EP3121091B1 - Holder for antennas - Google Patents

Description

Technical area

The present invention relates to a holder for antennas, in particular a height-adjustable bracket for Balisenantennen of rail vehicles.

Prior art

For railway traffic, a number of safety techniques have been developed to ensure the safest and smoother operation possible. Such a track side built, punctual security technology is z. B. a so-called balise. A balise is a data transmission unit (transponder) that stores safety-relevant data on rail vehicles, e.g. Route information for the control of the tilting technology in the context of speed monitoring, transmitted. The balise may be fixedly mounted in or on the track bed, e.g. on rail sleepers, and is then excited by means of a typically vertical magnetic field when it is run over by a rail vehicle equipped with a corresponding balise antenna.

The European Train Control System (ETCS) is the basis for standardizing national train control techniques and thus an interoperable railway operation in Europe. Depending on the equipment level 1 to 3 corresponding so-called Eurobalises are used, which satisfy the ETCS specification. Similar balises are also used in China, which requires an ETCS-based Chinese Train Control System for high-speed trains.

In the CN 103378403 A a railway vehicle antenna system is described, which has an installation base system and an antenna, which are interconnected by a height adjustment. The EP 2 145 810 B1 describes a height-adjustable fastening device for a component on a rail vehicle, with a clamping piece, wherein the clamping piece is fixed to the rail vehicle and having a clamping surface, with a clamping plate, and with at least one clamping plate and the clamping piece clamping clamping screw, and wherein between clamping piece and clamping plate at least one adjusting screw is provided, which is arranged parallel to the clamping surface and thus perpendicular to the at least clamping screw. In addition, the describes US 4931809 A a mounting arrangement for attaching a satellite transmission antenna to a truck or other mobile vehicle comprising a base member having a lower mounting surface adapted to be secured to a mobile vehicle surface, wherein a first pivot axis on the base member is upwardly spaced from the mounting surface and extends parallel to the mounting surface, an upper member having an upper surface Surface, to which the antenna is mounted, and a second pivot axis spaced downwardly from the upper surface and extending parallel to the upper surface and the first pivot axis, and a strut connected at their end portions to the first and second pivot axes such that, for varying the height and orientation of the mounted antenna, the top surface and the bottom mounting surface are adjustable relative to each other with respect to their angle and spacing.

Disadvantages of the prior art

The previously known solutions for the height adjustment of the balise antenna are complicated, not user-friendly enough and / or allow only an adjustment of the height of the balise antenna on the track bed, which does not sufficiently compensate for the change in position of the balise antenna due to the wear of the rail vehicle wheels.

problem

The object of the present invention is to provide a reliable and easily adjustable height adjustment for antennas, in particular balise antennas, which allows a more accurate consideration of the wear of the rail vehicle wheels.

Inventive solution

The above object is achieved by a height-adjustable bracket according to claim 1 and a rail vehicle according to claim 13.

According to an embodiment, a height-adjustable mount for an antenna comprises a vehicle-side part attachable to a rail vehicle, an antenna-side part to which the antenna can be fastened, a height adjustment means with which a position of the antenna-side part is steplessly adjustable relative to the vehicle-side part in a first direction, and a locking means independent of the height adjusting means, with which the height adjustment means adjustable position of the antenna side part relative to the vehicle side part is fixable, wherein the locking means is operable by a rotational movement of a screw about an axis parallel to the first direction axis.

Characterized in that the position of the antenna-side part relative to the vehicle-side part by means of the height adjustment means in the first direction, for example in a vertical direction, is infinitely adjustable, and can be fixed in this position by the height adjustment independently operable locking means, the height of the antenna can be easily, reliably and very finely adjusted.

If such a holder is attached with its vehicle-side part to a car body of a rail vehicle, the height of an antenna-side part of the holder attach antenna, typically a Balisenantenne, above the track bed and thus on the track bed mounted data transmission units (transponder), typically balises, simple, reliable and very accurate. This facilitates reliable information transfer between the data transmission units and the antenna, since the vertical distance of the antenna to the transmitting devices can be adjusted accordingly and also height differences between the track bed and the car body, e.g. due to wear in the course of operation wheels of the rail vehicle, can be compensated. Such an antenna height adjustment can take place, for example, in the context of maintenance.

For example, the holder may have a guide connected to the vehicle-side part and a clamping unit arranged in the guide and connected to the antenna-side part, which is freely movable in the guide in the first direction in the unclamped state, and in the clamped state in the guide in FIG a working direction perpendicular to the first direction is jammed. The guide can both facilitate the height adjustment as well as be used for locking. The guide can form a locking device of the holder together with the clamping unit.

However, the holder may also have a guide connected to the antenna side and connected to the vehicle-side part clamping unit, which is freely movable in the unclamped state in the guide in the first direction, and frictionally engaged in the clamped state with the Guidance connected or jammed in the direction in the direction of action. The fact that the clamping unit is guided in the guide during the height adjustment and clamped therein again, can make possible an at least largely height-independent horizontal mounting of the antenna.

Typically, the height adjustment means and the locking means are operable by a rotational movement of a respective screw member about respective axes which are parallel to the first direction. The rotational movement of the screw to the Height adjustment allows a reproducible stepless height adjustment. The rotational movement of the screw for locking the set by means of the height adjustment means allows a secure and stable fixation of the situation and a simple release of the fixation.

In this case, two typically identically designed locking means can be provided to increase the stability of the lock, which are arranged symmetrically to the height adjustment.

If the height adjustment means and the locking means by rotational movements of the respective screw about mutually parallel axes, e.g. vertical axes, is easy to adjust or change the vertical distance of the antenna of the rail vehicle to the data transmission units of the track bed, since the screw elements of the holder only from one side, e.g. the bottom, need to be accessible.

The height adjustment means may comprise a threaded screw, a threaded rod and / or a nut.

Typically, the clamping unit comprises a clamping piece and a clamping piece, each having a relative to the first direction inclined sliding surface at which the clamping piece and the clamping piece contact each other and are displaceable along this relative to each other, wherein the clamping piece and the clamping piece by a relative movement be moved along their sliding surfaces relative to each other in the direction of action.

It can be provided that press the clamping piece and the clamping piece in the jammed condition of the clamping unit against opposing inner surfaces of the guide. This allows a particularly stable positional fixation.

Typically, the locking means further comprises a screw which passes through a through hole of the clamping piece and engages an internal thread of the clamping piece, so that by screwing the screw into the internal thread of the clamping piece, the clamping piece and the clamping piece in the first direction are relatively moved towards each other and by sliding along their sliding surfaces are moved parallel or anti-parallel to the direction of action.

For this purpose, the internal thread of the clamping piece and the through hole of the clamping piece have a respective axis, which is typically parallel to the first direction.

In addition, the through hole of the clamping piece typically has a cross section perpendicular to its longitudinal direction, which is a displacement of the screw in the Through hole in a direction perpendicular to the longitudinal direction transverse direction, in particular in the direction of action, allows.

Furthermore, it can be provided that the clamping piece has a receptacle for a threaded insert and the antenna-side part is screwed with a releasably inserted into the receptacle of the clamping piece threaded insert. Jamming of the screw screwed into the internal thread of the clamping piece screw can also be reliably prevented if a plurality of arranged in respective guides clamping units are used, which are successively solved or jammed.

The embodiments described above may be combined with each other if technically compatible and within the scope defined by the claims.

Brief description of the figures

The accompanying drawings illustrate embodiments and, together with the description, serve to explain the principles of the invention. The elements of the drawings are relative to one another and not necessarily to scale.

• Figur 1 zeigt eine höhenverstellbare Halterung für eine Antenne gemäß einem nicht zur Erfindung gehörenden Ausführungsbeispiel.
• Figur 2 zeigt ein Schienenfahrzeug mit einer höhenverstellbaren Halterung für eine Antenne wie sie in Figur 1 gezeigt wird gemäß obigem, nicht zur Erfindung gehörenden Ausführungsbeispiel.
• Figur 3 zeigt perspektivische Schnittansicht einer höhenverstellbaren Halterung für eine Antenne gemäß einem Ausführungsbeispiel.
• Figur 4 zeigt ein Verbindungsteil der Halterung für eine Antenne gemäß einem Ausführungsbeispiel.
• Figur 5 zeigt eine weitere perspektivische Schnittansicht der in Figur 3 dargestellten höhenverstellbaren Halterung gemäß einem Ausführungsbeispiel.
• Figur 6 zeigt eine weitere perspektivische Ansicht der in Figur 3 dargestellten höhenverstellbaren Halterung gemäß einem Ausführungsbeispiel.
• Figur 7 zeigt noch eine weitere perspektivische Ansicht der in Figur 3 dargestellten höhenverstellbaren Halterung gemäß einem Ausführungsbeispiel.
• Figur 8 zeigt eine weitere perspektivische Ansicht der in Figur 3 dargestellten höhenverstellbaren Halterung gemäß einem Ausführungsbeispiel.
• Figur 9A zeigt eine perspektivische Ansicht eines Klemmstücks der in Figur 3 dargestellten höhenverstellbaren Halterung gemäß einem Ausführungsbeispiel.
• Figur 9B zeigt eine schematische Aufsicht des in Figur 9A dargestellten Klemmstücks gemäß einem Ausführungsbeispiel.
• Figur 9C zeigt eine schematische Seitenansicht des in Figur 9A dargestellten Klemmstücks gemäß einem Ausführungsbeispiel.
• Figur 10A zeigt perspektivische Ansicht eines Spannstücks der in Figur 3 dargestellten höhenverstellbaren Halterung gemäß einem Ausführungsbeispiel.
• Figur 10B zeigt eine schematische Aufsicht des in Figur 10A dargestellten Spannstücks gemäß einem Ausführungsbeispiel.
• Figur 10C zeigt eine schematische Seitenansicht des in Figur 10A dargestellten Klemmstücks gemäß einem Ausführungsbeispiel.
• Figur 10D zeigt eine perspektivische Ansicht eines Gewindeeinsatzes für das in Figur 10A dargestellten Klemmstücks gemäß einem Ausführungsbeispiel.

Like reference numerals designate corresponding parts accordingly.

• FIG. 1 shows a height-adjustable holder for an antenna according to an embodiment not belonging to the invention.
• FIG. 2 shows a rail vehicle with a height-adjustable bracket for an antenna as shown in FIG. 1 is shown according to the above, not part of the invention embodiment.
• FIG. 3 shows a perspective sectional view of a height-adjustable holder for an antenna according to an embodiment.
• FIG. 4 shows a connecting part of the holder for an antenna according to an embodiment.
• FIG. 5 shows a further perspective sectional view of the in FIG. 3 illustrated height-adjustable holder according to an embodiment.
• FIG. 6 shows another perspective view of in FIG. 3 illustrated height-adjustable holder according to an embodiment.
• FIG. 7 shows yet another perspective view of the in FIG. 3 illustrated height-adjustable holder according to an embodiment.
• FIG. 8 shows another perspective view of in FIG. 3 illustrated height-adjustable holder according to an embodiment.
• Figure 9A shows a perspective view of a clamping piece of in FIG. 3 illustrated height-adjustable holder according to an embodiment.
• FIG. 9B shows a schematic plan view of the in Figure 9A illustrated clamping piece according to an embodiment.
• FIG. 9C shows a schematic side view of the in Figure 9A illustrated clamping piece according to an embodiment.
• Figure 10A shows perspective view of a clamping piece of in FIG. 3 illustrated height-adjustable holder according to an embodiment.
• FIG. 10B shows a schematic plan view of the in Figure 10A illustrated clamping piece according to one embodiment.
• FIG. 10C shows a schematic side view of the in Figure 10A illustrated clamping piece according to an embodiment.
• Figure 10D shows a perspective view of a threaded insert for in Figure 10A illustrated clamping piece according to an embodiment.

embodiments

FIG. 1 shows a not belonging to the invention height-adjustable bracket 100 with a mounted on the bracket 100 Balisenantenne 1 in a schematic cross-sectional view. A vehicle-side part 100A of the bracket 100 is stably attached to an in FIG. 1 Rail vehicle, not shown, for example, attached to the underside of the car body, and is held by the rail vehicle on the thresholds 51 and rails 5 and guided while driving the rail vehicle.

The vehicle-side part 100A can be connected, for example, by means of a plurality of screw connections to a lower side of the car body of the rail vehicle.

FIG. 2 shows the rail vehicle 500 with the height-adjustable bracket 100. For clarity, in FIG. 2 however on the representation of the Balisenantenne and details of the holder 100 omitted. In addition, in FIG. 2 only an exemplary railcar of rail vehicle 500 is shown. The rail vehicle 500 may be a local or long-distance train. For example, rail vehicle 500 may be a high speed train designed for travel speeds of at least 160 km / h, at least 180 km / h, or even at least 190 km / h.

For better orientation, Cartesian coordinate systems xyz are shown in the figures, wherein the z-direction represents the first direction, which is typically a vertical direction, and the x-direction in the direction of travel of the rail vehicle 500 can be oriented. Accordingly, the y-direction may correspond to an orientation of thresholds 51.

As in the exemplary embodiment of FIG. 2 is shown, the bracket 100 may be arranged with the Balisenantenne behind the front in the direction of travel x bogie 502 with the wheels 501 and attached to the car body of the rail vehicle 500.

This allows a comparatively low-jitter guiding the balise antenna 1 above the track bed and thus on the balises 52, as in FIG. 1 is shown, typically arranged approximately centrally between the rails 5. In addition, a balise 52 may be attached to a rail 51 carrying the rails 51.

In order to adjust the height h of the balise antenna 1 above the balise 52, that is, the distance between the balise 52 and the basl iron antenna 1 in the z-direction (first direction) is between the vehicle-side part 100A and an antenna-side part 100B where the balise antenna 1 is fastened, typically by means of one or more screw connections, a height adjusting means 2 is provided with which a position of the antenna-side part 100B relative to the vehicle-side part 100A in the z-direction can be adjusted continuously. Since the vehicle-side part 100A is attached to the car body of the rail vehicle, in this way, a distance d between the car body and the balise antenna 1 (eg between respective lower sides) and thus also the height h in the z direction can be adjusted continuously. This allows a reduction in the height D of the car body over the rails 5 due to wear of the wheels and an increase in the height D due to an exchange of worn wheels by new wheels by a corresponding change of the distance d to compensate so that the height h of the baseline antenna 1 over the balise 52 remains in the desired range.

In the in FIG. 1 1, a lower region of the vehicle-side part 100A is designed as a guide 4 in which, in an illustrated unlocked state of the holder (which is also referred to as the non-clamped state), an upper region of the antenna-side part 100B is freely movable in the positive z-direction ( except for the gravitational force acting on the antenna side part 100B and the balise antenna 1 in the negative z direction). In the negative z-direction, the antenna-side part 100B is held by a screw 2 inserted into a threaded hole 6 in the vehicle-side part 100A, which constitutes the height-adjusting means of the bracket 100. By a rotational movement of the screw 2 about its oriented in the z-direction axis, the distance d and thus the height h can be changed steplessly in the unlocked state. Instead of the screw, another screw, for example a nut sitting on a threaded rod rotatably connected to the vehicle-side part 100A, can also be used.

As a locking means of the holder 100 are two screws 3, which are guided in openings provided with a respective internal thread in the guide 4. To lock the set by means of the screw 2 position of the parts 100A and 100B to each other (and thus the height h) is screwed at least one of the screws 2, typically both screws for safety reasons until they press against the antenna-side part 100B. Thereby, the antenna-side part 100B is fixed in the guide.

As in FIG. 1 is shown, the direction of action of the screws 3 (unlike the present invention according to claim 1) is typically perpendicular (parallel or antiparallel to the y-direction) to the direction of the height adjustment (z-direction). As a result, a change in the height h set with the screw 2 can be reliably avoided.

By means of two locking means 3 between which the height adjustment means 2 is arranged, a particularly stable fixation of the set position of the parts 100A and 100B to each other and thus the height h can be guaranteed, which withstands the inevitable joggers when driving the rail vehicle safely. It can be provided that the locking means 3 symmetrically with respect. The height adjustment means 2 are arranged.

FIG. 3 shows an upper part of a height-adjustable bracket 101 for an antenna in a perspective view. The bracket 101 is similar to that described above with reference to FIGS Figures 1 and 2 also has a vehicle-side part 100A, which can be fixed to a rail vehicle, an antenna-side part 100B for an antenna, a height adjustment means 2A with the position of the antenna-side part 100B relative to the vehicle-side part 100A in the z-direction is infinitely adjustable , and two independently operable locking means 20, 30 for fixing or locking the set position. By the selected cut is in FIG. 3 only a part of a resting on the height adjustment means 2A support member 8 of the antenna-side part 100B is shown, which is held by the designed as a nut 2A Höheneinstellmittel on a threaded rod (or a threaded bolt) 2B, which is fixedly connected to a connecting part 10 of the vehicle-side part 100A and with its thread is guided through a through hole of the connecting element 8.

On a representation of an optional housing, which can at least partially surround the shown frame construction of the vehicle-side part 100A, the connecting part 10 and the antenna-side part 100B, as well as a detailed description of the frame construction is omitted for reasons of clarity. The frame construction can be made of metal sheets and metal supports.

The connecting part 10 may be welded or screwed to the frame construction. FIG. 4 shows an enlarged perspective view of the connecting part 10. The connecting part 10 may be made of metal sheets.

Typically, the connecting part 10 has two guides 4, which can be elongated cuboid, parallel to the axis of the threaded rod 2B and / or arranged symmetrically to the threaded rod 2B.

In each of the guides 4 of the connecting part 10, a clamping unit 20, 30 may be at least partially arranged, which in the non-clamped (unlocked) state in the positive z-direction freely in the respective guide 4 is movable. In the negative z-direction, movements of the clamping units 20, 30 are typically limited by the nut 2 A, since the clamping units 20, 30 via a respective in FIG. 3 shown screwed connection 25 fixed to the antenna-side part 100 B and the support element 8 are connected.

This is in FIG. 5 which shows a further perspective view of the height-adjustable support 101, in which also two connecting elements 9 of the antenna-side part 100B are shown, which are held by the screw 25.

FIG. 6 shows an enlarged perspective view of the height-adjustable bracket 101 in the vicinity of the left guide 4 of FIG. 6 , It also shows a part of a typically metallic frame 15 of the antenna-side part 100B, to which the balise antenna or a support element for the balise antenna can be fastened.

In the in FIG. 6 illustrated exemplary embodiment, the frame 15 by means of a screw 25 via the connecting element 9 with a clamping piece 20 of the clamping member 20, 30 screwed.

As in the perspective view of FIG. 7 is shown, the frame 15 may be arranged between two typically identical connecting parts 10 of the vehicle-side part 100A. As a result, the positional stability of the balise antenna in the holder 101 can be increased. By using two offset in y-direction height adjustment means also a height difference between the left and right half of the rail vehicle can be corrected.

As in the perspective view of FIG. 8 is shown, the balise antenna can be arranged on the underside of the frame 15 and be bolted to the frame 15, for example.

In this case, the frame 15 is typically dimensioned in its y-dimension so that both the height adjustment means and the operating elements for each of the exemplary four arranged in a respective guide 4 clamping unit 20, 30 are freely accessible from below. This allows a simple readjustment of the height of the balise antenna 1 by rotating respective control elements about their rotation axes oriented in the z-direction. Further details on the height adjustment and locking of the balise antenna 1 on the position change and locking of the parts 100A and 100B in the z direction will be described below with reference to FIG FIG. 3 and to the FIGS. 9A to 10D explained.

How out FIG. 3 it can be seen, the height of the support element 8 (and thus of the frame 15 and the balise antenna 1) can be changed in the unlocked state by turning the nut 2A about the oriented in the z-direction axis of the threaded rod 2B.

Instead of the nut 2A, it is also possible to use a screw as a height adjusting means which can be inserted into a thread of the connecting part 10, e.g. of the U-shaped member 11 is inserted.

In order to transfer the holder 101 from the unlocked to the locked state (locking) and from the locked to the unlocked state (release), for each of the clamping units 20, 30 a control element 7 designed as a screw element, e.g. a screw or a nut (in conjunction with a threaded rod) provided. In the following, the locking unit formed by the respective clamping unit 20, 30 and the associated operating element 7 in cooperation with the guide unit 4 receiving the clamping unit 20, 30 will be further explained as a corresponding operating element.

As in FIG. 3 is shown, the clamping unit 20, 30 typically a clamping piece 30 and a (in the z-direction) arranged above the clamping piece 20. While the guide 4 typically completely accommodates the tensioning piece 20, the clamping piece 30 can protrude downwards out of the guide.

The in FIG. 3 shown clamping piece (s) 30 is shown in more detail in the FIGS. 9A to 9C shown. The clamping piece 30 shown by way of example therein consists of a cuboid base body whose top surface 31 is, however, inclined (beveled) to the z-axis, ie a first acute angle of typically about 45 ° with the z-direction (and one typically oriented in the z-direction Base 33 of the clamping piece 30) forms. In addition, the edges of the main body of the clamping piece 30 may be chamfered.

From the base 33 to the top surface, a through hole 32 extends for the screw. 7

So that the screw 7 does not jam in the through-hole 32 in the locked state, the extent of the through-hole 32 in the x-direction is typically chosen to be sufficiently large. For example, the through-hole 32 may extend in the x-direction by at least 10%, more typically by at least 25%, greater than in the y-direction to have. Therefore, the through hole 32 in xy-sections the in FIG. 9B have shown oval cross-section.

As in the Figures 9A and 9C In addition, one of the side surfaces of the clamping piece 30 may be roughened and / or provided with a plurality of protruding ridges. As a result, an improved grip on the side wall of the guide 4 can be ensured in the locked state.

The arranged in the respective guide 4 above the clamping piece 30 clamping piece 20 is shown in more detail in the FIGS. 10A to 10C shown. The clamping piece 20 shown there by way of example also consists of a cuboid base body whose top surface 21 forms a second acute angle, typically likewise an angle of approximately 45 ° with the z-direction (and a base surface 26 typically oriented in the z-direction). In addition, the edges of the main body of the clamping piece 20 may be chamfered.

As in the Figures 10A and 10C In addition, one of the side surfaces of the spanner 20 may be roughened and / or provided with a plurality of protruding ridges. As a result, an improved grip on the side wall of the guide 4 can be ensured in the locked state.

The clamping piece 20 typically has a hole 22 provided with an internal thread 27 and oriented in the z-direction, into which the screw 7 guided through the through-hole 32 of the clamping piece 30 can be screwed.

Since the hole 22 extends from the top surface 21 in the clamping piece 20, the internal thread 27 typically begins only at a certain depth, typically only where the thread 27 can run without interruption. As a result, the insertion of the screw 7 in the thread 27 is facilitated. For the same reason it can also be provided that the hole 22 has a slightly larger diameter until the beginning of the thread 27.

When the screw 7 is screwed in the unlocked state in the thread 27, the clamping piece 30 is raised in the z-direction. After the clamping piece 30 abuts with its top surface 31 against the oppositely arranged top surface 21 of the clamping piece 20, a further screwing the screw 7 causes the top surfaces 21, 31 slide past each other. Therefore, they are also referred to as sliding surfaces 21, 31. This But also leads to the fact that the clamping piece 30 (in the selected coordinate system xyz) in the positive x-direction and the clamping piece 20 is displaced in the negative x-direction until the clamping piece 30 and the clamping piece 20 press against opposing inner surfaces of the guide 4, whereby the locked state of the bracket 101 is reached. A release of the lock can be done by rotating the screw (s) 7 about their axes in the opposite direction.

If the first and the second acute angle are each 45 °, the effective direction is perpendicular to the direction of the height adjustment (z-direction). As a result, it can be safely avoided that the height set by the nut 2A is not changed by the locking.

The first and second acute angles may also deviate slightly from 45 °, e.g. by up to 5 °, up to 10 ° or even up to 20 °, but their sum is typically always about 90 °.

As in the Figures 10A and 10C is shown, the clamping piece 20 typically has a receptacle 23, 24 for a threaded insert 40 as in Figure 10D will be shown. The typically cylindrical threaded insert 40 has an internally threaded hole 41, typically a through hole, which may be perpendicular to the cylinder axis.

The threaded insert 40 can be inserted into the opening 23 of the clamping piece 20, so that the internal thread of the hole 41 for the in FIG. 6 shown screw 25 is accessible.

When using a plurality of arranged in respective guides 4 clamping units 20, 30 which are successively adjusted for releasing or locking, it could come without tolerances in the threaded inserts to jamming the screwed screws 25. Due to the oval recess 24 of the receptacles 23, 24, which allow an angular offset of the threaded insert 40, however, jamming of the screwed-in screws 25 can be reliably prevented.

Since the controls 2a, 7 of the holder 101 for height adjustment and locking by rotations about each (in the chosen coordinate system xyz) in the z-direction oriented axes can be done, the operation in comparison to the above with reference to FIG. 1 illustrated bracket 101 typically simplified.

While specific embodiments have been illustrated and described herein, it is within the scope of the present invention to properly modify the illustrated embodiments without departing from the scope of the present invention. The following claims define the scope of the invention.

LIST OF REFERENCE NUMBERS

1

Antenna / Balise Antenna

2, 2A

Height adjustment / screw / screw / nut

2 B

Threaded rod. threaded bolt

3

Locking device / screw element

4

guide

5

rail

8th

support element

9

connecting element

10

connecting part

15

frame

20

sear

25

Screw / threaded bolt

30

clamp

40

threaded insert

51

threshold

52

Balise / Eurobalise

500

Rail vehicle / multiple unit

Claims (13)

1. Height-adjustable holder (100, 101) for an antenna (1), comprising:

   - a vehicle-side member (100A) which is attachable to a rail vehicle (500);

   - an antenna-side member (100B) to which the antenna (1) is attachable;

   - a height adjusting means (2) for continuously adjusting a position of the antenna-side member (100B) relative to the vehicle-side member (100A) in a first direction (z); and

   - a locking means (2) which is independent of the height adjustment means (20, 30) and by means of which the position of the antenna-side member (100B) which is adjustably by the height adjustment means (2) can be fixed relative to the vehicle-side member (100A), and which can be operated by a rotary movement of a screw element (7) about an axis which runs parallel to the first direction.
2. Holder according to claim 1, wherein the locking means (20, 30) has an acting direction perpendicular to the first direction.
3. Holder according to claim 1 or 2, wherein the height adjusting means (2) is operable by a rotational movement of a respective screw element (2, 3) about an axis which is parallel to the first direction.
4. Holder according to claim 2 or 3, wherein the holder (100, 101) comprises a guidance (4), wherein the locking means (20, 30) comprises a clamping unit (20, 30) arranged in the guidance (4), the clamping unit being freely movable in the guidance (4) in the first direction in an unclamped state, and being clamped in the guidance (4) in the acting direction in a clamped state, and / or wherein either the guidance (4) is connected to the vehicle-side member (100A) and the clamping unit (20, 30) is connected to antenna-side member (100B), or the clamping unit (20, 30) is connected to the vehicle-side member and the guidance (4) (4) is connected to antenna-side member (100B).
5. Holder according to claim 4, wherein the clamping unit (20, 30) comprises at least one tensioning piece (20) and at least one clamping piece (30) each having a sliding surface which is inclined relative to the first direction and on which the at least one tensioning piece (20) and the at least one clamping piece (30) come into contact with one another and are displaceable relative to one another along the sliding surfaces, wherein the tensioning piece (20) and the clamping piece (30) are displaceable relative to one another in the direction of action by a relative movement along their sliding surfaces.
6. Holder according to claim 5, wherein the locking means (20, 30) further comprises a screw which engages an internal thread of the tensioning piece (20), and wherein the clamping piece (30) comprises a through hole for the screw through which the screw passes such that, by screwing the screw into the internal thread of the tensioning piece (20) the tensioning piece (20) and the clamping piece (30) are moved relative to each other and, in the direction of action, are moved in opposite direction by sliding along their sliding surfaces.
7. Holder according to claim 6, wherein the internal thread of the tensioning piece (20) and the through-hole of the clamping piece (30) comprise a respective axis which is parallel to the first direction.
8. Holder according to claim 6 or 7, wherein the through hole of the clamping piece (30) has a cross-section perpendicular to its longitudinal direction which allows displacement of the screw in the through hole (30) in a transverse direction which is perpendicular to the longitudinal direction.
9. Holder according to any of the claims 5 to 8, wherein the tensioning piece (20) and the clamping piece (30), in the clamped state of the clamping unit (20, 30), press against opposing inner surfaces of the guidance (4).
10. Holder according to any of the claims 5 to 9, wherein the tensioning piece (20) comprises a receptacle (23, 24) for a threaded insert (40) and the antenna-side member (100B) is screwed to the threaded insert (40) detachably inserted in the receptacle (23, 24).
11. Holder according to any of the preceding claims, comprising two locking means (20, 30) arranged symmetrically to the height adjustment means (2).
12. Holder according to any of the preceding claims, wherein the height adjusting means (2) comprises a threaded screw, a threaded rod and/or a nut.
13. Rail vehicle (500), comprising:

    - a car body;

    - a holder (100, 101) according to any of the preceding claims, the vehicle-side member (100A) of which is attached to the car body; and

    - an antenna attached to the antenna-side member (100B) of the holder (100, 101).

Images