FR2979137A1 - Dismountable sliding connection for replacing equipment in network of irremovable piping, has connecting assembly fixed at end of connecting part by screwing sleeve, and gasket attached with nozzle type threaded nipple - Google Patents

Abstract

The connection (RI) has a connecting assembly (ERF) fixed at an end of a connecting part by screwing a sleeve, where forms and dimensions of the connection compensate the differences in dimensions between a to-be replaced equipment i.e. solenoid valve, (EV) and a replacement equipment of a network of an irremovable piping (8). A gasket is attached with a nozzle type threaded nipple (EM). Another end of the connecting part is fixed with a sliding connection (ERC) by an O- shaped compressing ring that is attached to the irremovable piping.

Description

s>, \ 2979137 1 REMOVABLE SLIDING CONNECTOR FOR THE REPLACEMENT OF NETWORK EQUIPMENT OF INAMOVIBLE PIPES.

Liquid conducting piping systems are now used in a wide variety of sectors such as, for example; petrochemistry, cryogenics, chemistry, industrial hydraulics, agriculture, agri-food, environment etc.

In addition to the fact that the present invention may find application in one or more sectors of activity, it is particularly oriented towards the environment sector and particularly that of the irrigation of medium and large areas. In this sector of activity research has led to the creation of numerous products or devices whose primary objective was to facilitate the construction of networks but rarely their monitoring, maintenance and maintenance. It is known that the construction of networks of pipes conducting liquids inevitably involves numerous assembly points on the one hand between the pipes themselves and on the other hand between the pipes and certain equipment such as pumps, solenoid valves, taps, filters etc. It is also known that in the majority of irrigation installations, as in most liquid conveyor systems, if the pipes of these installations are most often assembled together by permanent connections and therefore not removable, they are attached to the equipment. the network by means of removable connectors, to allow the replacement of defective equipment. It is also noted in a large part of the installations that once the network is built and the various equipment assembled, the pipe circuit is fixed firmly to avoid any movement or vibrations during application.

In the irrigation and watering sector, most of the piping installations are buried in their entirety, leaving the equipment likely to be dismantled or replaced accessible through very limited and non-evolutive manholes, that is to say of which said dimensions can be modified.

Such conditions make it very difficult for the personnel in charge of the control and maintenance of the networks, in particular for the replacement of defective equipment in a hydraulic circuit whose pipes have been made irremovable by fixing or planting.

Some existing installations or parts of installations have been specially designed to allow the "interchangeability" of certain equipment such as solenoid valves, pumps, filters, manual valves, etc. The "interchangeability" of a defective equipment means the withdrawal equipment that has become non-functional and provides identical equipment, the same reference, the same dimensions, the same size and therefore the same wheelbase if "interchangeability" implies permutation of a defective element with an identical element, the "replacement" involves the removal of a defective element to put in the same place a different element This feature has a certain importance for the understanding of the present invention. This intervention allows the replacement of elements of a circuit and not just the interchangeability of these elements. "Interchangeability" is certainly of commercial interest for the equipment manufacturers because it forces the user of the installation to the fidelity but one can not say the same of the replacement which leaves the choice of the equipment to reintroduce in the circuit When we know, for example, that large and medium surface watering installations are often in use for several years or decades, we can easily understand the interest of "replacement" compared to "interchangeability". .

Indeed, some models, some brands or references disappear from the market over time and become impossible to find in the trade. The removable sliding coupling of the present invention is intended to greatly facilitate the "replacement" of one or more equipment of an existing circuit by one or more different equipment and this in a fixed and irremovable network in a confined and non-evolving.

It significantly improves the maintenance and repair operations of a stationary and irremovable liquid transport network and therefore considerably simplifies the task of operators.

The removable sliding coupling of the present invention makes it possible, for example, to very easily disconnect a solenoid valve in a buried installation, to extract it from the circuit and replace it with another solenoid valve of different dimensions, without constraining, folding or deforming the piping, without to have to intervene on this one and that inside even a confined look, to the dimensions not modifiable.

If we consider such an application for a better understanding of the invention, it is important to know that today, a distributor of irrigation water circuits, that it is free of access on a vertical wall, inside a cabinet or buried, is most often constituted by a main fixed and non-removable power supply more commonly known as "clarinet", serving several mouths to which are most often secured in a fixed manner and by means of end caps threads and nuts, the inlet ports of the solenoid valves managing the water flows. At the other end of each of the solenoid valves, on the piping circuit side, the outlet orifice is connected to a pipe that is most often rigid, buried and irremovable, by means of standard compression fittings of the trade whose operation is based as its the name indicates the compression of a ring for example ring, most often under the effect of a spacer and a clamping ring. When disassembling one or the other of the solenoid valves on such a circuit, after having loosened the connection of the solenoid valve inlet to the supply (clarinet) and the nut of the compression fitting of the outlet connection from the solenoid valve to the pipe of the circuit, it remains very difficult to disengage the end of the piping from the inside of the body of the compression fitting, to finally remove the solenoid valve to be replaced. This operation often leads to stress distortion of the circuit piping with a risk of bending, cracking and subsequent leakage. It is on this first precise point that the present invention comes into play.

Once the faulty solenoid valve is removed from the circuit, it must be replaced. The operation is now possible only if the solenoid valve to take the place of the defective solenoid valve is the same type, same reference and has the same dimensions and wheelbase.

Otherwise, if the wheelbase of the new solenoid valve differs more or less from the wheelbase of the solenoid valve removed, the connection of the new equipment would be impossible without direct intervention on the piping and its geometry. For example, if the solenoid valve to be installed is of a wheelbase smaller than that of the removed solenoid valve, the connection on the "Clarinet" supply being fixed and the piping impossible to move, the connection on the piping side would become hazardous and would not guarantee plus a good seal and secure assembly. Solving such a problem however very common, would lead the operator to "tinkering" both on the connections at both ends of the solenoid valve on the tightening and positioning of the corresponding respective nuts.

It is on this second specific point that the present invention comes into play. Most current installations of this type using standard compression fittings, require to obtain a sufficient seal the use of teflon film or the tow wound on each of the threads before tightening. Despite the effectiveness of these means used for many years, the operation itself consisting of the establishment of Teflon and the filasse remains delicate and requires care and attention. The removable sliding coupling of the present invention uses in its design O-rings or flat most often rubber or any other material compatible with the liquid transported.

On this point also the present invention provides a significant improvement in the connections and the conditions of their realization. The use of standard compression fittings on existing circuits at the circuit piping connection to one of the solenoid valve outlets requires some experience from the operators and particular care in tightening the nuts. of these connections. Indeed the technique used in this type of connection, based on the compression of an O-ring by a spacer under the effect of a clamping ring and a nut is not questionable in its effectiveness but used in this particular application can lead to a local crushing of the pipe if the clamping force is too great On this point, the removable sliding coupling of the invention provides an obvious improvement, because the ground idarization of the connector of the invention on the nipple tip mounted on the outlet of the solenoid valve is effected by means of a screwing ferrule intervening beyond the end of the pipe of the circuit The removable sliding coupling of the invention has the particularity of proposing to each of its two ends a different connection method Indeed, one of its ends has a method of connection by screwing a ferrule on a fixed tip such as a nipple tip, the other end has it a compression pipe connection of an O-ring, spacer and clamping ring. The two connectable ends are separated by an available cylindrical volume intended to allow the sliding of the pipe according to the wheelbase differences of the connected elements. This feature therefore allows the mounting of the removable sliding connection of the invention in several configurations such as for example: only the connection of the solenoid valve outlets on the pipe, only the connection of the solenoid valve inputs on the "Clarinet" supply provided themselves previously piping and connection of the solenoid valve outlets on piping and solenoid valves on "clarinet" supply previously equipped with piping. The universal character of the removable sliding coupling of the invention allows the grouping of all the elements constituting a head-end, in a single environment such as for example a pre-installed box, in order to facilitate the implementation by profane operators in matters Automatic watering of medium or large areas.

The present invention aims to provide a solution to the problems hitherto encountered by installers and repairers of hydraulic circuits, during their interventions requiring the replacement of a circuit equipment, that is to say: replacing the equipment of a hydraulic circuit easier. - Secure the piping when replacing equipment. - Allow the replacement of equipment with different equipment, regardless of its shape and size. Secure the connections and reinforce the tightness of the connections. The present invention relates to a dismountable sliding coupling preferably hydraulic consisting of six independent elements and cooperating with each other: a) A connecting body, b) A screw-in ferrule, c) An O-ring, d) A support spacer, e ) A clamping ring, A tightening nut. According to the preferred embodiment of the invention, the connecting body is preferably of cylindrical shape and mainly consists of a one-piece tube, metal, plastic or any other material, of dimensions compatible with the sector of application to which it relates. It has at one of its two ends a peripheral collar having two functions: a first function consisting of the outside of the coupling body to receive and retain the screwing ring which allows, by relying on said collar, the clamping of the connecting body on a threaded end and on the other hand constitute inside the connecting body a longitudinal displacement stopper of the pipe of the circuit II has at the other of its two ends, a portion constituted by an increase in its diameter externally, threaded internally and preferably arranged externally to facilitate manual gripping or with tool during screwing. At the bottom of the internal thread of this part of the coupling body, a peripheral groove is made so as to receive in bearing and with some compression the O-ring connection of the invention. According to the preferred embodiment of the invention, the screwing ring is preferably of cylindrical shape and mainly consists of a single piece, made for example of metal, plastic or any other material. It has an internal thread of the type of threads usually used in terms of liquid circuit connections and dimensions compatible with the assembly and functionality of the connector of the invention. Said screwing collar is intended to cooperate with the coupling body so as to apply a force on the peripheral collar of said coupling body and thus allow the connection body to be secured, for example with the corresponding mouth of the circuit supply. (clarinet) or for example with one or the other of the inlet or outlet ports of the solenoid valve, previously provided with a threaded tip hereinafter referred to as "nipple tip". It is preferably associated with a reported flat seal before tightening on "nipple tip". According to the preferred embodiment of the invention, the O-ring is of a standard model and made of a material compatible with the liquid transported in the circuit Sa section and its other dimensions are such that they ensure the tightness of the connection of the invention when it is positioned in a functional situation. The O-ring is mounted in such a way that its inside diameter is in contact with the outer peripheral wall of the pipe of the circuit and placed between on the one hand the connecting body and on the other hand the support spacer. It is defined so as to ensure the sealing of the removable sliding coupling of the invention by coming to be in slight compression when tightening the removable sliding coupling of the invention, in the groove located at the bottom of the thread of the inner threaded portion connecting body. According to the preferred embodiment of the invention, the support spacer is a ring formed in one piece, made for example of metal, plastic or any other material. It is placed around the pipe of the circuit so that its inner diameter slides freely along the outer peripheral wall of the pipe, between on the one hand the clamping ring and on the other hand the O-ring. It is cylindrical and of square or rectangular geometrical section, so as to have a planar bearing surface sufficient to push and compress the O-ring at the bottom of the peripheral groove of the inner threaded portion of the coupling body, under the pressure on the other of its two active faces of the clamping ring of the removable sliding coupling of the invention.

According to the preferred embodiment of the invention, the clamping ring is preferably of cylindrical shape and of conical section operatively compatible with the clamping nut of the connector of the invention. It is of low height and mainly consists of a single piece, made for example of metal, plastic or any other material. It is usually split axially over its entire height to give it some elasticity when tightening the connector of the invention. It is placed around the pipe of the circuit so that its inner diameter slides freely on the outer peripheral wall of the pipe and between on the one hand the clamping nut and on the other hand the support spacer, of such so that its conical part is oriented towards the tightening nut. Its dimensions are compatible with the functionality of the connector of the invention and its function is to apply through its largest flat face, a pressure on the support spacer consecutive to the force applied on its peripheral wall conical by the clamping nut of the removable sliding coupling of the invention. It has on its inner peripheral plane roughness shaped, number and dimensions sufficient to allow its attachment in the material of the pipe of the circuit and thus cause the immobilization of the removable sliding coupling of the invention on the pipe of the circuit at the end of Tightening.

According to the preferred embodiment of the invention, the clamping nut is preferably of cylindrical shape and mainly consists of a single piece, made for example of metal, plastic or any other material. It has a through interior bore for passing freely the pipe of the circuit and two active parts, a first portion provided with an external thread of definition, shape and dimensions compatible and capable of cooperating with the internal thread of the body of connection and a second portion for gripping and preferably arranged to facilitate manual tightening or using tools. It has at the end of its inner bore and the end side of its thread, a conical bore of shape and dimensions functionally compatible with the conical portion of the clamping ring.

Placed around the pipe of the circuit, its threaded portion penetrates inside the internal thread of the coupling body and screwing a force on the conical plane of the clamping ring.

According to the preferred embodiment of the invention, the removable sliding connector has at each of its two ends, a different connection mode For example at one of its ends a fixed connection consisting of the screwing ferrule cooperating with a threaded end of type "nipple tip" and at the other end thereof a sliding connection formed by the compression assembly of an O-ring cooperating with a hydraulic circuit pipe. According to the preferred embodiment of the invention, the removable sliding connection of the present invention is constituted by the assembly of the six independent elements that compose it so as to constitute a single assembly usable in such a configuration. The dismountable sliding connector of the invention thus assembled is threaded onto the pipe of the circuit and slides on it until the end of the pipe of the circuit comes into abutment on the inner flange of the coupling body. It is then moved in the opposite direction and slides freely and without obstacle on the outer peripheral wall of the pipe of the circuit until the screwing ferrule comes into contact with the nipple tip equipping one or other of the outputs of the equipment to be connected, such as a solenoid valve. The tightening ferrule of the removable sliding coupling of the invention is then tightened on the nipple tip and the clamping nut of the coupling is tightened in turn to seal and immobilize the sliding coupling on the pipe of the circuit. According to the preferred embodiment of the invention, besides the fact that the nipple tips on the outlets of the solenoid valve could be associated with O-rings, the installation of the removable sliding coupling of the invention reduces or annihilates the use of teflon or tow to guarantee the tightness of the connections. Indeed, the installation of the removable sliding coupling of the invention is on one side by a joint for example flat associated with a movable shell or ferrule screwing and the other side by the compression of an O-ring between a support spacer, a clamping ring and a clamping nut, which guarantees an effective seal. According to the preferred embodiment of the invention in the example of mounting a solenoid valve equipment, the inlet orifice of the solenoid valve is secured in a fixed manner to the mouth of the "clarinet" supply previously provided a nipple tip and a movable ferrule. The removable sliding coupling of the invention ensures the connection of the outlet orifice of the solenoid valve to the pipe of the circuit. The introduction of the removable sliding coupling of the invention is carried out firstly by threading said previously loosened fitting onto the pipe. end of the pipe of the circuit until the end of said pipe comes into abutment on the inner peripheral collar at the bottom of the coupling body. Secondly, the removable sliding coupling of the invention is slid over the pipe in the opposite direction until its screwing collar comes into contact with the nipple tip previously placed in the outlet orifice of the solenoid valve. from this operation, the irremovable pipe of the circuit remains fixed inside the coupling body which moves to position itself according to the wheelbase of the solenoid valve. The tightening ferrule is then tightened on the nipple tip of the solenoid outlet orifice preferably associated with a flat O-ring and the tightening nut of the fitting is then tightened in turn to achieve the seal and the immobilization of the removable sliding coupling of the invention on the pipe of the circuit Once the O-ring is placed and compressed in the groove of the thread bottom of the coupling body by the spacer and the clamping ring, the asperities located on the wall inner periphery of the clamping ring penetrate the outer peripheral surface of the tube of the circuit by elasticity and thereby lock the assembly of the removable sliding connector of the invention in its position. According to another embodiment of the invention in the example of mounting a solenoid valve equipment, the inlet orifice of the solenoid valve is slidably secured to the mouth of the "clarinet" supply previously provided with an extension pipe and the outlet orifice of the solenoid valve equipped with a nipple tip is fixedly secured to the pipe of the circuit by means of a movable shell.

The removable sliding coupling of the invention ensures the connection of the inlet of the solenoid valve to the extension pipe of the "clarinet" supply. The introduction of the removable sliding connection of the invention is then carried out first by threading said previously loosened fitting on the end of the extension pipe of the mouth of the "clarinet" supply until the end said pipe comes into abutment on the inner peripheral collar at the bottom of the coupling body. Secondly, the removable sliding coupling of the invention is slid in the opposite direction until the screwing collar comes into contact with the nipple tip placed beforehand on the inlet orifice of the solenoid valve.

During this operation, the irremovable extension hose of the supply remains fixed inside the connecting body which moves to position itself according to the wheelbase of the solenoid valve. The screwing collar preferably provided with a flat gasket, is then clamped on the nipple tip of the solenoid valve and the clamping nut is tightened in turn to seal and immobilize the removable sliding connection of the solenoid valve. invention on the hose extension of the power supply. Once the O-ring is placed and compressed in the groove of the thread bottom of the coupling body by the spacer and the clamping ring, the asperities on the inner peripheral wall of the clamping ring penetrate into the outer peripheral surface of the tube. extension of the "clarinet" supply by elasticity and thus lock all of the removable sliding connector of the invention in its position. According to another embodiment different from the invention, in the example of mounting a solenoid valve equipment, the inlet orifice and the outlet orifice of the solenoid valve are both equipped with a sliding connection. dismountable of the invention. The removable sliding coupling of the invention ensures the connection of the inlet port of the solenoid valve equipped with a nipple tip to the extension pipe of the mouth of the "clarinet" supply. The introduction of the removable sliding connection of the invention at this point is then carried out first by threading the sliding connection on the extension pipe of the "clarinet" supply until the end of this extension pipe comes abutting on the inner flange of the bottom of the coupling body and secondly by sliding the sliding coupling in the opposite direction until the screwing ferrule of the sliding coupling comes into contact with the nipple end of the orifice input of the solenoid valve. During this operation, the irremovable extension hose of the supply remains fixed inside the connecting body which moves to position itself according to the wheelbase of the solenoid valve. The removable sliding coupling of the invention also ensures the connection of the outlet orifice of the solenoid valve equipped with a nipple tip to the pipe of the circuit. The establishment of the removable sliding coupling of the invention at this point is then operated. firstly by threading the sliding coupling onto the pipe of the circuit until the end of this pipe comes to a stop on the inner flange of the bottom of the coupling body and secondly by sliding the sliding coupling on the pipe of the circuit in the opposite direction until the screwing ferrule of the sliding connection comes into contact with the nipple tip of the outlet orifice of the solenoid valve.

During this operation, the pipe of the immovable circuit remains fixed inside the coupling body which moves to position itself according to the wheelbase of the solenoid valve. According to a different embodiment of the invention, the various elements forming part of a liquid carrier network distributor using the removable sliding coupling of the invention, for example: "clarinet" supply, extension pipes, removable sliding fittings , nipple tips, solenoid valves and circuit tubes, are grouped together in a single box, for example supplemented by the addition of other accessories or additional fittings, so as to offer the professional or individual user, a only pre-assembled cabinet allowing easy and quick replacement of equipment (eg solenoid valves), whatever their type, model, reference, wheelbase, etc. The use of such a box ready to be used can be optimized by adding for example quick connectors to the outputs of the circuit hoses or to one or the other or both accesses the "clarinet" food, Congregate electrical connectors, son passages etc ...

The following description with reference to the accompanying drawings by way of non-limiting examples will make it possible to understand how the invention can be put into practice. Figure 1 is a perspective view of the removable slide fitting of the invention ready for use. FIG. 2 is a sectional view of the dismountable sliding coupling of the invention mounted on a circuit pipe and showing the six elements composing it. FIG. 3 is a sectional view of the dismountable sliding coupling of the invention installed and tightened on a pipe of FIG. circuit Figure 4 shows the connection of a circuit pipe to a solenoid valve equipped with a nipple tip, by means of the removable sliding connection of the invention.

Fig. 5a shows the first operation of mounting the dismountable sliding coupling of the invention of threading the fitting onto a circuit pipe. Fig. 5b shows the second operation of mounting the dismountable sliding coupling of the invention of moving the coupling towards the nipple tip of a solenoid valve. FIG. 6 is a view of two parallel circuits of a network, each equipped with a different solenoid valve connected to a pipe of the circuit by means of the removable sliding coupling of the invention, showing the damping by said coupling of the difference of the wheelbase of the solenoid valves. FIG. 7 shows the connection of two different solenoid valves on the extension tubes of the "clarinet" supply by means of the removable sliding coupling of the invention. FIG. 8 shows the connection of two solenoid valves of different dimensions to the supply ( clarinet) and to the circuit pipes, by means of two removable sliding couplings of the invention.

Figure 9 shows an example of a box ready to be connected comprising all the pipes, equipment and removable sliding connections of the invention. The present invention relates to a removable hydraulic coupling preferably consisting of six independent elements and cooperating with each other: A connecting body (1), h) A screwing ferrule (2), i) An O-ring (3), j) Support spacer (4), k) Clamping ring (5), I) Clamping nut (6). According to the preferred embodiment of the invention, the removable sliding connection of the invention (RI) is formed at each end of different connection modes. For example, at one of its ends, the clamping collar (2) preferably equipped with a flat seal (12) constitutes a fixed connection assembly (ERF) cooperating most often with a threaded endpiece hereinafter referred to as "nipple tip ". At the other end, the O-ring (3), the supporting spacer (4), the clamping ring (5) and the clamping nut (6) together constitute a sliding connection assembly (ERC ) cooperating most often with a pipe of the network.

According to the preferred embodiment of the invention, the connecting body (1) is preferably of cylindrical shape and mainly consists of a one-piece tube, metal, plastic or any other material, of dimensions compatible with the area of application to which it relates. It has at one of its two ends a peripheral collar (7) having two functions: a first function of receiving outside the connection body (1), the screwing ferrule (2) which allows the tightening of the body of fitting (1) on a threaded end and, on the other hand, forming inside the connecting body (1) a longitudinal displacement stop of the circuit pipe (8).

It presents at the other of its two ends, a portion constituted by an increase in its outer diameter, threaded internally and preferably arranged externally to facilitate manual gripping or with a tool during screwing. At the bottom of the internal thread of this part of the coupling body (1), a peripheral groove (9) is formed so as to support the O-ring (3) of the connection of the invention (RI) in compression and with some compression. . (See FIG 2). According to the preferred embodiment of the invention, the screwing ferrule (2) is preferably of cylindrical shape and consists mainly of a single piece, made for example of metal, plastic or any other material. It has an internal thread of the type of threads usually used in terms of liquid circuit connections and dimensions compatible with the assembly and functionality of the connector of the invention (RI). Said screwing ferrule (2) is intended to cooperate with the connecting body (1) so as to apply a force on the peripheral flange (7) of said connecting body (1) and thus allow the joining body (1 ) for example with the corresponding mouth of the power supply (clarinet) of the circuit (AC) or for example with one or other of the inlet (13) or outlet (10) ports of the solenoid valve (EV) , previously provided with a threaded tip (EM) hereinafter referred to as "Nipple Tip". The screwing ferrule (2) is preferably provided with a flat gasket (12) at the bottom of the thread to reinforce the tightness of the connection (See FIG 2, 4). According to the preferred embodiment of the invention, the O-ring (3) is of a standard model and made of a material compatible with the liquid transported in the circuit Sa section and its other dimensions are such that they guarantee the sealing of the connection of the invention (RI) when it is positioned in a functional situation. The O-ring (3) is mounted in such a way that its inside diameter is in contact with the outer peripheral wall of the circuit pipe (8) and placed between the coupling body (1) and the coupling element (1). support spacer (4). It is defined so as to guarantee the tightness of the removable sliding connection of the invention (RI) by coming to be in slight compression when tightening the removable sliding connection of the invention (RI), in the groove (9) located at the bottom of the thread of the inner threaded portion of the coupling body (1). (See FIG 2, 3). According to the preferred embodiment of the invention, the support spacer (4) is a ring formed in one piece, made for example of metal, plastic or any other material. It is placed around the circuit pipe (8) so that its inside diameter slides freely along the outer peripheral wall of the circuit pipe (8), between the clamping ring (5) and the clamping ring (5). the other is the O-ring (3). It is cylindrical and of square or rectangular geometrical section, so as to have a planar bearing surface sufficient to push and compress the O-ring (3) at the bottom of the peripheral groove (9) of the internal threaded portion of the coupling body (1), under the pressure on the other of its two active faces of the clamping ring (5) of the removable sliding coupling of the invention (RI). (See FIG 2, 3).

According to the preferred embodiment of the invention, the clamping ring (5) is preferably of cylindrical shape and of conical section operatively compatible with the clamping nut (6) of the connector of the invention (RI). It is of low height and mainly consists of a single piece, made for example of metal, plastic or any other material. It is most often split over its entire height to give it some elasticity when tightening the connection of the invention (RI). It is placed around the circuit pipe (8) so that its inner diameter slides freely on the outer peripheral wall of the circuit pipe (8) and between the clamping nut (6) and the clamping nut (6). on the other hand, the support spacer (4), so that its conical part is oriented towards the clamping nut (6). Its dimensions are compatible with the functionality of the connection of the invention (RI) and its function is to apply through its largest flat face, a pressure on the support spacer (4) consecutive to the force applied on its conical peripheral wall by the clamping nut (6) of the removable sliding coupling of the invention (RI). It has on its inner peripheral plane of asperities shaped, number and dimensions sufficient to allow its attachment in the material of the circuit pipe (8) and thus cause the immobilization of the removable sliding connection of the invention (RI) on the circuit hose (8) at the end of tightening. (See FIG 2, 3).

According to the preferred embodiment of the invention, the clamping nut (6) is preferably of cylindrical shape and mainly consists of a single piece, made for example of metal, plastic or any other material. It has a through interior bore for freely passing the circuit pipe (8) and two active parts, a first portion provided with an external thread of definition, shape and dimensions compatible and capable of cooperating with the internal thread. the coupling body (1) and a second portion for gripping and preferably arranged to facilitate manual or tool clamping.

It has at the end of its inner bore and the side of its threaded portion, a conical bore of shape and dimensions functionally compatible with the conical portion of the clamping ring (5). Placed around the circuit pipe (8), its threaded portion penetrates inside the internal thread of the coupling body (1) and screwingly applying a force on the conical plane of the clamping ring (5). (See FIG 2, 3). According to the preferred embodiment of the invention, the removable sliding connection (RI) of the present invention is constituted by the assembly of the six independent elements that compose it so as to constitute a single assembly usable in such a configuration. The dismountable sliding coupling of the invention (RI) thus assembled is threaded onto the crown pipe (8) and slides on it until the end of said circuit pipe (8) abuts on the collar (7) inner of the coupling body (1). It is then moved in the opposite direction and slides freely and without obstacle on the outer peripheral wall of the circuit pipe (8) until the screwing ferrule (2) comes into contact with the nipple tip (EM) equipping the one or other of the outputs (13, 10) of the equipment to be connected, for example a solenoid valve (EV). The screwing ferrule (2) of the removable sliding coupling of the invention (RI), preferably equipped with a flat gasket (12) is then tightened on the nipple tip (EM) and the clamping nut (6). fitting (RI) is tightened in turn to seal and immobilize the removable sliding connection of the invention (RI) on the circuit pipe (8). (See FIG 3, 4, 6).

According to the preferred embodiment of the invention, besides the fact that the nipple tips (EM) on the inlet or outlet ports of the solenoid valve (13, 10) could be associated with O-rings (11), the installation of the removable sliding coupling of the invention (RI) reduces or annihilates the use of teflon or tow to guarantee the tightness of the connections. Indeed, the installation of the removable sliding connector of the invention (RI) is on one side by a joint for example flat (12) associated with a mobile ferrule or ferrule screwing (2) and the other side by compression of an O-ring (3) between a support spacer (4), a clamping ring (5) and a clamping nut (6), which guarantees an effective seal. (See FIG 4).

According to the preferred embodiment of the invention in the example of mounting a solenoid valve (EV) equipment, the inlet orifice of the solenoid valve (13) is fixedly secured to the mouth of the "clarinet" (AC) power supply previously provided with a nipple tip (EM) and a mobile ferrule. The removable sliding coupling of the invention (RI) ensures the connection of the outlet of the solenoid valve (10) to the circuit pipe (8). The introduction of the removable sliding connection of the invention (RI) is carried out first by threading said previously loosened fitting on the end of the circuit pipe (8) until the end of said circuit pipe ( 8) abuts on the inner peripheral flange (7) at the bottom of the thread of the coupling body (1). Secondly the removable sliding connection of the invention (RI) is slid on the circuit pipe (8) in the opposite direction until its screwing ferrule (2) comes into contact with the nipple tip (EM) previously placed in the outlet (10) of the solenoid valve (EV). During this operation, the irremovable pipe of the circuit (8) remains fixed inside the coupling body (1) which moves to position itself according to the wheelbase of the solenoid valve (EV). The screwing ferrule (2) preferably equipped with a flat gasket (12) is then tightened on the nipple tip (EM) of the outlet orifice (10) of the solenoid valve (EV) and the clamping nut. (6) the fitting (RI) is then tightened in turn to seal and immobilize the removable sliding connection of the invention (RI) on the circuit pipe (8). Once the O-ring (3) is placed and compressed in the groove (9) of the thread bottom of the coupling body (1) by the spacer (4) and the clamping ring (5), the asperities on the wall inner periphery of the clamping ring (5) penetrate the outer circumferential surface of the circuit tube (8) by elasticity and thereby lock the assembly of the removable sliding coupling of the invention (RI) in its position. (See FIGs 5a, 5b, 6).

According to another embodiment of the invention in the example of mounting a solenoid valve (EV) equipment, the inlet (13) of the solenoid valve (EV) is slidably secured to the mouthpiece of the "clarinet" supply (AC) previously provided with an extension tube (14) and the outlet orifice (10) of the solenoid valve (EV) equipped with a nipple tip (EM) is fixedly secured to to the circuit pipe (8) by means of a movable shell. The removable sliding connection of the invention (RI) ensures the connection of the inlet (13) of the solenoid valve (EV) to the extension pipe (14) of the "clarinet" supply (AC). The introduction of the removable sliding connection of the invention (RI) is then carried out firstly by threading said connection (RI) previously loosened on the end of the extension pipe (14) of the mouth of the "clarinet" supply "(AC) until the end of said extension tube (14) abuts the inner peripheral flange (7) at the bottom of the coupling body (1). In the second place, the removable sliding connection of the invention (RI) is slid in the opposite direction until the screwing ferrule (2) comes into contact with the nipple tip (EM) placed beforehand on the orifice d input (13) of the solenoid valve (EV). During this operation, the hose extension (14) irremovable power (AC) remains fixed inside the coupling body (1) which moves to position itself according to the wheelbase of the solenoid valve (EV). The tightening ferrule (2) preferably equipped with a flat gasket (12) is then tightened on the nipple tip (EM) of the solenoid valve (EV) and the tightening nut (6) is tightened in turn. for sealing and immobilizing the removable sliding connection of the invention (RI) on the extension pipe (14) of the supply (AC). Once the O-ring (3) is placed and compressed in the groove (9) of the thread bottom of the fitting body (1) by the support spacer (4) and the clamping ring (5), the asperities located on the inner circumferential wall of the clamping ring (5) penetrate the outer peripheral surface of the extension pipe (14) of the "clarinet" supply (AC) by elasticity and thus lock the assembly of the removable sliding coupling of the invention (RI) in its position. (See FIG 5a, 5b, 7). According to a different embodiment of the invention, in the assembly example of a solenoid valve (EV) equipment, the inlet orifice (13) and the outlet orifice (10) of the solenoid valve (EV) ) are both equipped with a removable sliding connection of the invention (RI). The removable sliding connection of the invention (RI) ensures the connection of the inlet (13) of the solenoid valve (EV) equipped with a nipple tip (EM) to the extension pipe (14) of the mouthpiece of the "clarinet" (AC) diet. The introduction of the removable sliding connection of the invention (RI) at this point is then carried out firstly by threading the sliding connection (RI) on the extension pipe (14) of the "clarinet" (AC) supply until the end of this extension pipe (14) abuts on the inner flange (7) of the thread bottom of the coupling body (1) and secondly by sliding the sliding connection (RI) in the direction contrary until the screwing ferrule (2) of the sliding connection (RI) comes into contact with the nipple tip (EM) of the inlet (13) of the solenoid valve (EV). During this operation, the hose extension (14) irremovable power (AC) remains fixed inside the coupling body (1) which moves to position itself according to the wheelbase of the solenoid valve (EV).

The removable sliding coupling of the invention (RI) also ensures the connection of the outlet (10) of the solenoid valve (EV) equipped with a nipple tip (EM) to the circuit pipe (8). The introduction of the removable sliding connection of the invention (RI) at this point is then carried out first by threading the sliding connection (RI) on the circuit pipe (8) until the end of this circuit pipe (8) abuts the inner flange (7) of the thread bottom of the coupling body (1) and secondly by sliding the sliding coupling (RI) on the circuit pipe (8) in the direction contrary until the screwing ferrule (2) of the sliding connection (RI) comes into contact with the nipple tip (EM) of the outlet (10) of the solenoid valve (EV).

During this operation, the immovable circuit pipe (8) remains fixed inside the coupling body (1) which moves to position itself according to the wheelbase of the solenoid valve (EV). (See FIG 8).

According to a different embodiment of the invention, the various elements forming part of a liquid carrier network distributor using the removable sliding coupling of the invention (RI), for example: "clarinet" feed »(AC), 5 extension pipes (14), removable sliding connections (RI), nipple tips (EM), solenoid valves (EV) and circuit hoses (8), are grouped inside a single box, for example supplemented by the addition of other accessories or ancillary arrangements, so as to offer the professional or individual user, a single pre-assembled cabinet for easy and quick replacement of equipment (for example) solenoid valves 10 (EV) whatever their type, their model, their reference, their wheelbase, etc. The use of such a box ready to be used can be optimized by the addition for example of quick connectors to the outlets of the hoses. circuits (CR) or one or both access to the "clarinet" power supply (CA), bundled and secured electrical connectors (CE), wire feedthroughs, etc. (See FIG 9 ). 15 20 25 30

Claims (7)

CLAIMS1- Removable sliding connection for the replacement of equipment in a network of irremovable pipelines (RI), characterized in that its shapes and dimensions make it possible to compensate for the differences in size between, on the one hand, the equipment (EV) to be replaced and secondly the replacement equipment (EV) in a network of irremovable pipelines (8). 2- removable sliding connection for the replacement of network equipment irremovable piping (RI) according to claim 1, characterized in that it is removed and put into place in the pipe network (8) by axial sliding in one direction and / or in the opposite direction, in order to adapt its positioning as a function of the differences in dimensions between the equipment (EV) to be replaced and the replacement equipment (EV) (see FIG. 5a, 5b). 3- removable sliding coupling for the replacement of network equipment irremovable pipelines (RI) according to claim 1, characterized in that it has at each of its two opposite ends a different connection mode, for example to one of its two ends a fixed connection assembly (ERF) by screwing ferrule (2) and flat seal (12) to cooperate with a threaded nipple (EM) and at the other end a sliding connection assembly (ERC) by compression of O-ring (3) for cooperating with an irremovable pipe (8). (See FIG 4). 4- removable sliding coupling for the replacement of network equipment irremovable piping (RI) according to the preceding claim, characterized in that it ensures the connection of a device (EV) to an irremovable pipe (8) of the network, by means of one part of its sliding connection assembly (ERC) by O-ring compression (3) associated with the irremovable pipe (8) of the network and secondly of its fixed connection assembly (ERF) by screwing ferrule (2) and flat seal (12) associated with a nipple tip (EM) integral with the equipment (see FIG 6). 5. Removable sliding connection for the replacement of network equipment irremovable pipelines (RI) according to claim 3, characterized in that it ensures the connection of equipment (EV) to an extension pipe (14) integral with the "clarinet" supply line (AC), firstly by means of its O-ring compression sliding connection (ERC) assembly (3) associated with the supply line (AC) extension pipe (14) and on the other hand, its fixed connection assembly (ERF) by screwing ferrule (2) and flat gasket (12) associated with a nipple tip (EM) integral with the equipment (See FIG7). 6- Removable sliding coupling for the replacement of equipment in a network of irremovable pipelines (RI) according to claim 3, characterized in that it ensures the connection of a device (EV) to the supply line "clarinet" ( AC) by means of one part of its O-ring compression sliding connection assembly (ERC) (3) associated with an extension pipe (14) integral with the "clarinet" supply pipe (AC) and other part of its fixed connection assembly (ERF) by screwing ferrule (2) and flat gasket (12) associated with a nipple tip (EM) integral with the equipment (EV) and connecting the same equipment (EV) to a irremovable pipe (8) of the network, by means of a part of its fixed connection assembly (ERF) by screwing ferrule (2) and flat gasket (12) associated with a nipple tip (EM) integral with the equipment ( EV) and on the other hand of its assembly of sliding connection (ERC) by compression of O-ring (3) asso attached to an irremovable pipe (8) of the network. 7- Removable sliding coupling for the replacement of network equipment irremovable pipelines (RI) according to any one of the preceding claims, characterized in that it is assembled with all the other components of a network distributor within a box ready to use, allowing the quick and easy replacement of a piece of equipment (EV) by another equipment (EV) different. This ready-to-use box is optimized by the use of hydraulic quick connectors (CA) and (CR) and other accessories such as for example central electrical connection (CE) equipment (EV). 10 15 20 25