This is an illustrative and not limiting example of particles constituting the material to be deposited by means of a device according to the invention. A mixture of such particles makes it possible to manufacture valve seats that are robust and constant over time, while meeting the specific operating characteristics of a valve.

Another object of the invention is an apparatus capable of depositing a coating on a closed wall of a cylinder head defining an opening intended to receive a valve in order to manufacture a valve seat.

According to the invention, the apparatus comprises a deposition device in accordance with the invention, and a cylinder head support element whose position is fixed when the nozzle is rotated to deposit the coating. It is therefore sufficient to freeze the position of the support element carrying the cylinder head, in order to allow a device according to the invention to target a particular opening of said cylinder head, then to rotate the nozzle in order to deposit the coating around targeted opening. Once the seat has been built, the position of the support element carrying the cylinder head is modified in order to allow the device to target another opening, and so on. In an apparatus according to the invention, the cylinder head support element remains fixed, while the nozzle of the deposition device is rotated to deposit the coating all around the selected opening.

According to a possible characteristic of an apparatus according to the invention, the distance separating the deposition device and the support element is adjustable so as to adjust the distance separating one end of the nozzle through which the material constituting the coating is diffused and the wall of the cylinder head intended to receive said coating. Thus, the apparatus according to the invention is flexible in use, since it can be adapted to a particular cylinder head and/or valve geometry thanks to an adjustable distance between an opening of the valve and an outlet end of the nozzle.

Another object of the invention is a process for depositing a coating on a wall of a cylinder head delimiting an opening intended to receive a valve in order to manufacture a valve seat from an apparatus in accordance with the invention.

According to the invention, the method comprises the following steps,
-A step for adjusting the distance between the deposition device and the cylinder head support element, in order to adjust the distance separating the nozzle and the wall of the cylinder head delimiting the opening,
-A step of rotating the nozzle by means of rotating the body around its axis of revolution by means of an actuation of the rotating element,

A step of depositing the coating on the entire wall of the cylinder head delimiting the opening, to create the seat of the valve.

It can be considered that the coating is completely deposited after several 360° rotations of the nozzle.

A deposition device according to the invention has the advantage of operating with control and precision, while remaining of simple design. It also has the advantage of being of constant size compared to existing devices, while being more efficient than them.

A detailed description of a preferred embodiment of a deposition device according to the invention is given below, with reference to the following figures:

is a schematic side view of a deposition device according to the invention and of a support element supporting a cylinder head,

is a schematic and enlarged side view of a zone of FIG. 1 grouping together one end of the outlet nozzle of a device according to the invention, and of a yoke placed on a support element.

Referring to Figure 1, a device 1 for depositing a coating on a cylinder head 2 of a vehicle engine for the purpose of manufacturing a valve seat 3, schematically comprises a supply assembly 4, a body 5 and a tip 6 comprising a nozzle 7.

The supply assembly 4 comprises an inlet duct 8 for a mixture of powders, an inlet duct 9 for high pressure nitrogen, at least one inlet duct 10 for a cooling liquid and a joint turning 11, said assembly 4 being placed upstream of the body 5. The powder mixture is preferably composed of a steel powder, a powder of a hard nickel alloy and a copper powder. These three powders constitute the material which will be deposited on the cylinder head 2 in the form of a coating to obtain a valve seat by means of a device 1 according to the invention.

Body 5 of device 1 is hollow and is preferably cylindrical in shape. It therefore has an axis of revolution 12 and contains a nitrogen heating system 13 supplied by an electrical supply 40 included in the supply assembly 4. This body 5 is rotatably mounted around its axis of revolution 12, by through a motorized rotating means ensuring the rotation of said body 5 and controlling in particular its amplitude of rotation.

The inlet duct 8 for the powder mixture passes through the body 5 and part of the tip 6 until it emerges upstream of the nozzle 7 in an orifice of the latter. The powder leaving the inlet duct 8 can therefore only pass through the nozzle 7. The high pressure nitrogen, which has been previously heated in the body 5, will contribute to circulating the powder in the nozzle 7, whose geometry particular will accelerate said powder leaving said nozzle 7 at a very high speed.

The end piece 6 is a hollow part having a first rectilinear segment 15, extended by a second rectilinear segment 16 which is inclined with respect to said first segment 15. The cross section of the first segment 15 is at least twice as high as the cross section of the second segment 16 and corresponds to the cross section of the body 5. The second segment 16 ends in a cylindrical and widened flange 17, which is inclined with respect to a longitudinal axis of said second segment 16. The nozzle 7, which is a part elongated cylindrical shape originates at this collar 17 so that the axis of revolution of said collar 17 and the axis of revolution of said nozzle 7 coincide perfectly. Preferably, the first segment 15 and the second segment 16 are cylindrical in shape.

Advantageously the nozzle 7 is a Laval nozzle, having an internal channel of which an upstream part 18 is convergent and of which a downstream part 19 extending said upstream part 18 is divergent. The upstream part 18 materializes the orifice of the nozzle 7 into which the powder inlet channel 8 emerges. The upstream part 18 and the downstream part 19 extend in the same direction, the downstream part 19 being more elongated than the upstream part 18.

The tip 6 is fixed to the body 5, so that the first segment 15 of said tip 6 extends said body 5. In other words, the body 5 is extended by the first segment 15, which is itself extended by the second segment 16 , said second segment 16 ending in the nozzle 7. The second segment 16 extends parallel to the axis of revolution 12 of the body 5, being offset with respect to said axis 12, the first segment 15 and the nozzle 7 being inclined with respect to said second segment 16. Schematically, the end piece 6 is a U-shaped part. A longitudinal axis of the nozzle 7 preferably forms an angle of 45° with the axis of revolution 12 of the body 5.

A rotation of the body 5 about its axis of revolution 12 by means of the motorized rotary means, causes a simultaneous rotation of the endpiece 6 which is secured to said body 5, and therefore a simultaneous rotation of the nozzle 7 which is an integral part of said tip 6.

Referring to Figures 1 and 2, the yoke 2 is supported by a support member 20 which is separate from the device 1 deposit. In this way, the rotation of the deposition device 1 has no influence on the positioning of the support element 20 and vice versa. The support element 20 has an adjustable position, making it possible to adjust the position of the yoke 2 with respect to the deposition device 1. The yoke 2 schematically has several circular openings 14, each intended to receive a valve. Each opening 14 is associated with a valve guide 25 and is delimited by a frustoconical wall 21, intended to receive the coating diffused by the deposition device 1, in order to manufacture a seat 3 of the valve. Thanks to the adjustable position of the support element 20, it is possible to adjust the distance separating the end 23 of the nozzle 7 through which the coating will come out and the frustoconical wall 21 delimiting an opening 14 of the cylinder head 2 and intended to receive the coating.

A method for depositing a coating from a device 1 according to the invention comprises the following steps:
-A step of adjusting the position of the support element 20 in which the cylinder head 2 is placed, in order to adjust the distance between the end 23 of the nozzle 7 and the frustoconical wall 21 delimiting an opening 14 of the cylinder head 2 and intended to receive said coating,
-A step of rotating the body 5 of the device 1 about its axis of revolution 12 causing simultaneous rotation of the nozzle 7 which is secured to said body 5 via the tip 6. This step in rotation is carried out by means of an actuation of the rotation element.
-A step of depositing the coating on the frustoconical wall 21 of the cylinder head 2 delimiting the opening 14, to create a seat 22 of the valve. Indeed, when the nozzle 7 is rotated around the axis of revolution 12 of the body 5, the end 23 of said nozzle 7 will rotate through 360° so as to deposit the coating on the entire wall. tapered 21 delimiting the opening 14. The deposition of the coating will be effective after several 360° rotations of the nozzle 7.

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Claims (10)

Device (1) for depositing a coating on a closed wall (21) of a cylinder head (2) delimiting an opening (14) intended to receive a valve in order to manufacture a valve seat (3), said device having a elongated outlet nozzle (7) capable of diffusing a material constituting the coating by means of at least one hot gas at very high speed, characterized in that it comprises means for rotating the nozzle (7) allowing said nozzle (7) to perform at least once a rotary movement through 360° in order to deposit the coating on the entirety of said wall (11). Device according to Claim 1, characterized in that it comprises a hollow body (5) provided with a heating element (13) capable of heating the said at least one gas and to which the nozzle (7) is secured, and in that that the rotating element is capable of rotating said body (5). Device according to Claim 2, characterized in that the body (5) is cylindrical and the nozzle (7) is inclined with respect to the axis of revolution (12) of the said body (5), and in that the rotation causes a rotation of the body (5) around said axis (12). Device according to Claim 3, characterized in that a longitudinal axis of the nozzle (7) is inclined by 45° with respect to the axis of revolution (12) of the body (5). Device according to any one of Claims 1 to 4, characterized in that the gas is high pressure nitrogen. Device according to any one of Claims 1 to 5, characterized in that the nozzle (7) is a Laval nozzle. Device according to any one of Claims 1 to 6, characterized in that the material constituting the coating is pulverulent and comprises steel particles, nickel alloy particles and copper particles. Apparatus capable of depositing a coating on a closed wall (21) of a cylinder head (2) delimiting an opening (14) intended to receive a valve in order to manufacture a valve seat (3), characterized in that it comprises a deposition device (1) according to any one of claims 1 to 7 and a support element (20) of the yoke (2) whose position is fixed when the nozzle (7) is rotated to deposit the coating . Apparatus according to claim 8, characterized in that the distance separating the deposition device (1) and the support element (20) is adjustable so as to adjust the distance separating one end (23) of the nozzle (7) through which is diffused the material constituting the coating and the wall (21) of the cylinder head (2) intended to receive said coating. Method of depositing a coating on a wall (21) of a cylinder head (2) delimiting an opening (14) intended to receive a valve in order to manufacture a valve seat (3) from an apparatus in accordance with any one of claims 8 or 9, characterized in that it comprises the following steps,
-A step of adjusting the distance between the deposition device (1) and the support element (20) of the yoke in order to adjust the distance separating the nozzle (7) and the wall (21) of the yoke (2 ) delimiting the opening (14),
-A step of rotating the nozzle (7) by means of rotating the body (5) about its axis of revolution (12) by means of an actuation of the setting element spin,
-A step of depositing the coating on the entire wall (21) of the cylinder head (2) delimiting the opening (14), to create the seat (3) of the valve.