EP0072753A2 - Pressure fluid modular distribution system - Google Patents

Abstract

The invention relates to a system for distributing a pressurized fluid for a motor device. The system comprises a main distributor D3 mounted on a base plate E3, and at least one auxiliary unit such as a soft starter U1 or a trap-blocker U2 and is characterized in that the auxiliary unit U1, U2, comprises a standard distributor D1, D2 advantageously of the same type as the main distributor D3, which is mounted interchangeably on a specific base plate E1, E2 configured to determine the function of the auxiliary unit and associable with the base plate E3 of the main distributor D3 and with the base plates of other auxiliary units, if present. The invention can be used for a system comprising a soft starter.

Description

The present invention relates to a modular system for distributing a pressurized fluid for controlling a motor device such as a pneumatic motor or cylinder or a valve, comprising at least one main distributor mounted interchangeably on a plate base designed to link the distributor to the motor device and to the pressurized fluid supply network, and at least one auxiliary unit mounted upstream of the distributor, such as a unit performing the function of a soft starter or of '' a blocker.

In known distribution systems of this type, the trap-blocker and the soft starter are non-standard 4/2 type devices, which have been designed specifically to perform the functions of a trap-blocker and a starter respectively. progressive. These devices cannot be used to perform other functions.

Obviously the use in a system a large number of specific elements is a considerable disadvantage, because it makes the system complex and therefore expensive and inflexible since the essential elements are not interchangeable and that a certain number must always be kept in reserve of each type to ensure that a defective item can be quickly replaced with one in good working order.

The object of the present invention is to overcome this drawback.

To achieve this goal, the modular distribution system according to the invention is characterized in that the auxiliary unit comprises a standard distributor, advantageously of the same type as the distributor itself, which is mounted interchangeably on a base plate specific, configured to determine the function of the unit and associable with the base plate of the distributor itself and with base plates of other auxiliary units possibly present.

• La figure 1 illustre en une vue schématique un système modulaire de distribution selon la présente invention, comprenant, monté en amont d'une unité formant distributeur, un montage en série de deux unités auxiliaires formant respectivement un démarreur progressif et un purgeur-bloqueur, chaque unité comprenant un élément distributeur monté sur une plaque d'embase spécifique.
• Les figures 2 et 3 montrent, en des vues de dessus, la structure des plaques d'embase spécifiques et illustrent deux états de fonctionnement du système suivant la figure 1.
• La figure 4 est une vue schématique d'un système de distribution selon l'invention, comprenant une unité auxiliaire formant un démarreur progressif monté en amont d'un bloc de deux distributeurs.
• La figure 5 illustre la structure des plaques d'embase du système suivant la figure 4 et le fonctionnement de celui-ci, et
• La figure 6 montre en une vue de dessus, la structure des embases d'un système de distribution selon l'invention, comprenant une unité formant purgeur-bloqueur montée en amont d'un bloc de deux distributeurs.

The invention will be better understood, and other objects, characteristics, details and advantages thereof will appear more clearly during the explanatory description which follows, made with reference to the appended schematic drawings given solely by way of example illustrating a embodiment of the invention and in which:

• Figure 1 illustrates in a schematic view a modular distribution system according to the present invention, comprising, mounted upstream of a distributor unit, a series connection of two auxiliary units res respectively forming a soft starter and a blocker, each unit comprising a distributor element mounted on a specific base plate.
• Figures 2 and 3 show, in top views, the structure of the specific base plates and illustrate two operating states of the system according to Figure 1.
• Figure 4 is a schematic view of a distribution system according to the invention, comprising an auxiliary unit forming a soft starter mounted upstream of a block of two distributors.
• FIG. 5 illustrates the structure of the base plates of the system according to FIG. 4 and the operation thereof, and
• Figure 6 shows in a top view, the structure of the bases of a distribution system according to the invention, comprising a trap-blocker unit mounted upstream of a block of two distributors.

Figure 1 shows schematically and in a principle view, a modular system for distributing a pressurized fluid, which comprises, in series, a flange B for connection to the pressurized fluid supply network, a unit U ₁ forming a soft starter, a U ₂ unit forming a blocker and a U ₃ unit forming a proper or main distributor intended to supply pressurized fluid to a motor device such as for example a motor or pneumatic cylinder or a valve ( not shown).

According to the invention, each unit comprises a distributor of the same type, for example of the basic 5/2 type. Each distributor is removably and interchangeably mounted on the upper surface of a base plate which is designed to allow the unit to perform its specific function, namely that of a soft starter, a steam trap- blocker and a distributor itself. The three base plates can be combined with each other.

In the soft starter unit U ₁ , the base D ₁ is configured so that the distributor D ₁ operates as a 2/2 type element. The base E ₂ has a structure making it possible to use the distributor D ₂ as a 3/2 function of a trap-blocker. As for the distributor D _{3 subsequently} called the main distributor to distinguish it from the other distributors, it operates in 5/2 mode and is mounted on a base plate E ₃ . The structure of this plate is known.

Each 5/2 type distributor in the example shown comprises a pressurized fluid supply orifice 1, two use or outlet orifices 2, 4, two exhaust orifices 3, 5 and two control orifices 12 , 14. The orifices are indicated in Figure 1 for the distributor D ₃ which is used in 5/2 function. The upper surface 20 of the base plate E ₃ is shaped on the laying face and has a series of seven orifices each connectable to an orifice of the dispenser. The orifices of the mounting plane of the base have the corresponding references 1 ', 2', 3 ', 4', 5 ', 12' and 14 '(Figures 2,3,5,6).

Since the distributors D ₁ and D ₂ do not operate in 5/2 mode, but respectively in 2/2 and 3/2 modes, the upper surfaces 20 shaped as laying faces have different orifice configurations, as it will be demonstrated later.

As is apparent from the figures, the three base plates E ₁ to E ₃ can be associated directly with one another. To this end, the front connection faces 21 and rear connection faces 22 of all the plates have the same configuration of three orifices. The front connection face 21 is provided with an inlet orifice 23 for supplying pressurized fluid to the unit in question and two orifices 24 for exhausting the unit. The rear connection face 22 of each base plate comprises an outlet orifice 25 for the pressurized fluid and two orifices 26 for exhaust. The exhaust orifices 24 and 26 in the front and rear connection faces of each base plate are connected by two internal channels 27 formed in each base plate. In the base plate E ₃ an internal channel 18 also directly connects the inlet 23 and outlet 25 openings of the pressurized fluid. On the other hand, as the figures clearly show, the structure of the base plates E ₁ and E ₃ is different and depends on the operating mode of the distributors D ₁ and D ₂ . The structure of these base plates will be described below.

It appears from Figures 1 and 2 that the pressure channel provided inside the base plate E ₁ consists of two parts which do not communicate directly with each other, namely an inlet part 28 and a part of exit 29. The communication between these two parts is established by the distributor (figure 1). To this end, there is provided in the upper surface 20 of the base plate, forming the laying face for the connection of the distributor D ₁ , an orifice 30 which communicates by a vertical channel with the part of the inlet channel 28 .

Similarly, the laying face 20 has a set of orifices 31 which communicate by vertical channels with the outlet channel part 29. The latter is connected by a smaller diameter channel 32 with another vertical channel which opens onto the laying face 20 through an orifice 33 which is calibrated by a removable nozzle represented diagrammatically in the orifice 33. As can be seen by referring for example to FIG. 2, the orifices 30, 31 and 33 are located so as to correspond to ports 1 ', 2' and 4 ', so that they can be connected to ports 1, 2 and 4 of the distributor. It should be noted that the distributors D ₁ and D ₂ are rotated 180 ° relative to the distributor D ₃ , as appears from the configurations of connection holes 34 of the distributors, to the base plates. FIG. 2 furthermore recognizes at 35 a smaller diameter pipe which opens outwards to the rear connection surface 22 and to the upper laying surface 20 through an orifice 36.

To the latter is also associated an external connector 37 which can be closed, as is the case in FIG. 1. The orifice 36 leads to a logic element L shown schematically in FIG. 1. This element is integrated into the distributor in a manner known by French patent application No. 79,07032. The element L is arranged to compare the pressure prevailing in the orifice 36 with the pressure in the pressure inlet channel 28. When the pressure in the orifice reaches a predetermined threshold, the logic element L produces a signal switch valve D ₁ . Another switching signal will be produced when the pressure in port 36 subsequently drops below a predetermined threshold value.

The base plate E ₂ of the unit U ₂ intended to perform the function of a trap-blocker also comprises a pressure channel device which consists of two parts, an inlet part 38 and an outlet part 39. The upper laying surface 20 of this base is provided with orifices 40 and 41 communicating respectively with the inlet and outlet parts 38, 39, by suitable vertical channels. The mounting face also has an orifice 42 in communication with the exhaust channel 27. The base plate E _{2 also} has an internal pipe 43 which opens at one end to the front connection surface 21 of the plate, at a location allowing its communication with the pipe 35 of the base plate E ₁ . By its other end, this pipe communicates with the outlet part 39 of the pressure channel. It should be noted that the orifices 40, 41 and 42 correspond to the orifices 1 ', 4' and 5 'of the base plate E ₃ and are intended to be connected to the orifices 1, 4 and 5 of the distributor D ₂ .

The distribution system shown diagrammatically in FIG. 1 and using the base plates, the structures of which emerge from FIGS. 2 and 3, operates as follows:

Figures 1 and 2 show the system according to the invention in its initial state. The distributor D ₁ of the soft starter is in a position where it ensures communication between the inlet for pressurized fluid 30 and the calibrated orifice 33. The orifice 31 of part 29 of the fluid outlet channel under pressure is isolated from the orifice 30. The distributor D ₂ of the trap-blocker is in a position where it communicates the orifice 42 of the exhaust of the base plate E ₂ with the orifice 41 and thus with the outlet channel 39 for pressurized fluid. The pressurized fluid inlet port 40 is isolated. The distributor D ₂ is therefore in the purge state. This means that the pressure channel 18 of the base plate E ₃ is exhausted, as illustrated by the hatched area in FIG. 2.

When a pressurized fluid is applied to the inlet of the distribution system according to the invention, the pressure can only build up gradually in the outlet pressure channel 29 of the base plate E ₁ , due to the calibrated orifice 33 which is in communication with the orifice 30 through the distributor D ₁ . As long as the trap-blocker is in the purge state, this pressure is blocked at the orifice 40 of the base plate E ₂ . If an operator switches at the same time the distributor D ₂ of the trap-blocker and thus creates the conditions illustrated in FIG. 3, in which the orifice 41 of the base plate E ₂ is isolated from the exhaust orifice 42 and placed in communication with the orifice 40, by the distributor D _{2 ′} the pressure prevailing in the inlet pressure channel 38 can be established in the outlet pressure channel 39 and in the pressure channel 18 of the base plate E ₃ . This pressure is also transmitted, through the pipes 43 and 35 and the orifice 36 of the base plate E ₁ to the logic element L.

As soon as the pressure prevailing in the channel 18 of the base plate E ₃ , which increases progressively under the effect of the calibrated orifice 33 and its nozzle, reaches a predetermined threshold, corresponding for example to 60% of the applied pressure at the input of the system, this element which also receives via an internal pipe 44 the fluid under pressure (FIG. 1) produces a signal authorizing or causing the switching of valve D ₁ of the soft starter. After switching, the distributor connects the orifices 30 and 31 and isolates the calibrated orifice 33. The pressure prevailing at the inlet of the system will therefore immediately settle in the pressure channel 18 of the base plate E ₃ .

The operating conditions indicated in FIG. 2 are thus obtained by the dotted areas.

In this situation, the distributor D ₃ is able to supply a motor device (not shown) with pressurized fluid, via its base plate.

If the bleed-block distributor D ₂ is recommenced in its bleed position illustrated in FIG. 2, the orifice 41 is again in communication with the exhaust channel 27, via the orifice 42 of the plate E ₂ . Since the orifice 41 of the base E ₂ and the orifice 36 of the base E ₁ are connected to each other by the lines 43 and 35, the pressure at the logic element L also drops to reach the value of an atmosphere. When this pressure drop reaches about 50% of the pressure applied to the inlet of the system, the logic element will produce an appropriate pulse which returns the distributor to its initial position in which the orifices 31 of the base plate E ₁ are isolated from the inlet pressure orifices 30, as illustrated by the white area inside the circles representing the orifices 31. The soft starter is thus ready to perform its function during a new switching of the trap-blocker.

Please note that the soft starter operates automatically depending on the state of the trap-blocker. Systematically, after each purge of the system according to the invention, the soft starter automatically returns to its low flow position determined by the communication between the inlet orifice 30 and the calibrated orifice 33 of the base plate ^E ₁ .

It should be noted that the orifice 33 is calibrated by a nozzle which screws into the base. This allows the user to choose the calibration diameter according to the quantity of cylinders or more generally of motor devices to be controlled.

Although the system just described includes a soft starter and a blocker, these auxiliary units can be used separately.

Thus, FIGS. 4 and 5 show a modular system for distributing a pressurized fluid, according to the invention, in which a unit U ₁ arranged according to FIGS. 1 to 3 to form a soft starter is mounted directly upstream of a block of two distribution units U ₃ , U ₃ '. The deletion of the trap-blocker does not cause any modification at the level of the soft starter, apart from the fact that the orifice 36 leading to the logic element L now receives the pressure which gradually builds up in the outlet pressure channel 29 of the base E ₁ and consequently in the pressure channels 18 of the base plates E ₃ , E ₃ 'by an external pipe 45 connecting the outlet of the pressure channel 18 of the last base plate E ₃ ' to the external connection 37 of the base plate E ₁ of the soft starter. As can be seen from FIG. 5, the internal pipe 35 of the base plate E ₁ is blocked at the level of the rear connection surface 22 of this base plate. The operation of the soft starter shown in FIGS. 4 and 5 is the same as that which has just been described with reference to FIGS. 1 to 3.

FIG. 4 shows a system in which a unit U ₂ forming a trap-blocker according to FIGS. 1 to 3 is mounted at the head of a block of distributors U ₃ , U ₃ ′, without a soft starter. As can be seen by comparing these figures and FIG. 6, there is no difference both in terms of structure and in terms of operation between the two cases, except for the fact that the internal pipe 43 is now closed at its ends opening to the outside.

After the description of the structure of the auxiliary units and of the systems in which these are incorporated, the advantage which the present invention brings is understood. Indeed, this makes it possible to use in all the units the same type of distributor and it is only the base plates which are easy to manufacture and of a relatively low cost price which are different and configured to allow the distributor to perform a specific function, such as, for example, a soft starter and a blocker, as in the systems which have just been described by way of nonlimiting examples.

Claims (13)

1. Modular system for distributing a fluid under control pressure for a motor device, comprising at least one main distributor mounted interchangeably on a base plate designed to ensure the connection of the distributor to the motor device and to the network of supply of pressurized fluid, and at least one auxiliary unit mounted upstream of the distributor, such as a unit performing the function of a soft starter or a blocker, characterized in that the auxiliary unit U ₁ , U ₂ comprises a standard distributor D ₁ , D ₂ , advantageously of the same type as the main distributor D ₃ , which is mounted interchangeably on a specific base plate E1, E ₂ , configured to determine the function of the unit auxiliary and associable with the base plate E ₃ of the main distributor D ₃ and with the base plates of other auxiliary units possibly present. 2. System according to claim 1, characterized in that the laying plane (20) of the base plates E ₁ , E ₂ of the auxiliary units conforms to the laying plane of the distributors D ₁ , D ₂ , D ₃ and in that some of the orifices normally present in the installation plane (20) of the base plate E ₁ , E ₂ are eliminated, the choice of the orifices present depending on the function that the auxiliary unit U ₁ , U ₂ must accomplish. 3. System according to claim 2, characterized in that, in an auxiliary unit U ₁ forming a soft starter and using a distributor D ₁ of the type 5/2, the base plate E ₁ is shaped so that the distributor D ₂ performs a 2/2 function. 4. System according to claim 3, comprising base plates which have in their mutual front and rear connection faces the same configuration of two exhaust ports and a pressure port, the exhaust ports being directly connected by internal channels, characterized in that the mounting plane (20) of the base plate E ₁ of the soft starter unit U ₁ comprises a first pressure port (30) communicating with the inlet port pressure (23) of the front connection face (21), a second orifice (31) and a third orifice (33) calibrated and provided with a nozzle, these two orifices communicating with the outlet pressure orifice (25 ) of the rear connection face (22), and in that these three orifices are arranged in such a way that the distributor D ₁ connects the first orifice (30) either to the second orifice (31) or to the third calibrated orifice (33) , depending on its switching state. 5. System according to claim 4, characterized in that the second (31) and third (33) aforesaid orifices of the laying plane (20) are located opposite the use orifices (2, 4) of the laying plane of the distributor D ₁ . 6. System according to one of claims 4 or 5, characterized in that the laying plane (21) comprises a fourth orifice (36) arranged to be opposite a control orifice (12) of the distributor D ₁ and communicating with an external connection (37) and with an internal pipe (35) of the base plate, opening into the rear connection face (22) of this plate, this orifice being usable for perform automatic switching of the distributor ^D ₁ . 7. System according to claim 6, characterized in that the aforesaid fourth orifice (36) is connected to an input of a logic element L with two inputs, which is mounted on the distributor D ₁ and receives at its other input forming an input reference the entire pressure of the fluid under pressure, the logic element L producing a switching signal when the pressure at the fourth orifice (36) reaches a predetermined threshold with respect to the pressure at its reference input. 8. System according to one of claims 1 or 2, characterized in that, in an auxiliary unit forming; a trap-blocker and using a 5/2 type distributor, the base plate E ₂ is shaped so that the distributor D ₂ performs a 3/2 function. 9. System according to claim 8, comprising bases which have in their front and rear connection faces the same configuration of two exhaust ports and a pressure port, the exhaust ports being connected directly by internal channels. , characterized in that the seating plane (20) of the base plate E ₂ of the trap-blocker unit U ₂ comprises a first orifice (40) connected to an internal inlet pressure channel (38) in communication with the pressure port in the front connection face of the base plate E ₂₂ a second port (41) connected to an outlet pressure channel (39) in communication with the outlet pressure port in the rear connection plate of the base plate E ₂ and a third orifice (42) in communication with the internal exhaust channel (27) of the plate E ₂ , these orifices being arranged in such a way so that the distributor connects the second port (41) either with the first port (40) or with the third port (42), depending on its switching state. 10. System according to claims 6 and 9, characterized in that the base plate E ₂ comprises an internal pipe (43) establishing communication between the outlet pressure channel (39) and an orifice in the front connection face of the base plate E ₂ , the outlet opening of the pipe (43) being arranged so as to be able to communicate with the outlet opening of the pipe (35) of the base plate _E1 , when the two plates E ₁ , E ₂ are associated with each other. 11. System according to one of claims 6 or 7, comprising an auxiliary unit forming a soft starter mounted upstream of a main distributor, characterized in that the pressure orifice in the rear connection face (22) of the channel pressure (18) of the base plate E ₃ of the main distributor U ₃ is connected to the external connection (37) of the base plate E ₁ of the soft starter U ₁ , the outlet port of the pipe (35 ) of the base plate E ₁ being blocked. 12. System according to claims 6 and 10, comprising a series mounting of two auxiliary units respectively forming a soft starter and a trap-blocker, characterized in that the external connection (37) of the base plate E ₁ of the starter progressive U ₁ is blocked and the lines (35,43) of the base plates E ₁ , E ₂ of the two auxiliary units U ₁ , U ₂ are in communication. 13. System according to one of claims 4 to 12, characterized in that the communications between orifices in the laying plane (20) of the base plates E ₁ , E ₂ with orifices in the front and rear connection faces (21,22) base plates are produced by internal channels thereof.

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