DE102016203306A1 - Tread Measurement Device - Google Patents

Abstract

A tread depth gauge (1) for measuring the tread depth of at least one tire (8) comprises an integrated web server (7), which is designed to process the results of tread depth measurement and provide output signals that allow the results of tread depth measurement with a usual Internet browser (15) represent.

Description

The invention relates to an optical tread depth gauge, in particular a tread depth gauge with an integrated web server.

State of the art

Optical tread depth gauges comprise one or more cameras and, in particular by means of structured illumination, e.g. a laser line to determine the tread depth of a tire to be measured from the images taken by the at least one camera. The actual calculation of the profile depth and the display of the result is carried out by a program that runs on an external computer (PC), which is located outside the tread depth gauge. Different computer operating systems must be provided with different programs adapted to the particular operating system of the computer.

It is an object of the invention to provide an operating system independent tread depth gauge.

Disclosure of the invention

A tread depth gauge for measuring the tread depth of at least one tire according to an embodiment of the invention comprises an integrated web server adapted to process the results of tread depth measurement and to provide output signals enabling tread depth measurement results on a standard internet browser display.

A method for measuring the tread depth of at least one tire according to an exemplary embodiment of the invention comprises taking pictures of the profile of the at least one tire with at least one camera, determining the tread depth of the at least one tire from the recorded images and thus the measurement results in an integrated web server to provide output signals that allow the profile depth measurement results to be displayed on a standard internet browser. The web server is integrated in the profile depth gauge and can be integrated in particular in the electronics of the camera.

The results of the profile depth measurement can be output by the web server as HTML code, so that they can be displayed directly on any standard display device that has an Internet browser.

Alternatively or additionally, the results can be made available via protocols such as SOAP, or (measurement) data streams in formats such as XML or JSON for so-called web services, which can then be tapped by external programs / websites. In this way, different measuring devices in the workshop can be integrated into a uniform web-based user interface.

In particular, the results can be displayed independently of the operating system of the display device.

In one embodiment, the tread depth gauge comprises at least one electronic camera and the web server is implemented in the electronics of the at least one electronic camera. The performance of the electronics of electronic cameras, as they are usually used in profile depth gauges, is sufficient to implement a web server. Since no additional hardware is required in this case, the web server can be implemented inexpensively in this way.

In particular, the web server can be implemented as software which is processed by a microprocessor integrated in the electronics of the electronic camera.

In one embodiment, the integrated web server is embodied with an interface that is set up to transmit the output signals generated by the web server to at least one display device. The interface can be designed, in particular, as a TCP / IP interface, in order to enable simple communication with commercially available display devices, in particular laptops, tablet computers and / or smartphones.

In one embodiment, the interface is designed as a cable interface. A cable interface is particularly cost-effective to implement.

In one embodiment, the interface is designed as a wireless interface. A wireless interface, e.g. a WLAN interface, allows a particularly convenient handling of the display device, since there is no cable connection between the display device and the tread depth gauge, which restricts the mobility of the tread depth gauge.

In one embodiment, the tread depth gauge comprises a plurality of electronic cameras and the web server is embodied in one or more of the electronic cameras.

Several cameras make it possible to record the tire profile from different angles and thus improve the quality of the profile depth measurement. In a single camera, the web server can be implemented very easily and inexpensively. By forming the web server in multiple cameras, the computing power of the electronics of multiple cameras can be utilized, for example by performing load balancing to service multiple requests simultaneously.

In one embodiment, the tread depth gauge comprises at least one lighting device which is designed for structured illumination of the tire tread. The illumination device may in particular comprise a laser light source. The quality of the profile depth measurement can be further improved by structured illumination of the tire profile.

In one embodiment, the web server is designed so that the tread depth gauge is controllable via a conventional browser. In this way, the tread depth gauge can be controlled and operated particularly easily and conveniently via a browser.

figure description

Embodiments of the invention are described below with reference to the accompanying figures.

Showing:

1 a schematic view of a tread depth gauge according to a first embodiment of the invention; and

2 a schematic view of a tread depth gauge according to a second embodiment of the invention.

1 shows a schematic view of a tread depth gauge 1 according to a first embodiment of the invention.

The profile depth gauge 1 includes a lighting device 4 , which is formed, the profile of a tire to be measured 8th to illuminate, in particular structured to illuminate. The lighting device 4 In particular, it may include a laser and optics to produce a patterned light pattern.

The profile depth gauge 1 further comprises at least one camera 6 , which is formed by the lighting device 4 illuminated areas of the tire 8th optically capture and capture images of the tire tread, and electronics formed from those from the at least one camera 6 taken pictures the tread depth of the tire 8th to determine.

The lighting device 4 and the camera 6 be in operation by a power supply device 10 supplied with electrical energy.

The at least one camera 6 is an electronic camera 6 comprising at least one electronic circuit, in particular at least one microprocessor.

The electronic circuit of the camera 6 is trained by the camera 6 evaluate recorded images to the tread depth of the tire 8th to determine. In the electronic circuit of the camera 6 is in particular a web server 7 formed, which is provided, the measurement results, in particular the specific tread depth of the tire 8th to convert into signals that can be displayed on a standard (Internet) browser.

The from the web server 7 Signals generated are via an electronic interface 20 , for example, a TCP / IP interface, and a suitable data cable 22 to a display device 14 transfer.

On the display device 14 , which may be in particular a computer, a laptop, a tablet computer and / or a smartphone, is a standard (Internet) browser 15 Installed. The browser 15 Represents the one from the web server 7 optically displayed signals, so that the measurement results can be read easily and conveniently.

By doing that the webserver 7 Generating signals that can be displayed by any conventional browser, the measurement results on any standard display device 14 on which a browser is installed. In particular, the measurement results can be independent of the operating system of the display device 14 being represented.

Alternatively or additionally, the results can be made available via protocols such as SOAP, or (measurement) data streams in formats such as XML or JSON for so-called web services, which can then be tapped by external programs / websites. In this way, different measuring devices in the workshop can be integrated into a uniform web-based user interface.

Optionally, the web server 7 in addition, inputs from the browser 15 to accept the tread depth gauge via the browser 15 to control. This allows the tread depth gauge 1 particularly easy and convenient to control.

2 shows a second embodiment of a tread depth gauge according to the invention 2 ,

The structure for measuring the tread depth of the tire 8th corresponds to that of the first, in the 1 shown embodiment and is therefore not described again in detail.

The second, in the 2 The embodiment shown differs from the first, in the 1 shown embodiment in that no cable connection 22 between the tread depth gauge 2 and the display device 14 is provided. Rather, the interface is 12 of the tread depth gauge 2 as a wireless interface 12 , in particular designed as a WLAN interface. The wireless interface 12 allows it from the webserver 7 generated signals for displaying the measurement results wirelessly to the display device 14 provided with a corresponding receiving device 17 is equipped, and in particular to one on the display device 14 installed browser 15 transferred to.

A wireless interface 12 enables a particularly user-friendly handling of the display device 14 because these are not through a cable connection 22 to the tread depth gauge 2 is bound.

In addition, it allows a wireless data connection 24 that from the web server 7 generated data to other destinations, such as a virtual cloud 16 and / or to an output device 18 to transfer, for example, a printer. In this way, the measurement results can be simple and convenient, for example, in a virtual cloud 16 stored and processed and / or by an output device 18 be issued.

The connection to a virtual cloud 16 and / or an output device 18 is in the 2 for the example of a wireless data connection 24 shown. Of course, it can also be used with cable connections such as those in the 1 are shown realized.

Claims (10)

Profile depth gauge ( 1 ; 2 ) for measuring the tread depth of at least one tire ( 8th ), wherein the tread depth gauge ( 1 ; 2 ) an integrated web server ( 7 ), which is designed to process the results of the profile depth measurement and to provide output signals which make it possible to use the results of the profile depth measurement with an Internet browser ( 15 ). Profile depth gauge ( 1 ; 2 ) according to claim 1 with at least one electronic camera ( 6 ), whereby the web server ( 7 ) in the electronics of the at least one electronic camera ( 6 ) is implemented. Profile depth gauge ( 1 ; 2 ) according to claim 1 or 2, wherein the web server ( 7 ) in the electronics of the at least one electronic camera ( 6 ) is implemented as software. Profile depth gauge ( 1 ; 2 ) according to one of the preceding claims, wherein the integrated web server ( 7 ) with an interface ( 12 ; 20 ), which is set up by the web server ( 7 ) generated output signals to a display device ( 14 ) transferred to. Profile depth gauge ( 1 ; 2 ) according to claim 4, wherein the interface ( 12 ; 20 ) as a cable interface ( 20 ) and / or as a wireless interface ( 12 ) is trained. Profile depth gauge ( 1 ; 2 ) according to claim 4 or 5, wherein the interface ( 12 ; 20 ) is designed as a TCP / IP interface. Profile depth gauge ( 1 ; 2 ) according to one of the preceding claims, wherein the tread depth gauge ( 1 ; 2 ) several electronic cameras ( 6 ) and wherein the web server ( 7 ) in one or more of the electronic cameras ( 6 ) is trained. Profile depth gauge ( 1 ; 2 ) according to one of the preceding claims, wherein the web server ( 7 ) is designed so that the tread depth gauge ( 1 ; 2 ) via an internet browser ( 15 ) is controllable. Method for measuring the tread depth of at least one tire ( 8th ), the method comprising, with a camera ( 6 ) the images of the profile of the at least one tire ( 8th ), from the recorded images the tread depth of the at least one tire ( 8th ) and the measurement results in an integrated web server ( 7 ) to provide output signals that allow the results of profile depth measurement on an Internet browser ( 15 ). The method of claim 9, wherein the method comprises placing commands in the Internet browser ( 15 ) and via the web server ( 7 ) to the camera ( 6 ) and / or a lighting device ( 4 ) used to illuminate the at least one tire ( 8th ) is adapted to transmit.

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