DE8811981U1 - Adjustable pipe gland for linear movement and system sealing - Google Patents

Description

- 2 Honor

Adjustable pipe gland for linear movement and system sealing.

The invention is intended to ensure a system seal for dust-tightness and/or gas-tightness, as well as for pressure differences, in particular for the area of continuous conveyors.

This type of invention has not yet been introduced for the intended application. However, stuffing boxes for sealing shafts with rotary motion have been known for years. Furthermore, compensators for limited linear thermal expansion in steel, rubber or fabric are known. For the intended application, slide plates have been used up to now, and single-braid seals have been used for housing passages of tension or compression rods - this with a s-jub-tight design. For the gas-tight area, the corresponding areas had to be enclosed.

A disadvantage of the housing seal used to date is that no adjustable sealing elements could be used for the "sliding plate" principle and that in a gas-tight housing design, accessibility for maintenance, inspection and replacement of parts is no longer guaranteed.

This means that absolute dust-tightness could not be guaranteed, and gas-tightness could only be guaranteed with a costly, complex construction.

With the "pull/push rod" principle, the components that would otherwise be located outside the slide plates for maintenance, inspection and replacement of parts were moved into a housing. However, for linear movement, pull or push rods had to be guided through the housing. With this system, limited dust tightness could be achieved, and gas tightness could only be achieved with considerable design effort. The disadvantage of this arrangement was not only the accessibility of the components located in the housing, but also the direct contact with dust and high temperatures, which led to the premature destruction of these parts.

Housings filled with inert or CO gas, which serve to protect against dust explosions, must be absolutely gas-tight and therefore cannot simply be opened to inspect components. High safety requirements are imposed, which can only be met by very costly special designs.

The invention is based on the object of eliminating the above-mentioned disadvantages of the "sliding plate" and "pull/push rod" arrangement and not only ensuring cost-effective and simple production, but also a secure system seal, especially in the case of inert gas or CO2-filled housings. All components accessible for maintenance are arranged outside the housing and are thus protected from destruction by dust and temperature.

The principle of this invention should also be able to be adopted for the expanded area of system sealing, in particular for continuous conveyors.

This goal is achieved by the fact that the jacket pipe, the guide pipe, the spacer sleeve, the pipe stuffing box and the pipe stuffing box base housing are made of steel, stainless steel, iron or plastic in a round design and the box is adjustable so that the stuffing box packing achieves a system seal. An extended embodiment is characterized in claims 2-4, j

In drawing 1, the subject matter of the invention is shown in round ₍

Execution, as a cut-out copy in longitudinal section and as construction ^: _t

group component presented in an overview. (

In drawing 2, the subject matter of the invention is shown in j

square version, as a cut-out copy in longitudinal section!

and shown as an assembly component in an overview. j In drawing 3, the subject matter of the invention is shown in a rectangular design, in front and side view and as an assembly component in an overview.

The pipe stuffing box is essentially constructed as follows: the casing pipe (1), the guide pipe (2), the pipe stuffing box gland (4) and the pipe stuffing box base housing (5) are made in a square or rectangular design from steel, stainless steel, non-ferrous metals or plastic. The gland (4) can be adjusted using clamping nuts (10) and threaded rods (9) so that the stuffing box packing (6) achieves a system seal.

If necessary, lubricant or sealing medium can be supplied via a screwed or soldered inlet (8) in the base housing (5) through a spacer ring (7) integrated between the stuffing box packings (6).

A pipe gland according to the invention in a round, square or rectangular design can be used in many different ways. The structure is simple and inexpensive to manufacture. By using the pipe gland, absolute dust and gas tightness is achieved within a housing - thus reducing the environmental impact. The system sealing of housings, which would otherwise only be necessary at considerable design and cost-intensive expense, especially in the case of breakthroughs and linear movements, can be significantly reduced by using the pipe glands.

Furthermore, all components that must be accessible for maintenance and inspection can now be arranged outside of housings. Even if the housings are exposed to inert or CO gas, free access to these components is guaranteed - without any gas hazard.

Claims (4)

S ec tio n claims 1. Adjustable pipe gland for linear movement and system sealing. characterized, that the casing pipe (1), the guide pipe (2), the spacer sleeve (3), the pipe gland gland (4) and the pipe gland base housing (5) are made in a round design from steel, stainless steel, non-ferrous metals or plastic and the gland (4) is adjustable using a clamping nut (IG) and threaded rod (9), and that a system seal is achieved by the gland packing (6). 2. Adjustable pipe gland according to claim 1, characterized, that the casing pipe (1), the guide pipe (2), the gland gland (4) and the gland base housing (5) are manufactured in a square design. 3. Adjustable pipe gland according to claim 1 and 2, characterized, that the casing pipe (1), the guide pipe (2), the gland gland (4) and the gland base housing (5) are manufactured in a rectangular design. 4. Adjustable hollow stuffing box according to claim 1 to 3, characterized, that a spacer ring (7) is installed in the pipe gland base housing (5) next to the gland packing (6) and that a corresponding inlet (8) is screwed or soldered into the base housing (5) for the supply of lubricant or sealing medium.