NL2024912B1 - Signal transmission device for transmitting a signal between parts movable relative to each other - Google Patents

Abstract

A signal transmission device 1 has a part 3 connected to the fixed world and a part 5 rotatable about an axis 7, as well as an elongate, flat cable carrier 9 which is connected to the two parts. This cable carrier is formed by a flexible metal band 9 which is attached with the ends 9C and 9D to the two parts 3 and 5. Between the two ends the band 9 is 180 degrees about an imaginary axis 13 parallel to the main sides of the cable. band 9 bent. Present on either side of the belt 9 are cables 11 which are connected to the belt along its length. The cables 11 are located in the plane of the belt 9. Distributed along the length, permanent magnets 15 are attached to the cable carrier 9 and the sides 3A and 5A of both parts cooperating with the belt 15 are made of ferromagnetic material.

Description

DESCRIPTION Field of the Invention having an axis rotatable, tiltable, and/or axially or radially displaceable, the signal transmission device comprising an elongate, flat support having two opposite main sides, the support being secured with one end to one part and the other end fixed to the other part and between the two ends is bent about an imaginary axis parallel to the principal sides of the carrier, each of the parts having a contact surface in contact and cooperating with the carrier, said contact surfaces being spaced from each other and facing each other.

The signal transmission device may, for example, comprise electrically or optically conductive cables through which electrical or optical signals can be conducted.

Background Art Such a signal transmission device is generally known.

The known signal transfer device has a cable carrier which carries cables.

This cable carrier is composed of wide links which are movably connected to each other to form a chain, the cables being present on one of the main sides of the links.

A drawback of this known signal transmission device is that signal disturbance and dynamic disturbance occur as a result of bending the cables.

Furthermore, the known signal transmission device is not vacuum compatible because it is made of plastic and wear particles are formed as a result of friction.

Summary of the invention An object of the invention is to provide a signal transmission device of the type described in the preamble, in which interference-free signal transmission takes place. To this end, the signal transmission device according to the invention is characterized in that the carrier is formed by a flexible band. The flexible belt moves between both parts (for example, a fixed world and a rotating part). Because the carrier has no moving parts in contact with each other, little or no generation of wear particles takes place.

The belt itself may act as a signal conductor or the signal transmission device may comprise cables which are in the plane of the belt adjacent to the belt and connected to the belt along its length or which are incorporated into the belt. During the movement of the parts relative to each other, the belt and any cables present are bent cleanly and are not subjected to any pressure or tensile forces, resulting in less signal disturbance and less dynamic disturbance.

By making the carrier of a conductive material, such as for instance metal, heat can also be dissipated via the carrier from one part (for example the rotating part) to the other part (for example the part connected to the solid world). Metal is a vacuum-compatible material, so that in that case the signal transfer device is suitable for use under vacuum conditions.

Instead of one band, several bands can be arranged parallel to each other to increase the heat transfer.

The belt may have resilient properties such that it is pressed against the surfaces of the parts as a result of bending. Preferably, however, the band is held by the members. To this end, an embodiment of the signal transmission device according to the invention is characterized in that permanent magnets are fixed to the cable carrier distributed over the length and one or both parts are made of ferromagnetic material with one or both sides facing each other, or in that one or both parts are provided. made of permanent magnets and the cable carrier is made of ferromagnetic material. These magnets force the tire into the desired shape.

The belt can be of circular (or spiral) shape in the non-bent condition and the contact surfaces of the two parts can be flat surfaces which are parallel to each other.

The belt can also be straight in the non-bent condition and the contact surfaces of the two parts can be (concentric) cylindrical circumferential surfaces.

Brief description of the drawings The invention will be further elucidated below on the basis of drawings of exemplary embodiments of the signal transmission device according to the invention.

In the drawing: Figure 1 shows a first embodiment of the signal transmission device according to the invention; and Figure 2 shows a second embodiment of the signal transmission device according to the invention.

Detailed description of the drawings Figure 1 shows a first embodiment of the signal transmission device 1 according to the invention.

The signal transmission device 1 has a part 3 connected to the fixed world and a part 5 rotatable about an axis 7, as well as an elongate, flat cable carrier 9 which is connected to the two parts.

This cable carrier is formed by a flexible metal band 9 which is provided with two opposite main sides 9A and 9B.

The band is attached with one end 9C to one part 3 and the other end 9D to the other part 5. Between the two ends 9C and 9D, the band 9 is 180 degrees about an imaginary axis 13 parallel to the main sides 9A and 9B of the belt 9 bent over.

Each of the parts 3 and 5 is provided with a contact surface 3A and 5A which is in contact and cooperates with the belt 9. The contact surfaces 3A and 5A are spaced apart and directed towards each other.

The band 9 in the non-bent condition is circular (spiral-shaped) and the contact surfaces 3A and SA of the two parts 3 and 5 are flat surfaces which are parallel to each other.

Present on either side of the belt 9 are cables 11 which are connected to the belt along its length. The cables 11 are in the plane of the belt

9. Distributed along the length, permanent magnets 15 are attached to the cable carrier 9 and the sides 3A and 5A of both parts 3 and 5 cooperating with the belt are made of ferromagnetic material.

Figure 2 shows a second embodiment of the signal transmission device according to the invention. This signal transmission device 21 also has a part 23 connected to the fixed world and a part 25 rotatable about an axis 27, as well as an elongate, flat cable carrier 29 which is connected to the two parts. This cable carrier is again formed by a flexible metal band 29 which is provided with two opposite main sides 29A and 29B. The strap is attached with one end 29C to one portion 23 and the other end 29D to the other portion 25. Between the two ends 29C and 29D, the strap 29 is 180 degrees about an imaginary axis 33 parallel to the major sides 29A and 29B of the belt 29 bent over.

Each of the parts 23 and 25 is provided with a contact surface 23A and 25A which contacts and cooperates with the belt 29. The contact surfaces 23A and 25A are spaced apart and face each other.

In this signal transmission device 21 the band 29 is straight in the non-bent condition and the contact surfaces 23A and 25A of the two parts 23 and 25 are concentric cylindrical mantle surfaces.

Present on either side of the belt 29 are cables 31 which are connected to the belt along its length. The cables 31 are in the plane of the belt

29. The belt cooperating sides 23A and 25A of both parts 23 and 25 are formed by permanent magnets and the belt 29 is made of magnetic material.

Although the invention has been elucidated in the foregoing with reference to the drawings, it should be noted that the invention is by no means limited to the embodiments shown in the drawings. The invention also extends to all embodiments deviating from the embodiments shown in the drawings within the framework defined by the claims. The belt can also be attracted electrostatically or via vacuum. In order to improve the conductivity of the belt, the contact surfaces of the parts can also be spherical or provided with projections that fit into holes/slots in the belt. The belt can also be of spiral design, so that the parts can be rotated through an angle greater than 360 degrees relative to each other.

Claims (6)

CONCLUSIONS: Signal transmission device (1; 21) for transmitting a signal (11; 31) between two parts (3, 5; 23, 25) forming part of the signal transmission device, which are relative to each other and to an axis (7; 27) are rotatable, tiltable, and/or axially or radially displaceable, which signal transmission device comprises an elongate, flat carrier (9; 29) with two opposite main sides (9A, 9B; 29A; 29B), which carrier with one end ( 9C; 29C) is attached to one part (3; 23) and to the other end (9D; 29D) is attached to the other part (5; 25) and between the two ends about an imaginary axis (13; 33) parallel to the major sides (9A, 9B; 29A; 29B) of the carrier, each of the parts (3, 5; 23, 25) having a contact surface (3A, 5A; 23A, 25A) which contacts is and cooperates with the carrier (9; 29), which contact surfaces are spaced apart and directed towards each other, characterized in that d the carrier (9; 29) is formed by a flexible band. Signal transmission device (1; 21) according to claim 1, characterized in that the signal transmission device comprises cables (11; 31) which are present in the plane of the belt (9; 29) adjacent to the belt and extend along its length with the belt connected or incorporated into the tape. Signal transmission device (1) according to Claim 1 or 2, characterized in that permanent magnets (15) distributed along the length are fastened to the carrier (9) and one or both parts (3, 5) are connected to each other by one or both. facing sides are made of ferromagnetic material. A signal transmission device (21) according to claim 1 or 2, characterized in that one or both parts (23, 25) are provided with permanent magnets and the carrier (29) is made of ferromagnetic material. Signal transmission device (1) according to claim 1, 2, 3 or 4, characterized in that the band (9) is circular in the non-bent condition and the contact surfaces (3A, 5A) of the two parts (3, 5) are flat. planes {that are parallel to each other]. Signal transmission device (21) according to claim 1, 2, 3 or 4, characterized in that the band (29) is straight in the non-bent condition and the contact surfaces (23A, 25A) of the two parts (23, 25) are cylindrical. are mantle surfaces.