Patent application title: Probe signalling
Inventors:
Christopher J. Daniel (Dursley, GB)
Peter K. Hellier (North Nibley, GB)
Assignees:
RENISHAW PLC
IPC8 Class: AH04B1700FI
USPC Class:
455 6711
Class name: Telecommunications transmitter and receiver at separate stations having measuring, testing, or monitoring of system or part
Publication date: 2009-05-21
Patent application number: 20090130987
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Patent application title: Probe signalling
Inventors:
Peter K. Hellier
Christopher J. Daniel
Agents:
OLIFF & BERRIDGE, PLC
Assignees:
RENISHAW PLC
Origin: ALEXANDRIA, VA US
IPC8 Class: AH04B1700FI
USPC Class:
455 6711
Abstract:
A measurement probe 1 for a machine tool has a housing 4/5 incorporating a
window 6 which allows the optical transmission or receipt of signals
from/to infrared transmitters 12 or receivers 13. To obviate the need to
mount the transmitter and receiver components on an external surface of
the housing, they are surface mounted to a circuit board 8'.Claims:
1. An apparatus for measurement and for wireless signal communication with
a base station, the apparatus comprising:a housing that include two
parts;a member that connects the two parts;a signal transparent window
that is located between the two parts and extends around the member; anda
circuit board lying at least partially between the member and the window
for signal communication with the base station.
2. An apparatus as claimed in claim 1, further comprising at least one of a signal transmitter or a signal receiver for the signal communication with the base station mounted on the circuit board.
3. An apparatus as claimed in claim 2, wherein at least one of a plurality of signal transmitters or a plurality of signal receivers are mounted on the circuit board, wherein the at least one of a plurality of signal transmitters or a plurality of signal receivers are positioned on the circuit board near the window.
4. An apparatus as claimed in claim 2, wherein the at least one of a signal transmitter or a signal receiver is an optical device operable in the infrared spectrum.
5. An apparatus as claimed in claim 1, wherein the window is substantially annular.
6. An apparatus as claimed in claim 1, wherein the window is a filter.
7. An apparatus as claimed in claim 1, wherein the window is compressed between the two housing parts.
8. An apparatus as claimed in claim 1, wherein the window forms a structural element of the probe housing
9. An apparatus as claimed in claim 1, wherein the member connecting the two parts is a pillar joining the two parts.
10. An apparatus as claimed in claim 1, wherein the circuit board is bent around the member and is near the window.
11. An apparatus as claimed in claim 1, wherein a seal is provided between the window and the two housing parts.
12. An apparatus for measurement and for optical wireless signal communication with a base station, the apparatus comprising:a housing that includes two parts;a member that connects the two parts;a substantially annular signal-transparent window that is located between the two parts and extends around the member;a circuit board; andat least one of a plurality of transmitters or a plurality of receivers mounted on the circuit board, wherein:at least a part of the circuit board is positioned between the member and the window,the part of the circuit board that is positioned between the member and the window has the at least one of a plurality of transmitters or a plurality of receivers mounted thereon, andthe at least one of a plurality of transmitters or a plurality of receivers are positioned near the window for the optical signal communication with the base station.
13. An apparatus according to claim 12, wherein the member comprises three bolts, with the bolts passing through the circuit board.
14. An apparatus according to claim 12 wherein a plurality of transmitters and a plurality of receivers are mounted on the circuit board.
15. A probe for dimensional measurement and for wireless signal communication with a base station, the probe comprising:a housing that includes two parts;a window transparent to the signal separating the first and second parts; anda circuit board adjacent the window for said signal communication with the base station,wherein the window forms a structural element of the probe housing.
16. A probe for dimensional measurement as claimed in claim 15, wherein the window is compressed between the two housing parts.
17. A probe for dimensional measurement as claimed in 15, wherein the two housing parts are bolted together.
18. A probe for dimensional measurement as claimed in claim 15, wherein the window is annular.
19. A probe for dimensional measurement as claimed in claim 15, wherein the window comprises glass.
20. A probe for dimensional measurement as claimed in claim 15, wherein the window comprises plastic.
Description:
[0001]This application is a continuation of U.S. patent application Ser.
No. 10/856,832, filed Jun. 1, 2004, which is a continuation of U.S.
patent application Ser. No. 09/959,206, filed Oct. 22, 2001, which is a
National Phase of PCT/GB01/00878, filed Mar. 1, 2001, the entire contents
of which are hereby incorporated by reference.
[0002]The present invention relates to an improved structure for a probe which utilises transmission of signals, e.g. representing stylus triggering information for measuring physical dimensions.
[0003]Probes for dimensional measurement have been used without wires for transmitting signals representing coordinates to a fixed base station (e.g. on a machine tool).
[0004]Signals are known to be transmitted using infrared light, radio waves or inductively, and a number of transmitters and receivers for the signals are generally mounted on an external surface of the probe. One such probe is shown in European Patent No. 337669.
[0005]In hostile conditions these transmitters/receivers can become damaged. Additionally each needs to be sealed against ingress of foreign materials into the probe.
[0006]One such commercially available probe uses a window to cover and protect infrared transmitters/receivers. This window can be in the form of an annular ring covering a recessed row of transmitters/receivers. The transmitters/receivers need to be mounted to an external surface of the probe inside the window.
[0007]The present invention provides a measurement probe comprising a housing having a signal transmitter and/or receiver and a circuit board therein and comprising a window transparent to the signal, characterised in that the said transmitter and/or receiver is mounted to the circuit board, adjacent the window.
[0008]Preferably the window is in the form of an annulus.
[0009]Preferably the said transmitter and/or receiver is a plurality of infrared transmitter and receiver components which may be spaced within and around the annulus. The circuit board may be placed within the annular window and may be bent at lines of weakness. The window may be fully or partially transparent to the light and may include a filter and/or visually attractive coating.
[0010]Embodiments of the invention are described herein by way of non-limiting example, with reference to the accompanying drawings where:
[0011]FIG. 1 shows a general view of a probe of the type used for this invention;
[0012]FIG. 2 shows a section of a first embodiment of a probe according to the invention;
[0013]FIG. 3 shows a perspective view, partially sectioned of the probe shown in FIG. 2; and
[0014]FIGS. 4 and 5 show a second embodiment of a probe according to the invention.
[0015]Referring to FIG. 1 a probe 1 is shown mounted to a machine. The probe is movable to determine the dimensions of some article 11. Stylus 9 is used to touch the article 11 and determine physical dimensions. Wireless communication is conducted between probe 1 and base station 10, the signals therebetween representing a trigger signal upon contact with the article 11, for example. A plurality of transmitters and/or receivers may be used on the probe to enable uninterrupted communication with the base station. Multiple base stations might be employed, allowing the use of just a single or a few transmitters/receivers in the probe.
[0016]Referring to FIG. 2 probe 1 is shown in cross-section. Spigot 2 would in use be mounted to a machine tool shank or the like and measurement stylus 9 would be fitted to stylus holder 3. Upper and lower housing parts 4 and 5 form the body of the probe, together with a signal-transparent annular portion 6. As will be appreciated, a longitudinal axis 20 extends through the housing parts 4 and 5. Three bolts 7 hold the housing parts 4 and 5 together, and clamp therebetween signal-transparent portion 6.
[0017]In this embodiment the annular portion is a borosilicate glass providing a structural element of the probe body and forming a window for infrared light to pass to and from transmitters/receivers 12/13 surface mounted to circuit boards 8 within the probe. In this instance infrared receivers and transmitters and LEDs are surface mounted to the board 8 and infrared light signals can pass through the window 6 from/to base station 10 directly from or to the boards 8. The window is shown sealed at its inner surface, but could of course be sealed at its annular end faces. The window provides a means of filtering unwanted light frequencies.
[0018]FIG. 3 shows a further view of the probe of the present invention, with like numbered parts.
[0019]FIGS. 4 and 5 show a modified probe. This embodiment is similar to the embodiment shown in FIGS. 2 and 3. Parts common to the embodiment shown in FIGS. 2 and 3 and the embodiment shown in FIGS. 4 and 5 have like reference numerals.
[0020]In this embodiment, upper and lower housing parts 4 and 5 (with longitudinal axis 20) are joined by a central pillar 14 which does not compress annular glass or plastics window 6 other than to provide a seal (at seals 18) around the edges of the window. Therefore, in this embodiment, the window does not form a rigid part of the structure of the probe. Infrared transmitters and receivers 12/13 are spaced around the window 6 and are mounted to the surface of a circuit board 8' inside the probe e.g. either affixed (e.g. by soldering) directly to the surface of the board or affixed snugly to the board and held in place by through pins (possibly soldered). Circuit board 8' is a relatively rigid substrate bent into a polygon. Bending of the circuit board is made possible by reducing the thickness of the board at intervals to produce lines of weakness (15 FIG. 5). The board can then be bent, at the lines of weakness, into the desired shape.
[0021]FIG. 5 shows a view with upper body 4 removed. Circuit board 8' is shown formed around pillar 14 and overlaps itself in order that a larger area of board can be used. Part 16 of the board 8' is used as a contact area for sprung-loaded pins in the upper body 4. The pins (not shown) supply power to the board from a battery compartment 17 in the upper body 4.
[0022]The probe shown in FIGS. 4 and 5 like the probe shown in FIGS. 2 and 3 has surface mounted electrical components, in particular infrared transmitters and receivers, within the body of the probe and adjacent a window transparent to infrared light. This construction reduces the complexity of the probe, reduces costs, affords a more reliable seal against the ingress of foreign materials e.g. machining coolant, and reduces the risk of accidental damage of the surface mounted components. No flying leads are required for transmitters/receivers which hitherto were mounted off the circuit boards 8,8'. In the first embodiment, the glass portion 6 forms part of the structure of the probe so a simpler construction is realised.
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