EP1402303A2 - Microscope - Google Patents

Abstract

The invention relates to a microscope (1), whose support consists of a principal transverse section (3), a foot section (5) and a column section (4), which are essentially the same width. A supporting element (16), is provided on both sides of the column section (4), said element having the same width along its first contact surface (8) as the column section (4).

Description

 microscope

The invention relates to a microscope. In particular, the invention relates to a microscope with a tripod, which is constructed from a base part, which consists of a cross main section, a tripod column section and a tripod base section, and that the tripod column section has a first mounting surface for a microscope stage holding element and an opposite second mounting surface for at least one light source ,

It is an endeavor to design the microscopes or their tripods in such a way that sufficient space is available in the area of the microscope stage holding element and the nosepiece to add a wide variety of manipulations to a sample to be examined or to add several devices.

German patent DE 197 14 221 discloses an inspection microscope for the semiconductor industry. The microscope stand consists of a stand base, a stand column and a crosshead. In order to enable an unimpeded sample supply from the back of the microscope stand, the stand column is mounted on the side next to the rear end of the stand base and the crosshead arranged above it. Although this arrangement allows good accessibility, it does not reduce the footprint in the area of the microscope stage holding element.

DE 42 31 468 discloses a microscope which comprises a microscope stand base which is used to hold an illumination device with optical components and with an aperture and light field diaphragm. It is also a matter of course that such a configuration does not contribute to a reduction in the footprint.

DE 40 10 834 microscope stand for microscopes of conventional open design is also shown. Significant insensitivity to vibrations is achieved by a microscope stand consisting of a stand base, a stand column, a tube support and support elements in that a support is provided on the mounting level for the stand column. The microscope stand has a rectangular base, which means that no reduction can be achieved in essential areas. DE 196 01 731 discloses a microscope with a "C" -shaped stand for the examination of large-sized, disk-shaped objects. The tripod consists of a base plate that does not allow a reduction in the footprint in the area of the micro-optical table.

A compact light microscope is disclosed in DE 196 35 666, which is suitable for all common examination methods. It is designed as a largely closed housing which, in addition to the optical and mechanical components, contains one or more electronic image sensors, at least one computer and a flat screen. For the

Control and electronic communication can include the built-in digital light microscope, microphone, speaker and a user-facing one

Video camera included. Images and the data associated with them are stored in the built-in digital mass storage devices and can be stored in the

Computer edited digitally. The microscope shown here is bulky and offers no possibility of reducing the footprint in the area of the microscope stage holding element or the microscope turret.

The invention has for its object to provide a microscope for a user can be operated ergonomically, offers the user sufficient freedom in the area of the setting elements of the microscope and thereby ensures stability.

The objective problem is solved by a microscope which contains the features of the characterizing part of patent claim 1.

The invention has the advantage that the cross main section, the stand base section and the stand column section have essentially the same width, and that a support element is assigned to the stand in the area of the stand column section on both sides. This ensures sufficient stability and stability of the microscope. In order to provide sufficient space for a user, the support element along the first mounting surface has the width of the stand column section. Furthermore, starting from the cross main section and the first mounting surface in the direction of the second mounting surface and the stand base section, the support element widens continuously and steadily.

Each of the support elements consists of a first wall element with a first curved surface and a second wall element with a second curved surface, each wall element resting on one side of the stand column section. In a preferred embodiment of the invention, the first curved surface and the second curved surface are designed as convexly curved surfaces.

The support elements are designed such that a drive button, e.g. is provided for the height adjustment of a microscope stage, partly in a recess formed on the support element. This has the advantage that the user has sufficient free space in the front area of the microscope and is not impaired by adjusting elements for the microscope. Almost all of the actuating elements are largely relocated to the area of the supporting elements. For example, several actuating elements are arranged on the support element in the area around the drive button.

Further advantageous refinements of the invention can be found in the subclaims be removed.

The object of the invention is shown schematically in the drawing and is described below with reference to the figures. Show:

1 is a perspective view of the microscope according to the invention,

2 is a side view of the microscope,

Fig. 3 is a rear view of the microscope, and

4 is a bottom view of the microscope according to the present invention. A perspective view of the microscope 1 according to the invention is shown in FIG. 1. The microscope 1 comprises a tripod which consists of a base part 2. The base part 2 is divided into three main sections, which are composed of a cross main section 3, a stand column section 4 and a stand base section 5. A microscope stage holding element 10 is fastened to the stand column section 4, on which a filter holder 40 can also be provided. At least one light source 14 is provided on the stand column section 4 opposite the microscope stage holding element 10. In the exemplary embodiment shown here, two light sources 14 are provided. One of the light sources 14 is responsible for transmitted light illumination and the other light source is responsible for incident light illumination. The stand column section 4 defines a first mounting surface 8 (see FIG. 2) on which the microscope stage holding element 10 is attached and a second mounting surface 12 on which the at least one light source 14 is provided. The cross main section 3, the stand base section 5 and the stand column section 4 are designed such that they have essentially the same width (see FIGS. 4 and 5 in this regard). A support element 16 is formed on both sides of the stand in the area of the stand column section 4. Each of the two support elements 16 is shaped such that it has the width of the stand column section 4 along the first mounting surface 8 and, starting from the cross main section 3 and the first mounting surface 8, in the direction of the second mounting surface 12 and the stand base section 5 In this exemplary embodiment, the support element 16 has a first wall element 15a, which has a convexly curved surface 16a and a second wall element 15b, which also has a second convexly curved surface 16b. Each of the second surfaces 16b has in the region of the second mounting surface 12 an essentially rectilinear side 18. How the first and second surfaces 16a and 16b are ultimately curved is irrelevant to the technical aspect of the invention

The first convexly curved surface 16a is defined by a side line 17a and two side edges 17b and 17c. The side line 17a is essentially rectilinear and extends along the first mounting surface 8 of the stand column section 4. The first side edge 17b is curved and extends from the stand base section 5 to End of the rectilinear side 18, which faces away from the tripod column section 4. The second side edge 17c also extends from the region where the tripod pillar section 4 and the cross-main section 3 meet, towards the end of the rectilinear side 18. The second surface 16b is through the second Side edge 17c, the straight side 18 and spanned by a curved side line 18a The curved side line 18a extends from the area where the tripod column part 4 and the cross-main section 3 meet, in the direction of the end of the straight side 18, which is directly on the tripod column section 4b In the exemplary embodiment in FIG. 1, a power switch 43 is provided on the second surface 16b. Furthermore, a connection element 45 is also formed on the second surface 16b, via which a power cable and / or a data cable can be connected to the microscope 1

The tripod foot section 5 is convexly curved in the area opposite the tripod column section 4 and has a display 26 in the convexly curved area 25. The display 26 can also be designed as a touchscreen, which allows the user to make parameter entries or use it call certain measurement methods. If the display 26 is not designed as a touchscreen, current setting data of the microscope 1 are visually shown on the display 26. In addition, a drive button 28 is provided on both sides in the transition region between the stand base section 5 and the support element 16, which, for example, adjusts the height of the microscope stage holding element 10. It is also conceivable to place additional functions on the drive button 28. In the area around the drive button 28, a plurality of actuating elements 30 are provided, via which microscope functions can also be switched. The microscope functions are, for example, the filter change, aperture selection, turret movement, etc. An eyepiece flange 34 is formed on the end part 32 of the cross-main section 3, which creates an optical connection with a turret 36, to which at least one objective (not shown) can be attached. FIG. 2 shows the side view of the microscope 1, only elements that have not yet been mentioned in the description of FIG. 1 being mentioned in the description below in order to avoid repetition. The microscope 1 itself stands on a plurality of feet 47 which are constructed from a vibration-damping material. A condenser 24 is provided in the stand base section 5. A plurality of elements 22 are provided in the cross-main section 3 of the microscope 1, via which various optical components (not shown) can be brought into the beam path of the microscope. Each of the lamps 14 is connected to the second mounting surface 12 via a flange 38. The support element 16 has a cutout 20 in an area around the drive head 28, which provides the user with sufficient actuation space for the drive button 28.

3 shows the rear view of the microscope 1. As already mentioned in the description of FIG. 1, the light sources 14 are attached to the stand column section 4 and have essentially the same width as the stand column section 4. In the rear view of the microscope 1, the supporting elements are 16 shown in the projection onto the drawing plane and one looks at the second curved surface 16b of the support element. Feet 47 are provided both on the stand base section 5 and on the support element 16. The power switch 43 and the connection element 45 are provided in one of the second curved surfaces 16b. It goes without saying that other arrangements are also within the inventive ability of a person skilled in the art.

FIG. 4 shows a bottom view of the microscope 1. In the exemplary embodiment shown here, two feet 47 are formed in the stand base section 5. The stand base section 5 is covered on the floor with at least one detachable base plate 5a. This gives the service personnel or the user access to electrical, mechanical or optical elements in the interior of the stand base section 5. The support elements 16 are attached to the stand base section 5. In the projection onto the drawing plane in FIG. 4, the support elements 16 have a base area which corresponds essentially to that of a right-angled triangle, the hypotenuse representing the curved side edge 17b of the first curved surface 16a. The shorter side at right angles is formed by the straight side 18. The longer side lying against the right angle is formed by a straight side 49 lying against the stand base section 5. All sides 17b, 18 and 49 that form the support element 16 have a certain wall thickness, so that the support element 16 is hollow on the inside. A strut 50 connects the curved side edge 17b and the rectilinear side 49 lying against the stand base section 5. Numerous contact elements 52 are provided inside the support elements 16, via which electronic lines for controlling the various microscope functions can be connected. It is clear from FIG. 4 that the drive button 28 is arranged such that there is at least a partial overlap with the support element 16. In each case, a further foot is provided on the support element 16 in the area where the straight side 18 and the curved side edge 17b meet. It goes without saying that the support elements 16 can also be closed with a base plate (not shown here). The invention has been described in relation to a particular embodiment. However, it is understood that changes and modifications can be made without departing from the scope of the following claims.

LIST OF REFERENCE NUMBERS

1 microscope

2 base part

3 cross head section

4 column section

5 tripod foot section

5a base plate

8 first acreage

10 microscope stage holding element

12 second acreage

14 light source

15a first wall element

15b second wall element

16 support element

16a first curved surface

16b second curved surface

17a sideline

17b side edge

17c side edge

18 rectilinear side

18a sideline 0 clearance 2 elements 4 condenser 5 curved area 6 display 8 drive button 0 actuating elements 2 front part 4 eyepiece flange 6 revolver 8 flange filter holder

power switch

connecting element

feet

page

strut

contact elements

Claims

claims

1. microscope (1) with a tripod, which is constructed from a base part (2), which consists of a cross main section (3), a tripod column section (4) and a tripod base section (5), and that the tripod column section (4) a first Has mounting surface (8) for a microscope stage holding element (10) and an opposing second mounting surface (12) for at least one light source (14), characterized in that the cross main section (3), the stand base section (5) and the stand column section (4) essentially have the same width that the stand in the area of the stand column section (4) is assigned a support element (16) on both sides, which has the width of the stand column section (4) along the first mounting surface (8) and starting from the cross main section (3) and the first Mounting surface (8) in the direction of the second mounting surface (12) and the stand base section (5) is continuously and steadily widened.

2. Microscope (1) according to claim 1, characterized in that each support element (16) from a first wall element (15a) with a first curved surface (16a) and a second wall element (15b) with a second curved surface (16b) is constructed, and that each wall element (15a, 15b) rests with one side on the stand column section (4).

3. Microscope (1) according to claim 1 or 2, characterized in that the first curved surface (16a) and the second curved surface (16b) are designed as convexly curved surfaces.

4. microscope (1) according to any one of claims 1 to 3, characterized characterized in that a drive button (28) is partially provided in a cutout (20) formed on the support element (16) in order to provide sufficient actuation space

5 microscope (1) according to claim 4, characterized in that the actuating element (16) in the area around the drive button (28) around several actuating elements (30) are arranged

6 microscope (1) according to claim 2, characterized in that at least one power switch and / or a connection element (45) is provided at least in the second wall element (15b). 7 microscope (1) according to claim 1, characterized in that in the stand base section (5 ) a convexly curved area (25) is formed, in which a display (26) accommodates the support element

8 microscope (1) according to claim 7, characterized in that the display (26) is designed as a touch screen, via which the user makes parameter entries

9 microscope (1) according to claim 1, characterized in that a plurality of vibration-damping feet (47) are provided

10 microscope (1) according to claim 9, characterized in that at least two feet (47) on the stand base section (5) and at least one foot (47) is formed on the support element (16), the at least one foot (47) on the support element (47) is provided in the area where the straight side (18) and the curved side edge (17b) meet