FR2522083A1 - JACK PROVIDED WITH A PISTON ROD, FOR PNEUMATIC OR HYDRAULIC PRESSURE FLUIDS, AND METHOD FOR MANUFACTURING SUCH A PISTON ROD - Google Patents

Abstract

A working cylinder for pneumatic or hydraulic pressure media, with a cylinder liner which is closed off at the ends by cylinder end walls or so-called cylinder lids and in which a reciprocating piston passing through one of the cylinder lids in a gas-tight manner and connected to a piston rod guided to the outside is mounted, a wiper ring and/or a sealing ring being arranged between the piston rod and this cylinder lid. Provision is made for at least the part of the piston rod (16) which is contained between the point which reaches approximately up to the cylinder lid (12) in the cylinder interior when the piston rod is fully extended and in any case lies in front of the sealing ring (28) and the point which reaches approximately up to the cylinder lid (12) outside the cylinder when the piston rod (16) is fully retracted and in any case lies in front of the wiper ring (33) to be sheathed by a protective casing (68) which is intimately connected to the piston rod and is made of a substance whose melting point is higher than the melting point of the welding spatter developing during the welding and can preferably consist of a chromium oxide or ceramic material.

Description

"V'ERIN PROVIDED WITH A PISTON ROD, FOR FLUIDS UNDER
PNEUMATIC5 OR HYDRAULIC PRESSURE, AND METHOD
FOR MANUFACTURING SUCH A PISTON ROD ''
The invention relates to a cylinder for pneumatic or hydraulic pressurized fluids, comprising a cylinder which is closed at its ends by end walls or bottoms and in which is mounted a piston movable in alternating translation, and provided with a piston rod which passes through one of the gas-tight seal bottoms and extends outside, a scraper ring and / or a seal ring being interposed between the piston rod and this bottom.

The cylinders of the kind mentioned at the beginning are used, for example also in what. calls the welding chains, for example, to control the feed movements of welding machines and welding devices or installations. However, here there is a drawback that the surface of the part of the piston rod which is outside the cylinder during movements deteriorates and becomes rough. Indeed, as is well known, during welding, weld spatter occurs which disperses in all directions, the temperature of which roughly corresponds to the welding temperature of the welded parts and the size of which can reach several millimeters.
given that the jack can be placed close to the welded part, it is not possible to exclude that the weld projections also fall on the piston rod movable in alternative translation and that, due to their high temperature, they do not damage the surface of the piston rod which normally has a surface roughness of 0.4 to 0.6 microns. Furthermore, the weld spatter can adhere to the surface of the piston rod. In both cases, there is inevitably rapid wear of the scraper rings or grooved rings which are mounted in the end wall of the cylinder. We must try to avoid this inconvenience. For this reason, it has already been proposed to enclose the piston rod in a bellows cuff, one end of which is connected to the bottom wall of the cylinder and the other end of which is connected. at the end of the piston rod located outside to protect the piston rod from welding projections. However, this leads to drawbacks relating to the handling and the possibilities of using the jack. Furthermore, this device is expensive.

 Taking as a basis the state of the art described above, the invention aims to improve a cylinder of the aforementioned kind so that the weld splashes which occur during welding do not damage the piston rod and that '' there can not be a solid bond between the weld splashes and the piston rod, without it being necessary for that to resort to expensive protective devices which could be detrimental to the handling and the implementation of the cylinder. Furthermore, the invention has set itself the aim of proposing a method of manufacturing a jack in which the piston rod cannot be damaged by weld spatter.

 The problem posed is solved by a jack of the aforementioned kind, by the fact that at least the part of the piston rod which is between the zone which, when the piston rod is fully extended, extends, to the inside the cylinder, approximately to the bottom of the cylinder and is in any case in front of the sealing ring and the area which, when the piston rod is fully retracted, extends, outside the cylinder, approximately to the bottom of the cylinder and is in any case in front of the scraper ring, is wrapped in a protective sheath tightly secured to the piston rod, which is composed of a material whose point is greater than the melting point of the projections that occur during welding.

 The method according to the invention for manufacturing a piston rod for an actuator consists in that, first of all the piston rod is manufactured at the desired dimensions from a baleen known per se, then in the region of the sheath protective sheath to be put in place, material is removed from the periphery of the pistan rod to a thickness which corresponds to the thickness of the protective sheath, then the layer of the protective sheath is put in place in the region where the material has has been removed, for example, by projection or possibly also by pressing and, finally, a finishing machining is carried out by grinding on the external surface of the protective sheath and, possibly, also on that of the remaining part of said piston rod .

 A cylinder is therefore obtained which does not comprise any additional parts or components such as bellows cuffs, which would be detrimental to its use, the piston rod of which is made of a suitable material to exclude any solid connection between the weld projections. and the piston rod, since the temperature of the weld spatter, which is about 1300 to 14000C, is "too low", compared to the melting point of the material which forms the surface of the piston rod, the melting point which is advantageously chosen at a level several hundred degrees Cslsius higher than this temperature.

 The principle of the invention offers several possibilities of implementation in the sense that the part considered is produced in the form of a protective sheath of the piston rod, the thickness of the protective sheath of the piston rod possibly reaching approximately 0 , 2 to 3 mm. Here, the protective sheath can be produced in the form of a layer deposited on the piston rod, which can be produced, for example by pressing or by projection: however, it can also be produced by the fact that it is constituted by a cylindrical tubular sheath which surrounds the piston rod without play.

It has proven advantageous to make the sheath
protective chromium oxide or ceramic that we
polishes after application to the piston rod, to
achieve a surface roughness of the protective sheath
approximately 0.3 to 0.9 microns, preferably 0.5 microns,
as usual in the case of the stems of
uncoated pistons.

In the manufacture of the protective sheath of the
piston rod with a much higher melting point
higher than the melting point of known piston rods,
we can proceed as follows: we make everything
first the piston rod at the desired dimensions so
known per se; then, in the region of the protective sheath to be deposited, material is removed on the periphery
rie of the piston rod, on a thickness which corresponds
to the thickness of the protective sheath and then
applies the layer of protective material, for example
by projection or, possibly also, by pressing,
in the area where the material was removed and ultimately
we carry out a finishing machining by grinding on the
outer surface of the protective sheath and, optionally,
also on that of the remaining part of the rod
piston.

The invention will be described in more detail in
below, about an example of implementation and refer
reference to the accompanying drawing, the single figure of which is a view
in axial section of a double-acting cylinder whose rod
piston has a protective sheath made of a material which has a high melting point.

The drawing shows a double-acting cylinder for fluids
under pneumatic or hydraulic pressure, which is essen
partly composed of a cylinder (10) which is closed at its
ends by end walls or bottoms (12,14),
In the cylinder (10) is mounted a piston movable in trans
alternative lation and connected to a piston rod (16).

In the bottom (12) is formed an axial opening (24)
in which the piston rod is mounted movable in trans
lation in the direction of the double arrow (22). The axial opening (24) of the bottom (12) has, towards the outside, a diameter enlargement (26) in which are arranged a sealing ring (28), a guide ring (30) and, in the region of the axial end of the bottom (12), a scraper ring (32). In this way, it is guaranteed that the piston rod (16) passes through the bottom (12) with gas-tight seal. This result is ensured by the sealing ring (28), produced in the form of a double lip seal. The guide ring (30) is provided to guide the piston rod (16) in the bottom (12) and the scraper ring (32) is intended to keep the piston rod (16) sufficiently clean when it enters the In this way, the sealing ring (28) is protected from deterioration which could result from a lack of cleanliness of the piston rod. The two bottoms (12,14) of the cylinder have compressed air connections (36,38) and relief valves (40,42), known per se. The left end of the piston rod (16) which is shown in the drawing has a reduction in diameter and is provided with a sleeve (54) which carries known sealing rings (48.50) per se, so that an adjustable damping of the piston (18) can be obtained. This construction method is also known, so that we will not go into more detail.

The right end of the piston rod (16) shown in the drawing has a connecting element (60) which is intended to establish the connection with the welding device not shown or with the components to be welded.

 The part (64) of the piston rod (16) which penetrates into the bottom (12) and leaves it, is coated by a protective sheath (68), composed of a material whose melting point is higher than the melting point of the weld spatter formed during welding. In this way, the melting point of this part (64) is higher than the melting point of traditional piston rods. In this exemplary embodiment, the part (64) of the piston rod (16) which is coated with the protective sheath (68) is produced by a layer which can be formed by pressing or by projection. It is approximately Imm. In general, the thickness of the protective sheath (68) is determined by the diameter of the piston rod (16); it can have a value between 0.2 and 3 mm.

For the production of the protective sheath (68), the procedure is as follows: first of all, the piston rod (16) is manufactured at the desired dimensions, in a manner known per se; then, in the region of the protective sheath to be put in place, the material is removed from the periphery of the piston rod, to a thickness which corresponds to the thickness of the protective sheath; then, the layer of the protective sheath is put in place, for example by projection or, possibly, by pressing, in the region where the material has been removed and, finally, a finishing machining is carried out by grinding on the surface external of the protective sheath and, possibly, also on that 'due the remaining part of the piston rod (16). As the suitable material for this application, chromium oxide or a ceramic material can be used.
In the case of piston rods whose diameter reaches only a few millimeters, the protective sheath (68) can be manufactured from a prefabricated cylindrical tubular sheath; in these cases, the entire part (64) can even be made of a material whose melting point has the desired high level.

 A piston rod (16) provided with a protective sheath (68) is indistinguishable from a known piston rod.

 For the use of the cylinder according to the invention, a connection is established between the cylinder and the welding device or else between the cylinder and the element to be welded, by means of the connection element (60). The piston rod (16) is actuated by sending compressed air into the two fittings (36,38). During the welding operation, the weld splashes which fall on the piston rod (16) rebound on this piston rod (16), so that no solid bond can be established between the splashes of weld and the piston rod (16). This results from the fact that the temperature of the weld projections is too low to heat the protective sheath (68) of the piston rod (16), to a level sufficient to allow the establishment of a fixing due to its melting, this sheath being, for example, constituted by a ceramic material. The temperature of the weld spatter is also too low to damage the surface of a coated piston rod. In this way, when it penetrates through the bottom (12) or leaves it, the piston rod according to the invention behaves in the same way as if no weld projection had fallen on this rod.

Claims (8)

 1. Cylinder for pneumatic or hydraulic pressurized fluids, comprising a cylinder which is closed at its ends by end walls or bottoms and in which is mounted, movable in alternative translation, a piston integral with a piston rod which crosses the bottom with watertight seal and extends outside, a scraper ring and / or a sealing ring being interposed between the piston rod and the base considered, characterized in that at least the part of the piston rod (16 ) 'what is between the zone which, when the piston rod is fully extended, extends inside the cylinder, approximately to the bottom (12) and is in any case in front of the sealing ring (28) and the area which, when the piston rod (16) is fully retracted, extends outside the cylinder, approximately to the bottom (12) and is located in all the cases in front of the scraper ring (32), is surrounded by a protective sheath (68) tightly secured piston rod, which is made of a material whose melting point is higher than the melting point of the weld spatter produced during welding.  2. Uterine according to claim 1, characterized in that the thickness of the protective sheath (68) of the piston rod (16) is approximately 0.2 to 3 mm.  3. Cylinder according to one of claims 1 and 2, charac terized in that the surface roughness of the protective sheath (68) is about 0.3 to 0.9 microns, preferably 0.5 microns.  4. Cylinder according to any one of claims 7 to 3, characterized in that the protective sheath (68) is composed of chromium oxide.  5. Cylinder according to any one of claims 1 to 3, characterized in that the protective sheath (68) is made of a ceramic material.  6. Cylinder according to any one of claims 1 to 5, characterized in that the protective sheath (68) is a cylindrical tubular sheath which surrounds the piston rod (16) without play.  7 uterine according to any one of claims 1 to 5, characterized in that the sheath (68) is a layer deposited on the piston rod (16), which can be made by pressing or spraying.  8. A method of manufacturing a piston rod for a cylinder according to any one of claims 1 to 7, characterized in that, first of all, the piston rod is manufactured at the desired dimensions in a manner known in itself, then, in the region of the protective sheath to be put in place, material is removed from the periphery of the piston rod, to a thickness which corresponds to the thickness of the protective sheath, then the layer of the protective sheath in place in the region where the material has been removed, for example by projection or, optionally, by pressing and, finally, nn performs a finishing machining by grinding on the external surface of the protective sheath and, possibly also on that of the remaining part of the piston rod.