RU2579377C1 - Coupling adapter, rolling stock of two units with their couplers coupled by such adapter and method of coupling of rolling stock two units - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: coupling adapter for coupling the rolling stock two units provided with air lines comprises two couplers for plug-in joint between coupling adapter and couplers. Coupling pipeline communicates air lines of the rolling stock two units. Air treatment device is retained by the coupler holder. Air treatment assembly is arranged in the way of airflow of the coupler one air line.

EFFECT: improved interaction between the coupling adapter and rolling stock two units coupled by said adapter.

11 cl, 9 dwg

Description

The invention relates to a coupler for coupling couplers of two rolling stock units that have ducts having a first coupler for releasably connecting the coupler to the first of the couplers having a second coupler for releasably connecting the coupler to the second of the couplers having a coupler holder for connecting the first connecting device to the second connecting device and having a coupling pipe for connecting ducts woo units of rolling stock.

The invention also relates to rolling stock, including at least two rolling stock units, the coupling devices of which are coupled by means of such a transition coupling.

In addition, the invention relates to a method for coupling couplers of two rolling stock units that have ducts through a coupler that has two couplers connected via a coupler holder, wherein the coupler is detachably connected to the first coupler using the first of the couplers wherein the adapter coupling is detachably connected to the second of the coupling devices by means of the second of the connecting devices, and wherein rolling units are connected via conduit coupler.

Such adapter couplings in the form of adapter couplings are known, for example, from EP 2384948 A1 and from Scharfenberg-Systeme by Voith Turbo Scharfenberg GmbH & Co. KG, 09-2010.

As used herein, the term “connecting device” generally means coupling between the adapter of the adapter coupling, on the one hand, and the coupling unit of the rolling stock connected to the adapter coupling, on the other hand. Therefore, the first connecting device, thus, means a pair that is compatible with the coupling device of the first unit of rolling stock and which is designed to form a detachable connection with the coupling device of the first unit of rolling stock. Accordingly, the second connecting device is understood as coupling, which is compatible with the coupling device of the second unit of rolling stock and which is designed to form a detachable connection with the coupling device of the second unit of rolling stock. In the framework of the present invention, the couplers of two rolling stock units may be of the same or different design. Accordingly, in the framework of the present invention, also two coupler couplers may be compatible with couplers of the same design, or the first coupler may be compatible with a coupler of the first structure, while the second coupler is compatible with the coupler of the second structure, the two designs are different.

In addition, as used herein, the term “coupling device” of a rolling stock unit is understood to mean a rolling stock unit device having a coupling that is compatible with the adapter coupling of the coupler and is designed to form a detachable connection with this coupling device of the coupler to transmit tensile forces or tensile and compressive forces. This coupling unit rolling stock may be formed by the hitch or coupled to the hitch adapter hitch. The coupling to the transition hitch may thus be a coupling coupling device or an adapter coupling device.

One embodiment of the coupling device may, for example, have coupling means in the form of a coupling lock for releasably connecting the adapter coupling to the coupling head of an automatic middle buffer coupling (e.g. Scharfenberg coupling). Another embodiment of the connecting device may, for example, have coupling means in the form of a coupling collar that can be inserted into the hook hook of the screw coupling. But for the connecting device (connecting region), other embodiments are also possible.

Based on the transition coupling with the signs of the restrictive part of claim 1 of the claims (EP 2384948 A1), the rolling stock with the signs of the restrictive part of claim 9 and the method with the signs of the restrictive part of claim 10, the invention is based on the task to improve the ability to the interaction of the transition coupling and the units of the rolling stock coupled by means of such transition coupling.

This problem is solved with the help of the transition coupling proposed by the invention according to claim 1, in which there is provided an air preparation device held by the coupling holder, which has one air preparation unit, this one air preparation unit being located on the air flow path of the coupling pipeline.

This problem is also solved with the help of the rolling stock according to the invention according to claim 9, in which the coupling devices of at least two rolling stock units are coupled by means of the transition coupling proposed by the invention.

This problem is also solved by using the method of the invention according to claim 10, in which, by means of the air preparation device held by the coupling holder, which has an air preparation unit located in the air flow path of the coupling pipeline, the air flowing through the coupling pipeline is prepared, in particular, dried and / or filtered.

The transition hitch proposed by the invention can be used, in particular, during towing processes between towing and towing towing couplers and serves not only for the formation of rolling stock, but also, in addition, as an air preparation module. Thus, using the transition coupling proposed by the invention and using the method proposed by the invention, the service life and efficiency of air ducts of rolling stock units and rolling stock system systems connected to these air ducts can be improved.

It is considered preferable if the air preparation device of the transition coupling according to the invention has a different air preparation unit, and this other air preparation unit is located in the air flow path of another coupling pipe for connecting other air ducts of two rolling stock units.

Accordingly, it is considered preferable if, with the method of the invention, the other air ducts of these two units of the rolling stock are connected by means of a different coupling pipe, and by means of another air preparation unit of the air preparation device, which is located in the air flow path of the other coupling pipe, air flowing through the other coupling pipe dried and / or filtered.

Advantageously, in the case of the adapter coupling according to the invention, one coupling pipe can be connected to the main ducts of two rolling stock units. In addition, preferably another coupling line may be connected to the ducts of the main reservoir of the two rolling stock units.

In particular, in order to provide air with low humidity, in particular for units of rolling stock of pneumatic brake systems, connected to the air ducts, it is considered preferable if one air preparation unit has one air dryer and / or another air preparation unit has another air dryer. In this case, it is preferable if one condensate collection system is provided for the dehumidifier of one air preparation unit and / or another condensate collection system is provided for the dehumidifier of the other air preparation unit. By preparing the air through a dehumidifier, that is, by drying the air, the ducts and the systems connected to them are protected against freezing and internal corrosion.

In order also to provide high purity air, in particular for pneumatic brake systems, it is furthermore considered to be preferable if one air preparation unit has one filter and / or another air preparation unit has a different filter, which filters are preferably made in the form of oil filters. By preparing the air through filters, that is, by filtering the air, the ducts and the systems connected to them are effectively protected from the negative effects that, for example, could be created by dirt particles and compressor oil.

By means of the transition coupling proposed by the invention, the rolling stock proposed by the invention and the method proposed by the invention, in particular during towing processes in which the air supply of the towed unit of the rolling stock is disconnected and the air supply of the towed unit of the rolling stock is provided by connecting to the towed unit of the rolling stock to the towed unit of rolling stock can be supplied prepared (purified) air. Thus, without adversely affecting the pneumatic components of the towed unit of rolling stock, a unit of rolling stock that has poorer air quality than a towed unit of rolling stock can also be used as a towing unit of rolling stock.

For this, in particular, the main duct (briefly HL or HLL) and / or the duct of the main reservoir (briefly HB or HBL) of the towed rolling stock unit are connected to the main duct and / or duct of the main reservoir of the towed rolling stock with the intermediate use of the provided air preparation units , and the pneumatic system of the towed unit of rolling stock is filled with air of the towing unit of rolling stock, and this air before entering the towed unit of rolling stock the composition is subject to additional preparation (cleaning) by means of one air preparation unit and / or by means of another air preparation unit.

Therefore, when using the transition coupling proposed by the invention, it is not necessary to put up with the pollution of the pneumatic system of the towed unit of rolling stock. Therefore, after the towing process, they also do not reconcile with a time limit in systems that are connected to this pneumatic system. One of the systems for which this is especially important is, for example, the braking system of a towed unit of rolling stock. In this way, the long service life and efficiency of these air ducts and the systems connected to them (e.g. brake systems) can be guaranteed.

In addition, when using the transition hitch of the invention during the towing process, the operation of the rolling stock of the air preparation system usually found in the towed unit should also not be ensured.

FOR ADDITIONAL DESCRIPTION OF THE INVENTION SHOWN ON

FIG. 1: a rolling stock according to the invention, including two rolling stock units in the form of rail rolling stock units having coupling devices in the form of couplers of the same design, these couplers being coupled by means of a transition coupling according to the invention,

FIG. 2: the second rolling stock according to the invention, including two rolling stock units in the form of rail rolling stock units having coupling devices in the form of couplers of various designs, these couplers being coupled by means of a transition coupling proposed by the invention, on

FIG. 3: the third rolling stock according to the invention, including two rolling stock units in the form of rail rolling stock units having couplers of various designs, the coupling device of the first of two rolling stock units further having an adapter coupling, and wherein the adapter coupling of the first rolling stock unit and the hitch of the second unit of the rolling stock are coupled by means of the transition coupling according to the invention, on

FIG. 4-6: fragments of FIG. 1-3 with the transitional couplers shown there by the invention, into which the air preparation device is integrated in each case, and on

FIG. 7-9: three embodiments of an air preparation device.

In FIG. 1 shows the inventive rolling stock 1, which includes two units 2, 3 of rolling stock in the form of units of a rail rolling stock, during the towing process in the towing direction 4. The first 2 of the two units of rail rolling stock is a towing unit of rolling stock, here only as an example in the form of a locomotive having the first ducts 5, 6 and having the first coupling device 7. The first ducts are the main duct marked with a reference designation 5 ( shortly HL or HLL) and designated by reference numeral 6 the duct of the main reservoir (shortly HB or HBL), which is connected to the main air reservoir not shown here. The second unit 3 of the rolling stock is a towed unit of rolling stock, here, only as an example, in the form of a passenger train, which has a motor car 8 and a trailed car 9 having second ducts 10, 11 and having a second coupling device 12. There is also one 10 of The duct represents the main duct (short HL or HLL), and the other 11 duct the main reservoir (short HB or HBL).

In accordance with FIG. 4 coupling devices 7, 12 of two rolling stock units consist of couplers 13, 14 of the same design. Couplings 13, 14 are, for example, couplings of a structure known as “SA-3”, which are often equipped with Russian units of rail rolling stock and which are hereinafter briefly called SA-3 couplings. Both SA-3 couplings are coupled by the adapter coupling 15 of the invention.

In accordance with FIG. 4, the coupler 15 has, firstly, a first coupler 16 for releasably connecting the coupler 15 to the coupler 17 of the first coupler 13, and secondly, a second coupler 18 for releasably coupled the coupler 15 to the second coupler 19 hitch 14.

In addition, the coupler 15 has a coupler holder 20 that connects two couplers 16, 18 of the coupler 15. This coupler holder 20 is at least partially designed as a coupler body.

In addition, the adapter coupling 15 has one coupling pipe 21 for connecting the main ducts 5, 10 of two rolling stock units and another coupling pipe 22 for connecting the ducts 6, 11 of the main reservoir of two rolling stock units.

According to the invention, the adapter hitch 15 is further provided with an air preparation device 23 which is held by the hitch holder 20. Preferably, the air preparation device 23 is placed in a part of the hitch holder 20 made in the form of a hitch housing.

Depending on the embodiment 23a; 23b; 23c, the air preparation device 23 may have one or two air preparation units (FIGS. 7-9).

So in FIG. 7 shows the first 23a of the embodiments of the air preparation device 23 having two air preparation units 24.1 and 24.2, wherein one 24.1 of the air preparation units is located in the air flow path of one coupling pipe 21, which serves to connect the main air ducts, and the second 24.2 of the air preparation nodes located on the air flow path of another coupling pipe 22, which serves to connect the ducts of the main reservoir of two units of rolling stock.

In FIG. 8 shows a second embodiment 23b of an air preparation device 23 having only one air preparation unit 24.1, which is located here on the air flow path of one coupling pipe 21, which serves to connect the main air ducts.

As shown in FIG. 9 of the third 23c embodiment of the air preparation device 23, which is provided with only one air preparation unit 24.2, the air preparation unit 24.2 is located in the air flow path of another coupling pipe 22, which serves to connect the ducts of the main reservoir of two rolling stock units.

The air preparation devices shown 24.1 or 24.2 respectively have each dehumidifier 25.1 or 25.2 air respectively. In addition, for each of the dehumidifiers 25.1; 25.2 air is provided by system 26.1; 26.3 condensate collection. In addition, the shown air preparation units 24.1, 24.2 have each filter, here in the form of an oil filter 27.1; 27.2, which is located after dehumidifier 25.1; 25.2 air in the direction of flow when filling the pneumatic system of the towed rolling stock unit 28.1; 28.2. But instead of the shown oil filter 27.1; 27.2, or in addition to the oil filter shown, at the shown air preparation units 24.1, 24.2, another filter may also be provided that filters out other dirt particles from the air.

In FIG. 2 shows another inventive rolling stock 31 including two rolling stock units 32, 33 in the form of rail rolling stock units during a towing process in the towing direction 34. Here, the first 32 of two units of rail rolling stock is a towing unit of rolling stock in the form of a locomotive, having first ducts 35, 36 and having a first coupling device 37. The first ducts again represent the main duct (short HL or HLL) and connected to the main air reservoir duct of the main reservoir (shortly HB or HBL). The second unit 33 of the rolling stock is a towed unit of rolling stock, here in the form of a modern high-speed passenger train, which has two motor cars 38 and two trailed cars 39, having second ducts 40, 41 and having a second coupling device 42. Here, there is also one 40 of the second duct is the main duct (short HL or HLL), and the other 41 duct the main tank (short HB or HBL).

In accordance with FIG. 5, the first coupling device 37 of the first rolling stock unit, as an example, consists of the SA-3 hitch 44 equipped with the adapter coupling 43. The second coupling device 42 of the second rolling stock unit (high-speed passenger train) is again known as the “Scharfenberg coupling” coupling 45, the construction of which is different from that of the SA-3 44 hitch.

In accordance with FIG. 5 adapter hitch 43 is used to adapt hitch various designs. Here the adapter hitch 43 serves, for example, to adapt the SA-3 44 hitch to the Scharfenberg hitch. Therefore, the first adapter coupling device 46 of the adapter coupling 43 is compatible with the coupling coupling device 47 of the coupling SA-3 44 of the first rolling stock unit. The second adapter coupler 48 of the adapter coupler 43 is compatible with the Scharfenberg coupler coupler 49 coupler 49 of the second rolling unit, so that the two rolling units 32, 33 could be connected to each other even without the intermediate use of the adapter coupler according to the invention.

The adapter pipe 50 of the adapter coupler 43 is connected to the main duct 35 and forms the end of the main duct of the first rolling stock unit, and the other adapter pipe 51 is connected to the duct 36 of the main tank and forms the end of the duct of the main tank of the first rolling stock.

But the second adapter coupler 48, in particular, is compatible with the first adapter 52 of the adapter hitch 53 according to the invention. The adapter coupler 43 has, therefore, firstly a first adapter coupler 46 for releasably connecting the adapter coupler 43 to the coupler coupler 47 SA-3 hitch 44, and secondly, a second adapter coupler 48 for releasably connecting the adapter coupler 43 to the adapter hitch 53.

The adapter hitch 53 has, firstly, a first coupling device 52 for releasably connecting the adapter coupling 53 to the first coupling device 37, here, on the side of the first rolling stock unit, the second adapter coupling device 48 of the adapter coupling 43 serves as a pair. The adapter hitch 53 has, secondly, a second coupling device 54 for releasably connecting the adapter coupling 53 to the second coupling device 42, here, from the side of the second unit of rolling stock, the coupling coupling device 49 of the Scharfenberg coupling 45 of the second unit of rolling gear is mated.

In addition, the hitch 53 has a hitch holder 55 that connects two connecting devices 52, 54 of the hitch 53. This hitch holder 55 is at least partially designed as a hitch housing.

In addition, the coupler 53 has a hitch line 56 for connecting the main ducts of two units of the rolling stock and another hitch line 57 for connecting the ducts of the main reservoir of the two units of the rolling stock. According to the invention, the transition hitch 53 is further provided with an air preparation device 23 which is held by the hitch holder 55.

In FIG. 3 shows a third inventive rolling stock 61, including two rolling stock units 62, 63 in the form of rail rolling stock units during a towing process in the towing direction 64. Rolling stock units are essentially rolling stock units that correspond to those shown in FIG. 2 units of rolling stock, however, the coupling device of the first unit of rolling stock here does not have an adapter coupling.

The first 62 of the two units of rolling stock is thus a towed unit of rolling stock having the first ducts 65, 66 and the first coupling device 67. The second unit 63 of rolling stock is a towed unit of rolling stock having two motor cars 68, two trailed the car 69, the second ducts 70, 71 and the second coupling device 72.

The first unit 62 of the rolling stock (locomotive), therefore, the SA-3 74 hitch serves as the first coupling device. In the second coupling device 72 of the second rolling unit 63 (high-speed passenger train), the coupling 75 is again the Scharfenberg coupling 75.

In accordance with FIG. 6, the adapter hitch 83 according to the invention is here adapted to connect two coupling devices of different designs, that is, the coupling SA-3 74 of the coupling device 67 and the Scharfenberg coupling 75 of the coupling device 72. For this, the coupling coupling 83 has, firstly, a first a coupling device 82 for releasably connecting the adapter coupling 83 to the first coupling device 67, which is compatible with the coupling coupling device 77 of the SA-3 hitch 74. Secondly, the adapter coupling 83 has a second connector 84 for connecting a lot of coupling of the coupling coupler to the second coupling device 72, which is compatible with the coupling coupling device 79 of the Scharfenberg coupling 75. This transition coupler 83 also has, in addition, a hitch line 86 for connecting the main ducts 65, 70 of two units of the rolling stock and another hitch line 87 for connecting the ducts 66, 71 of the main reservoir of the two units of the rolling stock. According to the invention, the transition hitch 83 is again provided with an air preparation device 23 which is held by the hitch holder 85.

Shown in FIG. 5 and 6, the air preparation devices 20 may also be made in accordance with one of those shown in FIG. 7-9 embodiments. Depending on embodiment 20a, 20b or 20c, as shown in FIG. 5, the air preparation device 20 as shown in FIG. 6, the air preparation device 20 may have one or two air preparation units.

When coupling two units 2, 3; 31, 32; 61, 62 rolling stock transitional hitch 15; 53; 83 by means of its first connecting devices detachably connected to the first of the coupling devices, and by means of its second connecting devices detachably connected to the second of the coupling devices.

In addition, when coupling, one duct (main duct) of two units of the rolling stock are connected through one coupling pipe, and / or other duct (duct of the main reservoir) of two units of the rolling stock are connected by another coupling pipe.

These processes, depending on the design of the coupling devices of the rolling stock units, can be carried out simultaneously or, being separated from each other in time, in addition, automatically or manually.

As soon as air flows through one coupling line, this air is prepared, in particular, dried and / or filtered, by means of an air preparation device 20 held by the coupling holder, which has an air preparation unit located in the path of the air flow of one coupling line.

In addition, by means of another air preparation unit of the air preparation device, which is located in the air flow path of the other coupling pipe, air is produced that flows through the other coupling pipe, in particular, is dried and / or filtered.

That is, in accordance with the invention, when coupling two units of the rolling stock, it is provided to fasten the transition coupling 13 according to the invention; 53; 83 in the form of a filter segment (“filter module”) between the couplers of two rolling stock units.

In this case, the filter module, for example, taking into account the towing speed, could be performed specifically for towing processes. At the same time, components are installed in the filter module that respectively prepare the air for the duration of the towing process. This modular design makes handling easy. One already shown in FIG. 2 and 5, the adapter hitch 43 can weigh up to 50 kg. During the towing process, first the adapter hitch 43 would be mounted on the hitch 44 (here the SA-3 hitch) of the first rolling stock, and then the adapter hitch 53 (filter module) of the invention would be mounted.

This modular principle also has the advantage that if air quality is still sufficient, the filter module can also remain installed.

Claims (11)

1. An adapter coupling (15; 63; 83) for coupling coupling devices (7, 12; 37, 42; 67, 72) of two units (2, 3; 32, 33; 62, 63) of rolling stock that have air ducts ( 5, 10; 35, 40; 65, 70),
- having a first connecting device (16; 52; 82) for detachable connection of the transition coupling with the first (7; 37; 67) of the coupling devices,
- having a second connecting device (18; 54; 84) for detachable connection of the transition coupling with the second (12; 42; 72) of the coupling devices,
- having a hitch holder (20; 55; 85) for connecting the first connecting device (16; 52; 82) to the second connecting device (18; 54; 84), and
- having a pipeline (21; 56; 86) couplers for connecting ducts (5, 10; 35, 40; 65, 70) of two units of rolling stock,
characterized in that an air-conditioning device held by the hitch holder (20; 55; 85) is provided (23; 23a; 23b), which has one air-conditioning unit (24.1), and this one air-conditioning unit (24.1) is located in the air flow path of one pipeline ( 21; 56; 86) couplings. 2. Transitional hitch (15; 63; 83) according to claim 1, characterized in that
- the air preparation device (23; 23a) has another air preparation unit (24.2),
- moreover, another air preparation unit (24.2) is located on the air flow path of another pipeline (21; 56; 86) of the coupler for connecting other air ducts (6, 11; 36, 41; 66, 71) of two units of rolling stock. 3. The transition coupling (15; 63; 83) according to claim 1, characterized in that one coupling pipe (21; 56; 86) can be connected to the main ducts (5, 10; 35, 40; 65, 70) of two units rolling stock. 4. The adapter coupling (15; 63; 83) according to claim 2, characterized in that the other coupling pipe (22; 57; 87) can be connected to the ducts (6, 11; 36, 41; 66, 71) of the two main tanks units of rolling stock. 5. The transition coupling (15; 63; 83) according to one of claims 1 to 4, characterized in that one air preparation unit (24.1) has one dehumidifier (25.1) of air and / or another air preparation unit (24.2) has another dehumidifier ( 25.2) air. 6. The adapter coupling (15; 63; 83) according to claim 5, characterized in that for the dehumidifier (25.1) of the air of one air preparation unit (24.1) one system is provided (26.1) for collecting condensate and / or for the dehumidifier (25.2) of the air of another air preparation unit (24.2) provides another system (26.2) condensate collection. 7. The adapter coupling (15; 63; 83) according to one of claims 1 to 4, characterized in that one air preparation unit (24.1) has one filter (27.1) and / or another air preparation unit (24.2) has another filter (27.2 ) 8. The adapter coupling (15; 63; 83) according to claim 7, characterized in that the filters (27.1, 27.2) are made in the form of oil filters. 9. Rolling stock (1; 31; 61), which includes at least two units (2, 3; 32, 33; 62, 63) of rolling stock, coupling devices (7, 12; 37, 42; 67, 72 ) which are coupled by means of a transition coupling (15; 63; 83),
characterized in that the transition coupling (15; 63; 83) is made according to one of claims 1 to 8. 10. The method of coupling the coupling devices (7, 12; 37, 42; 67, 72) of two units (2, 3; 32, 33; 62, 63) of rolling stock that have air ducts (5, 10; 35, 40; 65 , 70) by means of a transition coupling (15; 63; 83), which has two coupling devices (16, 18; 52, 54; 82, 84) connected by means of a holder (20; 55; 85),
- in which the adapter coupling (15; 63; 83) by means of the first (16; 52; 82) of the connecting devices is detachably connected to the first (7; 37; 67) of the coupling devices, and
- in which the adapter coupling (15; 63; 83) by means of the second (18; 54; 84) from the connecting devices is detachably connected to the second (12; 42; 72) from the coupling devices, and
- in which the ducts (5, 10; 35, 40; 65, 70) of two units of the rolling stock are connected by means of a single coupling pipe (21; 56; 86),
characterized in that
- by means of the coupling of the air preparation device (23; 23a; 23b) held by the holder (20; 55; 85), which has one air preparation unit (24.1) located on the air flow path of the coupling pipeline (21; 56; 86), the current through this the coupling duct (21; 56; 86) of the air, in particular, is dried and / or filtered. 11. The method according to claim 10, characterized in that
- other ducts (6, 11; 36, 41; 66, 71) of two units (2, 3; 32, 33; 62, 63) of the rolling stock are connected by means of another coupling pipe (22; 57; 87), and
- by means of another air preparation unit (24.1) of the air preparation device (23; 23a), which is located on the air flow path of another coupling pipe (22; 57; 87), the air flowing through this other coupling pipe (22; 57; 87) is prepared, In particular, it is dried and / or filtered.

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