DE102008056098B4 - Universal cannon with improved barrel bearing - Google Patents

Abstract

Universal cannon with improved barrel mounting, in which a tubular body (barrel) with a smaller cross section is slidably arranged within a hollow cylindrical body, so that an annular chamber is formed that can be filled with propellant or with working and propellant and when the tubular body moves in the working position overflow openings open from the annular chamber into the tubular body so that the working medium can exit the outlet opening of the tubular body, and in which the tubular body is supported in two ways, a bearing (A) being arranged in the area of the outlet opening and a bearing (B) is located in the opposite area of the tubular body, characterized in that the bearing (B) consists of a double ring body (3), with an outer bearing ring (3.1) which rests on the inside of the jacket of the hollow cylindrical body (1) and an inner bearing ring (3.2), which is on the outer surface of the raw r-shaped body (2) rests.

Description

The invention relates to a universal cannon with chambers for propellant and working fluid and a shutter arranged between them, which is to open for ejecting the working fluid via a trigger.

Such a universal cannon is from the WO 2008/116460 A1 known.

In this universal cannon is within a hollow cylindrical body having at least one shell opening a tubular body (run) arranged with a smaller cross-section, so that an annular chamber is formed which contains or is fillable with propellant or contains the working fluid and propellant in separate and connectable spaces or can be filled with working and blowing agent in separate and connectable rooms. The tubular body is slidably disposed in the longitudinal direction of the outer hollow cylindrical body, from a position with closed passage openings from the annular chamber in the tubular body into a working position with open passage openings.

The tubular body is supported at the end in bearings.

It has now been found that the storage in the region of the flow openings, which are arranged in the lateral surface of the tubular body and closed in the non-working position by the bearing, subject to increased bearing wear and it requires a high sealing effort. Furthermore, an end portion of the barrel is used exclusively for storage purposes.

The object of the invention is to decouple the bearing function of the closure position of the flow openings.

This object is achieved with the features of claim 1, advantageous embodiments are the subject of the dependent claims.

To improve the bearing support in a universal cannon, in which within a hollow cylindrical body, a tubular body (run) is slidably arranged with a smaller cross-section, so that an annular chamber is formed, which is filled with propellant or with working and blowing agent and a movement of the open tubular openings in the working position overflow openings of the annular chamber in the tubular body, so that the working fluid flows through the tubular body and emerges from the outlet opening, and in which the tubular body is mounted double supported, wherein a bearing (A) in the Outlet opening is arranged and a bearing (B) is located in the opposite region of the tubular body, the invention proposes that the bearing (B) consists of a double ring body, with an outer bearing ring which rests on the inside of the shell of the hollow cylindrical body and a Inner bearing ring which rests on the outer jacket of the tubular body.

In this case, in a preferred embodiment, the inner and outer bearing ring of the double ring body are interconnected by webs, and either the outer bearing ring is connected to the hollow cylindrical body or the inner bearing ring with the tubular body and the other bearing is slidable.

In another embodiment, if there is a working medium and propellant chamber, the double ring body can also be designed as a piston displaceable on the tubular body in the working medium chamber. Such a piston can serve to keep working and blowing agent separated even during the ejection of the working fluid. However, in this case, a venting possibility for residual propellant is necessary. An advantageous solution has proven thereby, when the inner bearing ring has vents, which form at an end position of the movement of the double ring body in the region of the end faces of the wood cylindrical body with the open overflow openings a flow channel for propellant and are otherwise closed by the tubular body.

The universal cannon with improved bearing is to be explained on an exemplary embodiment. Show it:

1 loaded the front universal canon segment,

2 the rear universal canon segment loaded

3 discharge the rear universal canon segment.

In 1 to 3 is the universal cannon operated with blowing and working means operable.

Within a hollow cylindrical body 1 a tubular body is disposed slidably mounted with a smaller cross section, so that an annular chamber is formed. The annular chamber is in this illustrated embodiment by a between the inner wall of the hollow cylindrical body 1 and the outer wall of the tubular body 2 arranged closure valve 15 . 16 in a propellant chamber 4 and a working fluid chamber 5 each with an inlet opening 8th . 9 divided.

During a movement of the tubular body 2 in the direction of the exit opening 6 , ie, in a relative movement between the hollow cylindrical body 1 and the tubular body 2 when the shutter button is pressed 13 open the shutter valve 15 . 16 and the overflow openings from the annular chamber into the tubular body 2 , so that the working fluid under the pressure of the propellant from the outlet opening 6 is ejected.

The overflow openings are formed here from a when moving the tubular body 2 resulting annular slot between the edge of the tubular body 2 and the end face of the hollow cylindrical body 1 and one or more end-face inflow openings 7 in the tubular body 2 passing through at least one from the outside to the inlet openings 7 acting valve 10 are closable, opening the valve 10 by a displacement of the tubular body 2 in the direction of the exit opening 6 is feasible.

The tubular body 2 is mounted at least twice supported against the hollow cylindrical body, wherein a bearing (A) in the region of the outlet opening 6 is arranged and a bearing (B) in the opposite region of the tubular body 2 located.

The bearing (B) consists of a double ring body 3 , with an outer bearing ring 3.1 , the inside of the shell of the hollow cylindrical body 1 abuts and an inner bearing ring 3.2 placed on the outer shell of the tubular body 2 is applied.

In the illustrated embodiment, the double ring body 3 as one on the tubular body 2 displaceable piston in the working fluid chamber 5 educated.

The double ring body 3 In addition to the bearing function, it fulfills an ejection function in which it enters the inlet via the inlet 9 in a position near the valve closure 15 . 16 between working and propellant chamber 4 . 5 is moved ( 2 ). When opening the valve closure 15 . 16 is the expulsion of the working fluid via the overflow in the tubular body 2 and from there to outside causes.

As used as a piston double ring body 3 upon reaching a position near the end face of the cylindrical body 1 is still acted upon by propellant, it requires a vent.

Therefore, the inner bearing has 3.2 vents 20 on, which form a flow channel for propellant when reaching this end position with the open overflow openings, but otherwise through the tubular body 2 are closed.

In another embodiment, the inner and outer bearing ring 3.1 . 3.2 of the double ring body 3 also be interconnected by webs.

Advantageously, then either the outer bearing ring 3.1 with the hollow cylindrical body 1 connected or the inner bearing ring 3.2 with the tubular body 2 and the other bearing is slidable so that the bearing (B) does not constantly change position without reason.

The webs hinder the filling of the working chamber 5 and the ejection of the working fluid under the action of the propellant not.

This applies analogously to the propellant, if the annular chamber is not in working medium and propellant chamber 4 . 5 is divided, but is used exclusively for propellant, while the working fluid in other suitable manner in the tubular body 2 is introduced.

LIST OF REFERENCE NUMBERS

1

hollow cylindrical body

2

tubular body (barrel)

3

Double ring body

3.1

Outer bearing ring

3.2

Inner bearing ring

4

Propellant chamber

5

Working medium chamber

6

Outlet opening (mouth)

7

inflow

8th

Inlet in ring or propellant chamber

9

Inlet in working medium chamber

10

Valve, preferably cone valve

11

piston ring

12

Piston cylinder (control)

13

trigger

14

feather

15

valve closure

16

Valve disc ring of the valve closure

17

n. b.

18

Inlet valve (control)

19

Control valve (control)

20

vent

21

Outer ring of the valve 10

22

Sealing and damping ring or a layer

23

Damping ring or a layer

Claims (5)

Universal cannon with improved barrel bearing, inside of a hollow cylindrical body a tubular body (barrel) is slidably disposed with a smaller cross section, so that an annular chamber is formed, which is filled with propellant or with working and blowing agent and upon movement of the tubular body in the working position overflow openings from the annular chamber into the tubular body open, so that the working fluid can escape from the outlet opening of the tubular body, and in which the tubular body is mounted double supported, wherein a bearing (A) is arranged in the region of the outlet opening and a bearing (B) in the opposite region of the tubular Body is, characterized in that the bearing (B) consists of a double-ring body ( 3 ), with an outer bearing ring ( 3.1 ), on the inside of the shell of the hollow cylindrical body ( 1 ) and an inner bearing ring ( 3.2 ) located on the outer shell of the tubular body ( 2 ) is present. Universal cannon according to claim 1, characterized in that the inner and the outer bearing ring ( 3.1 . 3.2 ) of the double ring body ( 3 ) are interconnected by webs. Universal cannon according to claim 1 or 2, characterized in that either the outer bearing ring ( 3.1 ) with the hollow cylindrical body ( 1 ) or the inner bearing ring ( 3.2 ) with the tubular body ( 2 ) and the other storage is slidable. Universal cannon according to claim 1, characterized in that in a working medium chamber ( 5 ) and propellant chamber ( 4 ) divided annular chamber, wherein the working and propellant chamber ( 4 . 5 ) via a closing valve ( 15 . 16 ) and the working medium chamber ( 5 ) with the tubular body ( 2 ) can be connected via overflow openings, the double ring body ( 3 ) as one on the tubular body ( 2 ) displaceable piston in the working medium chamber ( 5 ) is trained. Universal gun according to claim 4, characterized in that in a double ring body used as a piston ( 3 ) the inner bearing ring ( 3.2 ) Vents ( 20 ), which at an end position of the movement of the double annular body ( 3 ) in the region of the end faces of the hollow cylindrical body ( 1 ) with the open overflow openings of the working medium chamber ( 5 ) in the tubular body ( 2 ) form a flow channel for propellant and otherwise through the tubular body ( 2 ) are closed.

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