Duerr Dental Gmbh & Co.kg Driver



DURR DENTAL VISTASCAN MINI VIEW The image plate scanner with a touchscreen for intraoral formats. The new VistaScan Mini View image plate scanner enables the intuitive, efficient, and time-saving digitisation of image plates. Amongst other things, its large touchscreen with its easy-to-use user interface contributes to this. Duerr Dental Global Gmbh 109 followers on LinkedIn. Duerr Dental designs, builds and supplies capital equipment to the Dental market around the world since 1941. One of our main areas of focus.

1. Field of the Invention

The invention relates to a dental or endoscopic camera, and more particularly, to a dental or endoscopic camera having a casing, with an optical system, with a stop determining the image field and with an image converter arranged on the axis of the optical system, wherein the optical system has an object-side lens arrangement, a middle lens arrangement and a converter-side lens arrangement.

Duerr dental gmbh & co.kg drivers

2. Background Art

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  2. Durr X-ray Image Plate Scanners VistaScan Mini View The image plate scanner with a touchscreen for intraoral formats The new VistaScan Mini View image plate scanner enables the intuitive, efficient, and time-saving digitisation of image plates. Amongst other things, its large touchscreen with its easy-to-use user interface contributes to this. Its compact size and integrated.
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In cameras of such a type the optical system is constructed in the form of a telecentric optical system, as is generally the case in cameras. In order to guarantee good image-forming properties with such an optical system, the object-side lens arrangement, the middle lens arrangement and the converter-side lens arrangement have to be constructed from several (as a rule, two) individual lenses. For this reason, the optical systems for cameras of such a type are expensive.

By virtue of the present invention, a camera a casing, with an optical system, with a stop determining the image field and with an image converter arranged on the axis of the optical system, wherein the optical system has an object-side lens arrangement, a middle lens arrangement and a converter-side lens arrangement is intended to be developed further in such a way that it can be produced more inexpensively while still having good image-forming properties.

In accordance with the invention, this object is achieved by virtue of a camera having the stop determining the field of view, or an image of the same, is situated in the region of the converter-side lens arrangement.

Surprisingly, it has been found that a good overall image with such a camera is obtained even when the principle of the telecentric beam path, which is tried and tested as such in cameras, is departed from. With a non-telecentric beam path, in dental and endoscopic cameras use may also be made of lens arrangements that, in themselves, do not have particularly good image-forming properties. In particular, the individual lens arrangements may also be realised by individual lenses. A considerable cost-saving is obtained by this means, since fewer lenses are required and the assembly of the optical system is also simplified.

In a preferred embodiment, the stop determining the field of view, or its image, is situated a short distance downstream of the converter-side lens arrangement amounting to approximately 2% to 10%, preferably approximately 2% to approximately 5%, of the spacing between the rear boundary face of the converter-side lens arrangement and the light-sensitive face of the image converter. If the field stop is set in such a way, particularly good image-forming properties arise. The third lens arrangement is used in its middle region, where the distortion errors are slight. The middle lens arrangement is also used in its marginal regions. But it does not need to have any greatly curved surfaces, so the use of the marginal regions of this lens arrangement also does not result in unacceptable distortion errors.

In a preferred embodiment, the object-side lens arrangement is formed by a concavely/convexly curved lens. Accordingly, the first lens arrangement may be constructed from only one optical component which has very simple geometry.

In another preferred embodiment, the middle lens arrangement is formed by a biconvex lens, and the converter-side lens arrangement may also be formed by a biconvex lens. Such embodiments provide particularly simple possibilities for realising the middle lens arrangement and the converter-side lens arrangement, respectively.

In another preferred embodiment, a light-reflecting means is arranged upstream of the object-side lens arrangement. Such an embodiment is particularly well suited to be used for dental purposes, since the direction of view is inclined in relation to the axis of the handpiece, in particular is perpendicular to said axis.

In another preferred embodiment, an entrance window situated upstream of the object-side lens arrangement is connected to the casing in a flush and tight manner. Such an embodiment is advantageous with regard to simple cleaning and sterilising of the camera.

In a preferred embodiment, the camera further includes a device for adjusting the image converter in the direction of the axis of the optical system. Such a camera can be used both for viewing an object from the immediate vicinity and for viewing an object from a greater distance. In the case of a dental camera, the dentist may, for example, record details of one tooth or an overall view of the dentition.

Flextronics driver download for windows desktop. In one such embodiment, the adjusting device includes an actuating element which passes through a wall of the casing. Such an embodiment affords a particularly simple possibility for adjusting the focusing distance.

In another such preferred embodiment, the adjusting device has an electric motor which is exited via a plug-and-socket connection via which the image converter is also connected to an image-evaluation circuit. In the case of such a camera, adjustment of the focusing distance is possible without a moving part having to be passed through the wall of the casing of the camera.

In another embodiment the camera further includes an optical waveguide extending within the casing, the light-output end of which is adjacent to an entrance window of the casing. In one such embodiment, the camera may include several light-sources, such as, for example, light-emitting diodes 15, arranged next to the entrance window. With such an embodiment, a good illumination of the object in front of the camera is guaranteed.

The invention will be elucidated in more detail below on the basis of exemplary embodiments with reference to the drawing. Shown in the latter are:

FIG. 1: an axial section through a dental camera;

FIG. 2: a schematic view of the optical system of the dental camera according to FIG. 1; and

FIG. 3: a view which is similar to FIG. 1 but in which a modified adjusting mechanism for the image converter is shown.

While this invention is susceptible of embodiment in many different forms, there is shown in the drawings and described herein in detail a specific embodiment with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the invention to the embodiment illustrated.

The dental camera that is reproduced in the drawing has a casing 10 which is produced in the form of a plastic injection-moulded part. The casing 10 has been reproduced in the form of a one-part casing; it goes without saying that, depending on the production requirements, a person skilled in the art may construct it in the form of a multi-part casing, the various parts of the casing then being tightly connected to one another, subject to insertion of seals, or bonded or welded to one another.

The casing 10 has a gripping section 12 which has substantially the form of a cylindrical sleeve that is closed at the ends. The gripping section 12 bears at its free end a tapering and angled casing section 14, the downward-turned end of which is sealed in flush and tight manner by means of a window 16.

In the casing 10 there is arranged an optical system, denoted overall by 4, which forms an image of a schematically indicated object 6 (a tooth or mandibular arch) onto an image converter 8. The image converter 8 may be a colour CCD.

In the angled part of the casing section 14 there is arranged a reflecting mirror 18 which is set at 45 degrees in relation to the axis of the gripping section 12 and in relation to the axis of the window 16 and may also take the form of a reflecting prism, for example a right-angled prism or pentaprism.

In the beam path downstream of the reflecting mirror 18 there is arranged a lens 22 which has a concave front end face 24 and a convex rear end face 26.

At a relatively large distance from the lens 22 there is arranged an intermediate lens 28 which has a convex object-side end face 30 and a convex converter-side end face 32.

In turn, a relatively large distance downstream of the intermediate lens 24 a converter-side lens 34 is provided which has a convex object-side end face 36 and a convex converter-side end face 38.

The image converter 8 is arranged on a slide 40 which is movably guided along the axis of the optical system 4 by guide ribs 42, 44 which are provided on the inside of the casing 10. On the one longitudinal face of the slide 40 a toothed rack 46 is formed which meshes with a toothed wheel 48 which is rotatably supported on the casing 10 and which projects, with one toothed-wheel section, outwards through the casing 10. By rotation of the toothed wheel 48, the image converter 8 can consequently be adjusted along the axis of the optical system 4.

In the casing 10 a channel 50 is provided which extends substantially in the axial direction and in which an optical waveguide 52 is provided. An end section of the channel 50 and an end section of the optical waveguide 52 are angled in such a way that light transmitted to the optical waveguide 52 leaves the optical waveguide 52 slightly inclined in relation to the axis of the window 16, as shown at 54.

Via a plug-and-socket connection which is not reproduced in the drawing (to be imagined on the right therein), the image converter 8 and the optical waveguide 52 are connected to a supply hose which has a cable leading to an image-evaluation circuit and also a further optical waveguide which leads to a cold-light source.

The beam path of the optical system 4 is shown in still more precise manner in FIG. 2. For the sake of greater ease of representation, the conditions have been shown as they would obtain in the case of a direct-vision camera which is obtained from the camera according to FIG. 1 if the reflecting mirror 18 taking the form of a reflecting prism is replaced by a plane-parallel glass plate of the same optical thickness and if the window 16 is provided on the axis of the gripping section 12. The various optical components are again denoted as in FIG. 1. In addition, various beams have been drawn in which lead from different points on the object 6 to assigned points on the surface of the image converter 8.

It will be discerned that in the case of the optical system shown in FIG. 2 an image B, conjugate with the field stop B*, is disposed in the vicinity of the lens 22. It will be discerned that with such a position of the field stop B*, or of the image B of the same, the object-side lens 22 is utilised substantially in its middle region, the intermediate lens 28 is also utilised in its marginal regions and the converter-side lens 34 is again used only in its central region.

By reason of the arrangement of the three lenses which is shown, in which the intermediate lens 28 is clearly spaced both from the object-side lens 22 and from the converter-side lens 34, the intermediate lens 28 does not need to have any sharply curved surfaces. As a result, optical aberrations are reduced. The fact that the marginal regions are also utilised in the intermediate lens 28 consequently does not result in an unacceptable distortion of the image.

The following table specifies a concrete exemplary embodiment of one possible way of realising the optical system 4. The conditions correspond to the representation of FIG. 2.

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In this table there are listed respectively: the number of the end face (reference symbol of FIG. 1 or 2), the radius of curvature of the corresponding end face, the thickness of the layer of material adjoining the end face, and the type of the optical medium (type of glass; A=air) which is situated downstream of the corresponding face. In the final column the diameter of the respective end face is specified. The unit of length is 1 mm in each case.

FaceRadiusThicknessGlassDiameter
69A13.21
194SF83.80
210.76A1.54
24−2.314.00N-LASF303.00
26−2.6511.83A3.00
3024.304N-LASF307.50
32−11.9420.84A7.50
3612.154.00N-ZK77.50
38−8.820.56A7.50
Stop B*15.13A0.98
Converter4.85

Where “A” is specified in the Glass column, it is a question of air gaps. The glass-types correspond to the catalogue of optical glasses produced by Schott.

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The exemplary embodiment according to FIG. 3 largely corresponds to that according to FIG. 1; corresponding components are again provided with the same reference symbols and will not be described again in any detail.

In the case of the exemplary embodiment according to FIG. 3, the slide 40 is provided with a threaded bore 58 in which a threaded spindle 60 moves. The threaded spindle 60 is driven by an electric motor 62 which is borne by the casing 10. The supply lines for the electric motor 62 lead to a supply hose in precisely the same manner, via the plug-and-socket connection to be imagined on the right of FIG. 3, as the connecting leads of the image converter 8 and the optical waveguide 52.

In this way the converter 8 can be adjusted along the axis of the optical system 4 without a mechanical bushing having to be provided through the wall of the casing 10.

The foregoing description merely explains and illustrates the invention and the invention is not limited thereto except insofar as the appended claims are so limited, as those skilled in the art who have the disclosure before them will be able to make modifications without departing from the scope of the invention.

Dürr Optronik GmbH & Co. KG

DÜRR NDT GmbH & Co. KG, Division DÜRR MEDICAL

DÜRR NDT, division DÜRR MEDICAL, is part of the DÜRR DENTAL group located in Baden-Württemberg, which is a high-tech federal state of Germany.
Started from the circiut board up to the final assembly - nearly all components are produced and mounted by ourselves.

Quality MADE IN GERMANY

Location:Bietigheim-Bissingen
Foundation:2006

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Dürr Optronik GmbH & Co. KG

Duerr Dental Gmbh & Co.kg Drivers

The company Dürr Optronik is an enterprise of the DÜRR DENTAL groupand has about 100 employees.
Since 1959 Dürr Optronik is operating in Gechingen near Calw and produces systems and components for the dental branch.
The management is a team management and with its product range it is part of the innovative companies of its branch

Location:Gechingen
Foundation:1959

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orochemie GmbH + Co. KG

As a manufacturer of and specialist in disinfectants and cleaning agents as well as X-ray chemicals, orochemie has gained experience and industry-specific know-how over the decades.
In the modern and well-equipped production premises, 130 employees develop, manufacture and market an extensive product range.
The preparations are all listed, possess extensive efficacy, are toxicologically unobjectionable and are environmentally friendly.

Location:Kornwestheim
Foundation:1965

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2013

DÜRR MEDICAL revolutionized digital radiography with the new generation of high-resolution imaging plate scanners. Thanks to the built-in Mini-PC and the color touch screen the image plates can be read out without great expense and additional equipment at any place.
Digital X-Ray Imaging - as flexible and easy as never before!

2009

With the creation of our Durr Medical Division, products were developed to be used both in the medical and veterinary market. A decision to purchase our products is a decision for high quality products 'Made in Germany'.

2006 bis 2008

With the development of CR-Scanners for the security sector DÜRR NDT took a consequential step by introducing the well proven technology and experience into this highly critical sector. Reliable and fast diagnostic, as well as mobility are the drivers for this technology.

2006

In 2006 DÜRR NDT GmbH & Co. KG was founded as a producer of image plate scanners with the highest resolution worldwide in the section of nondestructive inspections.

2002 bis 2003

A new highlight in digital diagnostics: The dental Image Plate Scanner Dürr VistaScan enters the scene – maintaining top image quality and setting completely new standards in reading-out speed and handling of X-ray films. In 2003 DÜRR starts delivering image plate scanners to different healthcare and veterinary partners.

1982 bis 1989

Introduction of the Dürr 1416 fully automatic X-Ray Film Developer, capable of processing all common dental film formats. Presentation of Dürr XR 24, the first X-ray Film Processor with 'immersion tank'-technology which prevents chemicals from crystallizing on the rollers and thus guarantees a great image quality, – always!

Duerr Dental Gmbh & Co.kg Driver Bits

1975 bis 1979

Duerr Dental Gmbh & Co.kg Driver Printer

Switch-over to Dürr Dental for full automation of the X-ray film development of all dental film formats: the Dürr 1330 is launched on the market. 1979 followed the first steps in the medical division with the presentation of AC 245. In 1982 DÜRR 520 was launched.

1968

A technical development assignment by the Siemens company prompted the involvement with a new product field: With the design and subsequent production of the Procomat for Siemens, the first fully automatic X-Ray processor was born.

1954 bis 1960

Transfer of the company's home to Bietigheim, Etzelstraße (construction of the first production building), further development of the dental-technology products. By the year 1960 the number of employees had grown to over than 100.

1949

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GmbhRegistration with the local Commercial Register (IHK) as K u. W. DÜRR DENTALFABRIKATION oHG (open partnership enterprise), with residence in Ludwigsburg.

1945

After the end of the war reopening of the workshop in Ludwigsburg, manufacturing of useful domestic products, entry into the 'compression technology' sector.

1941

The history of DÜRR MEDICAL starts in 1941. At that time the two brohters Karl and Wilhelm Dürr founded their first company in Stuttgart.
DÜRR MEDICAL helps children in need
DÜRR MEDICAL supports Mercy Ships and is pleased to help, where urgently help is needed.
Mercy Ships provides free surgery and medical care, and partners with local communities to improve health care, offering training and advice, materials and hands-on assistance.
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