WO2001050057A1

WO2001050057A1 - Multiple connector

Info

Publication number: WO2001050057A1
Application number: PCT/EP2001/000017
Authority: WO
Inventors: Herwig Brunner
Original assignee: Josef Martin Gmbh & Co. Kg
Priority date: 2000-01-04
Filing date: 2001-01-03
Publication date: 2001-07-12
Also published as: EP1114917A2; US20010006050A1; AU2173301A; EP1114917A3

Abstract

The invention relates to a multiple connector for pipes, especially hydraulic pipes, with a number of connector units corresponding to the number of connections to be made. Said connector units have each a plug and a sleeve receiving said plug. The inventive connector is further provided with first and second connector elements, the plug being fixed on one of these connector elements and the sleeve of a respective connector unit being fixed on the other of the connector elements. The aim of the invention is to provide a multiple connector that is suitable for use at substantially higher pressures in the pipes to be connected vis-à-vis conventional connectors. To this end, the connector units (1) are configured as self-locking snap-in connectors whose sleeves (2) are provided with a locking sleeve (4) that can be displaced vis-à-vis the sleeve (2) so as to unlock the snap-in connector. The locking sleeve (4) of the sleeve (2) of a respective connector unit (1) is fixed on the first or second connector element (14, 15) and the sleeve body (5) can be displaced vis-à-vis said connector element (14, 15).

Description

Subject: Multiple coupling device

Description:

The invention relates to a multiple coupling device for lines, in particular hydraulic lines, with a number of coupling units corresponding to the number of connections to be made, each having a plug and a sleeve receiving the plug, and with first and second coupling points, the coupling point on one of these Plug and on the other of these coupling parts, the sleeve of a respective coupling unit are fixed

Such multiple coupling devices for connecting and disconnecting a plurality of pairs of hydraulic lines are known. These multiple coupling devices are used, in particular, to ensure that the individual hydraulic lines cannot be incorrectly connected to one another. For this purpose, the first and second coupling points are designed in such a way that this coupling point is brought together and thereby the plugs and sleeves of the individual coupling units are connected in one orientation only of the two coupling points is possible

In order to fix the two coupling points in the merged position in which the plugs and sleeves of the individual coupling units are connected to each other, mechanical connecting elements are provided between the first and the second coupling part in the known multiple coupling devices. For example, in a known multiple coupling device, a kiss guide is used for this purpose. Here are arranged on one of the coupling point on both sides of this coupling part connected via a pivot axis, pivotable by a lever plates. These each have an arcuate slot beginning at the side edge of the plate, the distance from the pivot axis of which decreases in its course. Two laterally projecting pins are provided on the other coupling part. By bringing the two coupling parts together until the pins are in the initial areas of the slots, and then pivoting the pivoting lever, the two coupling points are brought together until the respective plugs are fully engaged in the sleeves and locked in this position. The force exerted on the mechanical connecting elements by the two coupling points in the closed state of the multiple coupling device corresponds to the sum of the forces exerted by the individual coupling units as a result of the pressure of the hydraulic piston. Due to the Limiting the forces that can be absorbed by the mechanical connecting elements limits the pressures permitted in the individual hydraulic lines to a relatively low value

The object of the invention is to provide a multiple coupling device of the type mentioned, which is suitable for significantly higher pressures in the lines to be connected in comparison to conventional coupling devices of this type, but which is simple and inexpensive to produce, and which is also suitable for a large number of connecting coupling units is suitable and allows large liter capacities. According to the invention, this is achieved with a multiple coupling device of the type mentioned at the outset in that the coupling units are designed as self-locking snap-in couplings, the sleeves of which each have a locking sleeve that can be displaced relative to the sleeve to open the locking clutch, the locking sleeves of Sleeve of a respective coupling unit is fixed to the first or second coupling part and the sleeve body can be moved slowly relative to this coupling part

Such self-locking locking couplings are known and are used as individual couplings for two lines to be connected.These locking couplings can be designed for very high pressures, for example 2000 bar, since the forces occurring in the individual coupling units in the coupling device according to the invention are not caused by mechanical connecting elements between the first and the second coupling part can be accommodated, but can be accommodated in the coupling units designed as locking couplings themselves, the multiple coupling device according to the invention can be designed for a very high pressure.This is only limited by the pressure permissible for the individual locking couplings.An advantageously provided device for bringing together or out In contrast to the known multiple coupling devices mentioned, the two coupling points here do not serve to receive the coupling devices exercised by the individual coupling units n forces, but for closing and locking the individual snap-in couplings or for opening and unlocking these individual snap-in couplings In order to enable this unlocking of the individual snap-in couplings by pulling the first and second coupling points apart, the locking sleeves of the sleeves are provided according to the invention in the corresponding coupling points, the sleeve bodies are slowly displaceable relative to the coupling points

Different sizes of the individual clutch units are also easily possible in the multiple clutch device according to the invention. In the case of the conventional multiple clutch devices mentioned, this leads to a disadvantageous asymmetrical force distribution Further advantages and details of the invention are explained below with reference to the exemplary embodiment shown in the drawings. Show in these.

Figures 1 and 2 side views of a multiple coupling device according to the invention in the open and closed state. Figures 3 and 4 are sections along the line A-A of Figure 1 and B-B of Figure 2, with six coupling units being provided; 5 and 6 sections along the line A-A of Fig. 1 and B-B of Fig. 2, four coupling units are provided, and a constructive embodiment of the self-locking of the coupling units is shown.

The illustrated exemplary embodiments of a multiple clutch device according to the invention have six clutch units 1 according to FIGS. 1, 2, 3 and 4 and four clutch units 1 according to FIGS. 1, 2, 5 and 6. Each coupling unit 1 has a sleeve 2 and a plug 3. The lines to be coupled are to be connected to the sleeve and to the plug (not shown in the figures). This can be, in particular, hydraulic lines, but lines for other liquids and compressed gases can also be connected via these coupling units 1. The coupling units 1 designed as self-locking latching clutches are only shown schematically in FIGS. 3 and 4. A variant is shown in more detail in FIGS. 5 and 6. Such locking couplings are known. In the case of a conventional embodiment of such a locking coupling, balls 20, which protrude somewhat over the inner circumference of the sleeve 2, engage in an annular groove surrounding the connector 3 in the locked state of the connector in the sleeve. These balls 20 are secured in the radial direction against displacement by a locking sleeve 4. If this locking sleeve 4 is withdrawn with respect to the sleeve body 5, an annular groove arranged in the inner circumferential surface of the locking sleeve 4 comes to lie on the outside over the balls, as a result of which these can move outwards and release the plug 3. The plug 3 is spring-actuated ejected from the sleeve 2 and the locking sleeve 4 engages in this retracted position. If the connector 3 is subsequently inserted into the sleeve again, the ejection spring is tensioned, the locking sleeve 4 is released and snaps into its front position, in which it presses the balls 20 radially inward into the annular groove of the connector 3. Furthermore, it is known to carry out such locking couplings without leakage, ie, in the open state of the locking coupling, the front free ends of the sleeve 2 and the plug 3 are closed by closure elements. These closure elements are opened by inserting the plug 3 into the sleeve 2. The multiple coupling device comprises first and second coupling parts 14, 1 5. The connector 3 is fixed to one of these coupling parts 14, 1 5 and the sleeve 2 is fixed in the other of these coupling parts 1 4, 1 5. In the exemplary embodiment shown, all plugs 3 and all sleeves 2 are arranged in the same coupling part 14, 15. In principle, it would also be conceivable and possible to not fix the connectors 3 or sleeves 2 on the same coupling part 1 4, 1 5.

The plugs 3 are rigidly connected to the corresponding coupling part 14 in which they are fixed. The sleeves 2 are each connected via their locking sleeve 4 to the corresponding coupling part 1 5. For this purpose, the locking sleeve is rigidly connected to a fastening bushing 7 which surrounds the locking sleeve on the outside (by clamping or via corresponding threads). This fastening bushing 7 is screwed into the coupling part 15 via an external thread 8. The sleeve body 5, on the other hand, is displaceable relative to the coupling part 1 5, in which the outer circumference of the sleeve body 5 has a certain play relative to the coupling part 1 5. Furthermore, it is favorable to arrange a spring 6 between the sleeve body 5 and the coupling part 15, which causes a force acting between the sleeve body 5 and the locking sleeve 4, which is directed in the direction of the rear position of the locking sleeve 4. However, this force is not so great that the locking sleeve 4 is displaced into its rearward position in the coupled position of the coupling unit 1. As can be seen from FIGS. 4 and 6, the locking sleeve 4 lies in its front position in the coupled position of the coupling unit 1. If the two coupling parts 14, 15 are pulled apart, the fastening bushing 7 and with it the locking sleeve 4 are pulled backwards (which is supported by the spring 6). The sleeve body 5 move in the axial direction relative to the coupling part 1 5. When the locking sleeve 4 has reached its rear position, shown in Fig. 3 and in Fig. 5, the connector 3 is released and the locking sleeve 4 engages in this position , In order to close the multiple coupling device again, the coupling parts 14, 15 are brought together, as a result of which the plugs 3 are inserted into the sleeves 2. The connectors 3 subsequently move the sleeve body 5 relative to the coupling part 15 until the locking sleeve 4 reaches its front position shown in FIG. 4, in which the connectors 3 are locked and locked in the sleeves 2. This can be achieved by the special structural design of the fastening bushing 7 with an inwardly drawn stop collar 21 formed at its freely projecting end.

A corresponding device is expediently provided for bringing the coupling parts 14, 15 together or apart. In the exemplary embodiment shown, this consists of the Ku ssenplatten 9,9 ', which are pivotable about a pivot 1 1, 1 1, 1 1' via a lever 1 2. The lever 1 2 is formed by arms attached to the Kuhssen plates 9, 9 ', which are connected by a cross bar. Arc-shaped slots 10 are provided in the Kuhssen plates 9, 9 '. These slots 10 change along their course their distance from the pivot axis 1 1, the distance of the slots 10 from the pivot axis 1 1 starting from the respective edge of the Ku ssenplatte 9, 9 ', at which the slots 10 open, is getting smaller. The slots 10 cooperate with pins 13, 13 'arranged laterally on the second coupling part 15. When these pins 13, 13 'are inserted into the slots 10 and the lever 12 is pivoted, the two coupling parts 14, 15 are pulled together, the sleeves 2 and plug 3 of the individual coupling units 1 being locked into one another. A pivoting back of the lever 12 1 counterclockwise in the side view corresponding to FIG. 1, the multiple coupling device opens again. In the closed state of the multiple coupling device, however, the device exerted by the pressure in the connected hydraulic lines does not have to be absorbed by the device for bringing the two coupling parts 14, 15 together. This force is already absorbed in the individual clutch units. The entire multiple coupling device can therefore be made relatively light and inexpensive. The arrangement and special design of the fastening bushing 7 have a particular effect.

On the front of the first coupling part 14, a cover 16 is provided which, when the two coupling parts 14, 15 are completely separated, closes the front of the coupling part 14 and thereby protects it against contamination.

Instead of the link device shown for bringing the two coupling parts 14, 15 together or apart, other devices could also be provided, for example an eccentric device. Instead of manually bringing the two coupling parts 14, 15 together or apart, this bringing together or apart could also be operated by auxiliary power.

The sleeve body 5 and the fastening bushing 7 of a respective sleeve 2 could also be formed in one piece.

In order to achieve a centered alignment of the sleeves 2 and plugs 3 of the individual coupling units 1 when the coupling parts 14, 15 are brought together, guide devices are provided which, in the exemplary embodiment shown, are formed by bushes arranged on the first coupling part 14 and pins arranged on the second coupling part 15. At the free end the pins 18 are provided with conical tapers 19. When the first and second coupling parts 14, 15 are brought together, the free ends of the pins 18 are inserted into the openings of the bushes 17, which is facilitated by the conical tapering 19 of the pins. As a result, the two coupling parts 14, 15 are correctly aligned with one another. Instead of the bushes 17 and pins 18 shown, other types of guide devices for aligning the first and second coupling parts 14, 15 when they were brought together could also be provided. These guide devices or the individual coupling units are advantageously arranged in the coupling points 14, 15 such that a connection of the two coupling parts 14, 15 is only possible in one orientation of these parts.

The multiple coupling device according to the invention permits very high pressures in the individual connected lines, for example up to 2000 bar, since self-locking locking couplings can be produced in a known manner up to such high pressures in a relatively simple manner. Compared to conventional multiple coupling devices, larger cable cross sections and larger liter capacities are possible. Furthermore, a theoretically unlimited number of coupling units can be provided in a multiple coupling device. The individual coupling units can have different sizes without additional measures.

Claims

claims:

1 . Multiple coupling device for lines, in particular hydraulic lines, with a number of coupling units corresponding to the number of connections to be made, each having a plug and a sleeve receiving the plug, and with first and second coupling parts, the plug on one of these coupling parts and the other of these coupling parts, the sleeve of a respective coupling unit is fixed, characterized in that the coupling units (1) are designed as self-locking snap-in couplings, the sleeves (2) of which each have a locking sleeve (4) which can be displaced relative to the sleeve (2) for opening the snap-in coupling, whereby the locking sleeve (4) of the sleeve (2) of a respective coupling unit (1) is fixed to the first or second coupling part (14, 15) and the sleeve body (5) can be displaced longitudinally with respect to this coupling part (14, 15).

2. Multiple coupling device according to claim 1, characterized in that between the sleeve body (5) and the coupling part (1 5), in which the sleeve (2) is mounted, one the sleeve body (5) against the locking sleeve (4) in Opening direction of the locking sleeve (4) acting spring is provided.

3. Multiple coupling device according to claim 1 or claim 2, characterized in that the locking sleeve (4) is surrounded by a rigidly connected to the locking sleeve (4) connecting bush (7) which in the first or second coupling part (1 4, 1 5 ) is fixed, preferably screwed into it.

4. Multiple coupling device according to claim 3, characterized in that the fastening bushing (7) has an inwardly drawn stop collar (21) at its freely projecting end.

5. Multiple coupling device according to one of claims 1 to 4, characterized in that a device for bringing together or apart the two coupling parts (14, 1 5) is provided, the coupling units (1) designed as latching couplings in the merged state of two coupling parts (14, 1 5) are locked.

6. Multiple coupling device according to claim 5, characterized in that the device for bringing together or apart the two coupling parts (14, 15) via a lever (12) actuated link guide (9, 9 ', 10, 11, 11' , 13, 13 ').

7. Multiple coupling device according to one of claims 1 to 6, characterized in that the coupling units (1) designed as latching couplings are designed to be leak-oil-free.

8. Multiple coupling device according to one of claims 1 to 7, characterized in that on the first and second coupling parts (14, 15) guide devices for aligning the first and second coupling parts (14, 15) when merging these coupling parts (14, 15) are provided.

CHANGED REQUIREMENTS

[Received at the International Office on June 8, 2001 (June 8, 2001); original claims 1-8 replaced by new claims 1-7

(2 pages)]

1. Multiple coupling device for lines, in particular hydraulic lines, with a number of coupling units corresponding to the number of connections to be made, each having a plug and a sleeve receiving the plug, and with first and second coupling parts, the plug and on the other of these coupling parts, the sleeve of a respective coupling unit is fixed, the coupling units (1) being designed as a self-locking snap-in coupling, the sleeves (2) of which each have a locking sleeve (4) which can be displaced with respect to the sleeve (2) for opening the snap-in coupling, characterized in that that the locking sleeve (4) of the sleeve (2) of a respective coupling unit (1) is assigned to the first or second coupling part (14, 15) and the sleeve body (5) is longitudinally displaceable relative to this coupling part (14, 15) and that the locking sleeve (4) from a fastening bush (7) is surrounded, which is fixed in the first or second coupling part (14, 15), preferably screwed into this.

2. Multiple coupling device according to claim 1, characterized in that between the sleeve body (5) and the coupling part (15) in which the sleeve (2) is mounted, one the sleeve body (5) against the locking sleeve (4) in the opening direction the locking sleeve (4) acting spring is provided.

3. Multiple coupling device according to claim 1, characterized in that the fastening bush (7) has an inwardly drawn stop collar (21) at its freely projecting end.

4. Mehrfach -kupplungeinπchtung according to one of claims 1 to 3, characterized in that a device for bringing together or apart the two coupling parts (14, 15) is provided, the coupling units (1) designed as latching couplings in the combined state of the two Coupling parts (14, 15) are locked.

5. Multiple coupling device according to claim 4, characterized in that the device for bringing together or apart the two coupling parts (14, 15) via a lever (12) actuated link guide (9, 9 ', 10, 11, IV, 13, 13 ').

6. Multiple coupling device according to one of claims 1 to 5, characterized in that the coupling units (1) designed as latching couplings are designed to be leak-free.

7. Multiple coupling device according to one of claims 1 to 6, characterized in that on the first and second coupling parts (14, 15) guide devices for aligning the first and second coupling parts (14, 15) when merging these coupling parts (14, 15) are provided.