DE8705152U1 - Device for quick pressure relief on long air hoses etc. - Google Patents

Description

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Sigrid Keizers, née Kalle
Königsberger Strasse 2-4
4428 Borken

"Device for rapid pressure relief on long air hoses etc."

Today, blasting systems are often used ^for the pre-treatment and cleaning of all types of surfaces. These ^systems use a suitable conveyor to hurl wet or dry sand or another material, such as fine-grained steel shot, onto the surface to be treated. In most cases, air is used as the conveyor, which is able to transport the blasting agent (sand, metal) over long distances through hoses.* The conveyor and blasting agent leave the hose at the open end through a so-called blasting lance, with which the jet can be directed specifically at the area to be treated.

The blasting agent is usually pumped from a container ^via a hose

through a pipeline leading into it, from 1

Air flow is captured and transported to the blasting point. In the j

Near the confluence downstream is located in the hose \

usually a shut-off valve with which the delivery can be interrupted I.

can be. &psgr;.

The shut-off valve can usually be operated via a remote control

whose operating elements are located, for example, on |

the jet lance. This makes it possible for a &iacgr;

Sandblasting machine is handled by only one person.!

The inlet point for the blasting agent and the shut-off valve

are conveniently located at the beginning of the jet hose♦ >

This has the advantage that the hose can be closed when the valve is closed *

is pressureless and therefore not unnecessarily stressed, since the 1

Conveying air flows through the non-closable jet lance {■

can relax. f

On the other hand, this arrangement brings with it not inconsiderable |

Problems with it. Because air is known to be a substance that &bgr;

compress to a fraction of its original volume

The fact that the jet hose can be used at one end for *

the outlet of air and blasting media cannot prevent a significant pressure from building up in the hose, as

the jet lance is a nozzle-shaped constriction by means of which $

the escaping air and the blasting medium are accelerated. S

This means that the air flow remains constant even in the event of sudden |

Closing the shut-off valve does not suddenly break off, but t

continues to flow for a longer period. The afterflow phase lasts |

until between the atmospheric pressure and the air pressure §

in the hose a compensation has taken place. This time can vary depending on §

depending on the size and length of the hose up to one minute and long §

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The processes described are associated with considerable disadvantages for occupational safety, since the jet lance must be held by the operator for the duration of the after-flow so that no uncontrolled pendulum movements are possible due to the escaping medium. It can also happen that the air flow must be stopped as quickly as possible for some reason.

The present invention is intended to remedy these disadvantages by providing a branch with the largest possible diameter near the shut-off valve downstream on the blasting hose, which is normally closed when the blasting system is in operation. The closed branch can be opened at the same time as the shut-off valve in the main line is closed, so that the air in the hose can escape relatively quickly with the conveying medium through this opening without further air being able to flow in from the storage container. In order to avoid vibrations and too sudden relaxation and the associated noise, braking elements and devices are also provided at the exit point, which prevent dust and splash nuisance as far as possible.

According to a proposal of the invention, the object is achieved in that there is a shut-off valve in both the main line and the branch, each of which can be actuated by a pneumatic cylinder in such a way that one closes while the other opens.

According to another proposal, the two valves are operated simultaneously by only one pneumatic cylinder. The valves are arranged so that one is open while the other is closed.

Finally, it is also conceivable to use a three-way ball valve instead of the two valves, which is operated by a pneumatic cylinder.

The individual options are explained below. They show:

Figure 1: An implementation of the innovation using two shut-off valves each with a pneumatic cylinder.

Figure 2: A device that prevents dust and splash nuisance caused by the escaping blasting media.

Figure 3: An embodiment of the invention in which the two shut-off valves are operated by only one pneumatic cylinder.

Figure 4: Another solution to the problem, in which a three-way ball valve is used instead of the two shut-off valves in conjunction with a pneumatic cylinder and finally

Figure 5: a three-way ball valve in section.

&idigr;&idigr;&idigr; In the drawings, the pipe section in the main line is marked with (1) and the branch with (4). All solutions represent independent devices that can be subsequently installed in a jet or air hose*

In Figure 1, there is a shut-off valve (2) in the pipe section (1) and another shut-off valve (3) in the downstream branch (4). The operating lever (6) of the valve (2) is connected to the piston rod of the pneumatic cylinder (7) and the operating lever (5) of the valve (3) is connected to the piston rod of the pneumatic cylinder (8). The two pneumatic cylinders (7) and (8) are connected to one another via air lines (11) and (12) in such a way that their pistons are in opposite positions. For example, while the piston of the cylinder (7) is at the bottom and the valve (2) is therefore open, the piston of the cylinder (5) is level and the valve

(3) is closed.

If the air line (13) connected to cylinder (8) is now opened, the pressure in both the cavity of cylinder (8) and the cavity of cylinder (7) can be released. The air flowing in simultaneously via line (14) moves the piston of cylinder (8) downwards and the piston of cylinder (7) upwards. Valve (2) is closed during this process and valve

(3) is opened. Air and blasting media in the main line (1) can quickly escape to the outside through the branch (4).

Figure 1 also shows a dust and splash guard (9) at the outlet of the branch (4), the structure of which is explained in Figure 2.

A hemispherical bowl (9) contains an impact plate (15) which is attached to the inside of the bowl (9) using brackets (16). A hose (10) made of elastic material, such as plastic film, hangs from the outer edge of the spherical bowl (9), and normally touches the ground. If air or air with blasting media escapes through the branch, the impact plate (15) initially slows it down. The film hose (10) prevents the escaping medium from suddenly spreading and stirring up dust when it hits the ground.

According to a further proposal of the invention, the problem posed is solved as shown in Figure 3 in that the operating levers (5) and (6) of the shut-off valves (2) and (3) are both connected to the piston rod of a pneumatic cylinder. The valves (2) and (3) are thus integrated into the pipe section (1) or the branch

(4) so that one is open while the other is closed. When the piston rod moves downwards, the two valves are operated in opposite directions.

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Figures 4 and 6 finally show the technical design with a three-way ball valve (19) which is built into the pipe section (I) and is also operated with a pneumatic cylinder (18). The branch (4) is connected to the side outlet of the ball valve (19). In the drawing, the valve ball (2Ö) is set so that the pipe section (I) is open. When the piston rod moves upwards, the ball is rotated 90 degrees anti-clockwise via the lever (21). This closes the pipe section (1) and opens the branch (4). The medium present downstream in the jet or ventilation hose can flow away.

Claims (1)

■ I 1 I I I Protection claims 1. Device for rapid pressure relief on long air hoses and the like, characterized in that in a pipe section (1) and in its branch (4) there are shut-off valves (2) and (3). 2. Device according to claim 1 ₁ , characterized in that the branch (4) is connected downstream above the shut-off valve (2) to the pipe piece (1). 3" Device according to claims 1 and 2, characterized in that the valve (2) is open while the valve (3) is in the closed state. 4, Device according to claims 1 to 3, characterized in that the operating lever (6) of the valve (2) is connected to the piston rod of a pneumatic cylinder (7) and the operating lever (5) of the valve (3) is connected to the piston rod of a pneumatic cylinder (8). 5. Device according to claims 1 to 4, characterized in that the free space below the piston of the pneumatic cylinder (7) is connected to the free space above the piston of the pneumatic cylinder (8) via an air line (12) and likewise the free space below the piston of the pneumatic cylinder (8) is connected to the free space above the piston of the pneumatic cylinder (7) via the air line (11). ß. Device according to claims 1 to 3, characterized characterized in that the operating levers (5) and (6) of the valves (2) or (3) are connected to the piston rod of a pneumatic cylinder (17). 7. Device for rapid pressure relief on long air hoses and the like, characterized in that a three-way ball valve (19) is installed in a tube (1), the operating lever (21) of which is connected to the piston rod of a pneumatic cylinder (18). 8. Device according to claim 7, characterized in that in one end position of the piston of the pneumatic cylinder (18) the spherical body (20) of the three-way ball valve (19) is set so that the main flow direction of the pipe section (1;) is released and the opening to the branch (4) is blocked and in the other end position of the piston of the pneumatic cylinder (18) the spherical body (2) of the three-way ball valve (19) is set so that the main flow direction in the pipe section (1) is blocked and this is opened towards the branch (4). 9. Device according to claims 1 and 7, characterized by a splash and dust protection (9) attached to the outlet of the branch (4) ₄ &Igr;&Ogr;, Device according to claim 9, characterized in that the splash and dust protection (9) consists of a hemispherical or similarly shaped shell, which is connected with its smaller central opening (22) to the outlet of the branch (4). 11. Device according to claims 9 and 10, characterized in that a baffle plate (15) is located inside the splash and dust protection (9). 12. Device according to claims 9 to 11, characterized in that at the outlet of the splash and dust protection (9) there is an elastic hose (10), for example made of plastic film or other flexible material, which normally reaches down to the ground and prevents the whirling up of dust and water.