DE3431631A1 - Bar-lens holder - Google Patents

Abstract

A lens holder for radial adjustment of bar lenses in an optics tube in the region of the lens ends, as is used for example in rigid endoscopes, is characterised by annular retaining means which hold the lenses at a radial distance from the inner surface of the tube. Spacer rings, tube compressions or, in a particularly advantageous manner, end collars can be provided as such retaining means on the axial spacer tubes which are normally provided.

Description

Rod lens holder

The invention relates to a lens holder in the preamble of Claim 1 referred to in Art.

Rod lenses in a stacked arrangement in an optical tube are used for elongated rigid transmission optics are used, mainly for rigid endoscopes. The lenses are stacked one behind the other in the optical tube in an axial arrangement, with usually their axial distance is guaranteed by spacer tubes between the lenses.

The rod lenses are usually cylindrical with a Outer surface held directly in the pipe inner surface of the same diameter. Such However, constructions are sensitive to bending of the pipe, as this is inevitable the lenses are also subject to bending stress, which can lead to breakage.

A lens holder of the type mentioned is from DE-OS 31 13 110 known. In this construction, the lenses are only supported in the end area. A bending of the tube therefore does not lead to bending of the lenses.

An endoscope constructed in this way can also withstand greater bending loads without broken lens. However, the disadvantage of this construction is that it is complicated Lens formation with a thickened formation of the ends and hollow grinding of the intermediate one middle range.

The production of such lenses is considerably more expensive than the production of simple rod lenses with a cylindrical outer surface.

The object of the present invention is therefore to provide a lens holder the entrance. called type to create a bend-insensitive at low cost Allows lens holder in the optics tube.

According to the invention, this object is achieved with the features of the marking part of claim 1 solved.

According to the invention, the lenses, as in the known construction, Supported radially in the end area.

For this purpose, however, separate holding means are used, so that simple, inexpensive to manufacture rod lenses with a cylindrical outer surface can be used are.

The lens holder according to the invention is also advantageous the features of the claim. 2 marked. The narrowed inner wall parts can for example in very simple production in the form of indentations on the optical tube be provided.

The lens holder according to the invention is also advantageous the features of claim 3 marked net. Extremely inexpensive Spacer rings that can be produced can be inside the pipe or on the cylindrical outer surface the rod lenses are suitably attached and thus result in low manufacturing costs the desired bend-insensitive rod lens holder.

Finally, the lens holder according to the invention is advantageous the features of claim 4 characterized. With the usual stacked arrangement of the lenses using spacer tubes, the holding means can be used for radial spacing of the lenses opposite the inner surface of the tube directly on the spacer tubes in the be provided in the manner described. So it is only on the spacer tubes another operation is required, making the manufacturing cost significant be lowered. The assembly is also special with this construction simple. The lenses and the spacer tubes just need to be sequential in the usual way stacked in the optical tube.

In the drawing, the invention is exemplified and schematic on the basis of axial sections through three variants of rod lens optics according to the invention shown.

Fig. 1 shows a rod lens optics with an optics tube 1 in which one behind the other several rod lenses 2, 3, 4 are arranged concentrically. Are in the usual arrangement the rod lenses with spacer tubes 5 held at an axial distance. The spacer tubes engage with their inner edges 6 against the spherically ground lens end faces 7th

The rod lenses 2, 3, 4 and the spacer tubes 5 can be used one after the other be stacked in the optical tube 1 from one end.

If the outside diameter of the rod lenses would correspond to the inside diameter of the Optical tube 1 correspond to the usual state of the art, so a Bending of the optics tube 1 also bends the lens axis, resulting in lens breakage can lead. In the case of cemented lenses, as shown in the example of cemented lenses Lens 2, 2a, 2b is shown, the cemented surfaces could be torn.

According to the invention, the rod lenses 2, 3, 4 are cylindrical Outer surface and are with annular retaining means in the area of the lens ends held at a radial distance from the inner surface of the optics tube 1.

As shown in FIG. 1, these annular holding means are as Spacer rings 8 and 9 are formed. The spacer rings 8 are on the outer and inner surfaces cylindrical. The spacer rings 9 have cylindrical inner surfaces the outer surface of the lens and have beveled, blade-shaped outer edges stored on the inner surface of the optical tube 1. That way, the transfer will be made additionally reduced by bending forces in the tube 1 on the lenses.

The spacer rings 8 and 9 can either be spaced appropriately be fixed on the inner surface of the tube 1 or easier to assemble Clamped or clamped onto the cylindrical outer surface of the lens.

be glued on. In the latter training, the assembly is by stacking possible in a conventional manner.

2 and 3 show variants in which the same parts for the same Reference numerals are used.

In the construction of Figure 2 the radial support means are to hold the lens ends relative to the optics tube 1 as the radial spacer tubes 5 protruding collar 10 formed, the inner diameter of which corresponds to the outer diameter corresponds to the cylindrical surface of the lenses 2, 3, 4. This arrangement is special can be produced inexpensively. As can be seen from the figure, opposite is one conventional rod lens optics with optics tube, stacking lenses and spacer tubes only the inside diameter of the optics tube 1 compared to the outside diameter of the rod lenses to enlarge something, and there is an additional operation on the spacer tubes 5 necessary, with the step shown cut in a ring at each end will. This embodiment allows in particular in a very simple way Assembly of the rod lens optics by simply stacking the rod lenses and the spacer tubes into the optics tube 1.

In Fig. 3, a further variant is shown. The radial support means To support the lens ends, there are radially indented areas 11 of the optics tube 1 formed, which are arranged so that they each have the end portions of two adjacent Record rod lenses 2, 4 or 3, 2. There are again spacer tubes 5 of the usual training provided, the outer diameter of which corresponds to the inner diameter of the indented areas 11 of the optical tube 1 corresponds. Again, the assembly can be done in the usual way Stacking technology.

In the context of the present invention, the illustrated embodiments can be varied in different ways. For example, instead of one each ring-shaped the cylindrical outer surface of the rod lenses 2, 3, 4 surrounding holding means arrangement 8, 9, 10, 11 a corresponding holding means be provided that grips the lenses on their circumference only point by point, for example distributed on the circumference in a three-point bearing. In the case of the embodiment 3 could so instead of annular indentations 11 over the pipe circumference distributed, for example, three in the axial direction extending indented beads are provided be, which correspond in their training in each case in section to the training of FIG.

As materials for the production of the intended holding means 5, 8, 9, the known materials, such as. B. metal, especially brass, Plastic, in particular hard plastic and the like, can be used.

The spacer rings shown in the embodiment of FIG 8 and 9 of different cross-sectional shapes can alternatively be used. It are also other cross-sectional shapes, for example with rounded surfaces or with a circular cross-section possible.

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Claims (4)

CLAIMS: 1. Lens holder for radial adjustment of rod lenses in an optical tube in the area of the lens ends, characterized in that ring-shaped Holding means (8, 9; 10; 11) are provided which hold the lenses (2, 3, 4) at a radial distance hold towards the inner surface of the pipe (1). 2. Lens holder according to claim 1, characterized in that the Holding means designed as radially narrowed inner wall parts (11) of the optics tube (1) are. 3. lens holder according to claim 1, characterized in that the Holding means designed as spacer rings (8, 9; 10) that can be placed on the lens circumference are. 4. Lens holder according to claim 3 with spacer tubes for the axial spacer bracket of the lenses, characterized in that the holding means as the spacer tubes (5) the end protruding collar (10) with a lens diameter corresponding Inner diameter are formed.