DE20020449U1 - Thrust element - Google Patents

Description

PATENT ATTORNEYS VONNEMANN · KLOIBER · LEWALD · HÜBNER

Date: 15.11.2000

Attorney file:

UTILITY MODEL REGISTRATION

of Mr Pascal Riezler

Georg Haindl Strasse 16 D-87448 Waltenhofen

Designation: Thrust element

DESCRIPTION

The invention relates to a push element, in particular for inserting cameras into pipelines, consisting of a push line and a camera-side end piece.

Such push elements, which are usually rolled up on compression reels, are well known. For example, DE 296 04 682 describes a device for inspecting pipelines. This is a camera that can be pushed into the pipelines using a push element. The push element used here consists of a push line and an end piece on the camera side. The disadvantage of the known push element is that the push line described gets caught in pipe bends due to a lack of mobility. If the push line were to be made too flexible, however, it would no longer be possible to push forward in straight pipes because the push element would bend, which would lead to blockages in the pipeline.

The object underlying the invention is to propose a thrust element which can be used equally for straight and curved pipelines.

The object underlying the invention is achieved in that the camera-side end piece of the push element consists of at least one spring and a profile hose connected to it, whereby the profile hose has a larger outer diameter than the spring. A very flexible spring is thus connected to the relatively stiff push line. With the help of this flexible spring and the flexible profile hose, it is now possible to overcome pipe bends without problems. Thanks to the construction described, the camera follows the pipe bends without getting jammed.

It is advantageous that at least two spaced-apart internal threads are provided in the profile hose, which serve to accommodate the spring.

The spring can be screwed into the internal thread by turning the push element connected to it. This means that the spring is accommodated in the profile tube and an almost completely rigid end piece on the camera side is created. This is particularly advantageous when longer straight sections have to be overcome. If you reach a pipe bend when inserting the camera, the spring can be unscrewed from the internal thread again, making the end piece flexible again and adapting to the shape of the bend.

It is advantageous for the profile hose to be a spiral-wound hose. This combines flexibility with high stability. If the spring is located in the two internal threads of the profile hose, an almost rod-shaped end piece on the camera side is obtained.

Corrosion is advantageously prevented by the fact that the spiral-wound profile hose is made of stainless steel.

It is advantageously prevented that the pusher element gets caught on projections in the tube by providing a transition piece between the spring and the pusher line, which has an at least approximately conical shape. This enables the pusher line to slide past obstacles.

A further development of the invention provides that a transition piece with an approximately conical shape is provided between the profile hose and the spring. This advantageously prevents the thrust element from getting caught on obstacles in the pipe.

In order to ensure that the camera is supplied with energy and the camera carriage with image information, three wires, preferably copper wires, are arranged coaxially around the push line and that the push line is sheathed with the copper wires. The sheathing ensures that the supply lines in the often rough pipes are not damaged.

It is advantageous for the push line to be made of glass fibre. Glass fibre has the advantage that it can absorb tensile and shear forces without sacrificing the flexibility required in pipe bends.

An advantageous embodiment of the invention provides that the casing is made of polyurethane. Polyurethane has a low density and is very stable.

In order to be able to carry out investigations even in pipes with very small diameters, the outer diameter of the sheathed push line is intended to be approximately 3.5 mm.

The invention is described in more detail with reference to drawings which illustrate an embodiment.

Show it:

Fig. 1: A schematic representation of the thrust element according to the invention and

Fig. 2: A schematic representation of the thrust element with the spring screwed into the profile tube.

The thrust element according to the invention is shown in Figure 1. The thrust element 1 consists of a thrust line 2, a spring 3 and a profile tube 4. The spring 3 is firmly connected to the thrust line 2 via a conical transition piece 5. There is also a conical transition piece 6 between the spring 3 and the profile tube 4. The profile tube 4 has a larger outer diameter A than the outer diameter B of the spring 3. The thrust line 2 is connected by means of

·

-A-

Polyurethane coated. The diameter C of the push line 2 is 3.5 mm. The camera 7 is located at the outer end of the professional hose 4.

The same pusher element 1 is shown in Figure 2. In Figure 2, the two internal threads 8, 9 in the profile hose 4 can be seen. By turning the pusher line 2, the spring 3 was screwed into the two threads 8, 9. This stiffens the profile hose 4, which is advantageous for the forward movement in straight pipe sections.

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LIST OF REFERENCE SYMBOLS

1 thrust element

2 push rope

3 Spring

4 profile hose

5 Conical transition piece

6 Conical transition piece

7 Camera

8 Internal thread 9 Internal thread

A Outer diameter profile hose

B Outer diameter spring

C Outer diameter of push line

Claims (10)

1. Push element, in particular for inserting cameras into pipelines, consisting of a push line and a camera-side end piece, characterized in that the camera-side end piece of the push element consists of at least one spring and a profile hose connected to it, the profile hose having a larger outer diameter than the spring. 2. Thrust element according to claim 1, characterized in that at least two spaced-apart internal threads are provided in the profile tube, which serve to receive the spring. 3. Thrust element according to one of claims 1 or 2, characterized in that the profile hose is a spirally wound hose. 4. Thrust element according to one of the preceding claims, characterized in that the spirally wound profile hose consists of stainless steel. 5. Thrust element according to one of the preceding claims, characterized in that a transition piece is provided between the spring and the thrust line, which has an at least approximately conical shape. 6. Thrust element according to one of the preceding claims, characterized in that a transition piece having an approximately conical shape is provided between the profile hose and the spring. 7. Thrust element according to one of the preceding claims, characterized in that three wires, preferably copper wires, are arranged coaxially around the thrust line and that the thrust line is sheathed with the copper wires. 8. Thrust element according to one of the preceding claims, characterized in that the thrust line consists of glass fiber. 9. Thrust element according to one of the preceding claims, characterized in that the casing consists of polyurethane. 10. Thrust element according to one of the preceding claims, characterized in that the outer diameter of the sheathed thrust line is approximately 3.5 mm.