METHOD FOR FIXING A FIBER HAVING A FIBER BRAGG GRATING SENSOR SEGMENT ONTO A COMPO-NENT AND BEARING DEVICE WITH SUCH A FIBER

Abstract

A method for fixing a fiber having a fiber Bragg grating sensor segment onto a component configured to undergo changes in strain and/or temperature. The method providing the steps of stretching at least a section of the fiber including the fiber Bragg grating sensor segment by a defined and calibrated preload into a preloaded condition, fixing the section of the fiber including the fiber Bragg grating sensor segment being in the preloaded condition on a carrier element, and fixing the carrier element onto the component, as well as a bearing device with such a fiber.

Claims

1. A method for fixing a fiber having a fiber Bragg grating sensor segment onto a component configured to undergo changes in strain and/or temperature, comprising the steps: i) stretching at least a section of the fiber including the fiber Bragg grating sensor segment (2) by a defined and calibrated preload into a preloaded condition, ii) fixing the section of the fiber including the fiber Bragg grating sensor segment being in the preloaded condition on a carrier element, iii) fixing the carrier element onto the component.

2. The method according to claim 1, wherein the component is a bearing ring.

3. The method according to claim 1, wherein in step ii) the fixing of the section of the fiber including the fiber Bragg grating sensor segment on the carrier element is carried out by gluing and/or mechanical interlocking and/or fitting and/or wherein in step iii) the fixing of the carrier element onto the component is carried out by gluing or welding.

4. A bearing device comprising a bearing ring, a fiber having at least one fiber Bragg grating sensor segment, a carrier element, wherein at least a section of the fiber including the at least one fiber Bragg grating sensor segment is fixed in a defined and preloaded condition on the carrier element and the carrier element is fixed onto the bearing ring.

5. The bearing device according to claim 4, wherein the bearing ring provides a groove and the carrier element is accommodated at least partly in the groove.

6. The bearing device according to claim 4, wherein the carrier element is a solid element, preferably made form a metal material.

7. The bearing device according to claim 4, wherein the carrier element is shaped essentially like a bar or like a thin plate.

8. The bearing device according to claim 4, wherein the carrier element provides a concave surface corresponding to a convex outer surface of the bearing ring, wherein the carrier element is fixed with its concave surface onto the convex outer surface of the bearing ring.

9. The bearing device according to claim 4, wherein the bearing device has at least one further fiber having at least one more section including at least one further fiber Bragg grating sensor segment that is fixed to at least one further carrier element.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

[0017] Further benefits and advantages of the present invention will become apparent from the following detailed description with appropriate reference to the accompanying drawings.

[0018] In the drawings:

[0019] FIG. 1 is a perspective view of a bearing device in accordance with a preferred embodiment of the invention,

[0020] FIG. 2 is a schematic view of a carrier element and a section of a fiber having an FBG sensor segment fixed thereto, and

[0021] FIG. 3 is a schematic view of the fiber and several carrier elements.

DETAILED DESCRIPTION OF THE INVENTION

[0022] FIG. 1 shows a bearing device 100 in accordance with a preferred embodiment of the invention. The bearing device 100 comprises a bearing ring 3, a fiber 1 having an FBG sensor segment 2 and a carrier element 4. The fiber 1 is e. g. a glass fiber. The bearing ring 3 is e. g. an outer bearing ring, in particular a non-rotating ring. The fiber 1 with the FBG sensor segment 2 is designed to allow measurements of changes in physical parameters such as temperature and/or strain, asin principleknown as such. The bearing ring 3 is preferably made of a metal material.

[0023] According to the invention, at least a section of the fiber 1 including the FBG sensor segment 2as shown in FIG. 2is fixed in a defined and preloaded condition to the carrier element 4 and the carrier element 4 is fixed onto the bearing ring 3. The fixation of the section of the fiber 1 including the FBG sensor segment 2 to the carrier element 4 may be carried out by gluing. Alternatively or additionally, a mechanical interlocking and/or fritting may be used.

[0024] Preferably, as sketched in FIG. 2, the section of the fiber 1 including the FBG sensor segment 2 includes at least one FBG sensor segment 2. Further advantageously, the fixation of the section of the fiber 1 on the carrier element 4 comprises at least two fixation points 5, 6 embracing each the FBG sensor segment 2 in between.

[0025] The length of the FBG is as short as possible, particularly less than 2 cm, preferably less than 10 mm. It has been shown that a length of 2 mm results in easily picked wavelength peaks.

[0026] Preferably, the bearing ring 3 shows a cylindrical outer surface, wherein the carrier element 4 is fixed on the outer surface. Advantageously, a groove 7 is provided at the outer surface of the bearing ring 3, in which the carrier element 4 is accommodated at least partly.

[0027] The carrier element 4 is fixed onto the component 3 e. g. by gluing or welding. Fixing the carrier element 4 to the bearing ring 3 by welding or by any other matured metal to metal adhesion method is in particular advantageous regarding long term stability.

[0028] Thereby it should be noted that according to the invention, the fiber with the FBG sensor is fixed to the bearing ring 3 which undergoes changes in strain and/or temperature according to the following steps: i) stretching at least a section of the fiber 1 including the FBG sensor segment 2 by a defined and calibrated preload into a preloaded condition, ii) fixing the section of the fiber 1 including the FBG sensor segment 2 being in the preloaded condition on the carrier element 4, iii) fixing the carrier element 4 onto the bearing ring 3.

[0029] Due to significantly better spatial conditions, it is much easier to fix the section of the fiber 1 including the FBG sensor segment 2 under the defined preload condition on the carrier element 4 than directly into the groove 7. Accordingly, using the carrier element 4 is advantageous since a defined preload is a crucial factor regarding the achievable accuracy of the measurement.

[0030] The process of bonding or fixing the section of the fiber 1 including the FBG sensor segment 2 to the carrier element 4 is simpler compared to the corresponding bonding process according to the state of art; therefore, the expenditure in manufacturing the device is reduced.

[0031] Preferably, the carrier element 4 is a solid element, e. g. made from a metal material. Further preferably, the carrier element 4 is designed as an integral or a one-piece element. Thereby, an undesirable modification of thermal or mechanical energy by the carrier element 4 during the transmission from the bearing ring 3 to the FBG sensor segment 2 can be eliminated or at least be kept marginal. For the same purpose, the carrier element 4 is further advantageously shaped essentially like a bar or like a thin plate.

[0032] A particular good contact between the carrier element 4 and a convex outer surface of the bearing ring 3 such as the cylindrical outer surface can be realized if the carrier element 4 shows a concave surface corresponding to the convex outer surface of the bearing ring 3 and the carrier element 4 is fixed with its concave surface onto the convex outer surface of the bearing ring 3.

[0033] Preferably, the fiber 1 further has at least one more section including a further FBG sensor segment 2 which is fixed to the carrier element 4 or to at further carrier element 4 in the same way as mentioned above and wherein the at further carrier element 4 is fixed onto the bearing ring 3 in the same way as the first mentioned carrier element 4 onto the bearing ring 3.

[0034] By using two separate carrier elements 4, 4, the plurality of FBG sensor segments 2, 2 are mechanically decoupled from each other. This makes it possible to position the carrier elements 4, 4 particularly precise onto the bearing ring 3, especially regarding the angular direction with respect to a main axis of the bearing device 100, i. e. along the circumference of the cylindrical outer surface of the bearing ring 3, but also regarding the corresponding axial direction.

[0035] Preferably, the carrier elements 4, 4 are designed analogously or identical in construction. This is advantageous regarding manufacturing.

[0036] The advantages gained by the technical features of the invention in particular comprise:

[0037] The preload of the FBG sensor segment can be better controlled.

[0038] Controlling the positioning accuracy of the FBG sensor segments is improved; especially, the radial (angular) positioning of the FBG sensor segments are decoupled from each other.

[0039] Extra length of fiber can be defined between each of the FBG sensor segments; therefore, a single size of sensing string can fit multiple sizes of different bearing rings.

[0040] The carrier elements can be fixed to the bearing ring by welding or by any other metal to metal adhesion method. This enables better long-term stability.

[0041] The process of bonding a section of the fiber with an FBG sensor segment is simplified.

[0042] Although the invention has been explained in relation to its preferred embodiments as mentioned above, it is to be understood that many other possible modifications and variations can be made without departing from the scope of the present invention. It is, therefore, contemplated that the appended claims will cover such modifications and variations that fall within the true scope of the invention.

REFERENCE NUMERALS

[0043] 100 bearing device

[0044] 1 fiber

[0045] 2, 2 FBG sensor element

[0046] 3 bearing ring

[0047] 4, 4 carrier element

[0048] 5, 6 fixation point

[0049] 7 groove