DE10351995A1 - Compressed air coupling for lines under pressure has axially movable spring-loaded locking bush with stepped pressure equalizing part - Google Patents

Abstract

The coupling has a spring-loaded valve (8) which provides a positive connection via a locking bush (3) when the coupling plug is inserted. It can only be disconnected by a pulling it out axially. The locking bush has a pressure equalizing part (4) which is stepped in diameter, and is connected to the surrounding air.

Description

The The invention relates to a compressed air coupling with spring-loaded valve, which when inserting the coupling plug via a locking sleeve the positive connection produced with the compressed air coupling and only by axial withdrawal of the coupling plug the release of the compressed air coupling secures and in this case the coupling plug with spring-loaded valve depending on the lock from the pressure the connection to the environment opens continuously.

• – zweimaliges Drehen der außenliegenden Hülse in entgegengesetzter Richtung, oder
• – zweimaliges Schieben der außenliegenden Hülse in entgegengesetzter Richtung, oder
• – zweimaliges Drücken der außenliegenden Hülse in gleicher Richtung, oder
• – zweimaliges Drücken eines Knopfes an der außenliegenden Hülse.

Compressed air couplings with spring-loaded valve and locking or unlocking of the coupling plug are known in a variety of variants. In these variants, the unlocking of the coupling plug must be brought about by an additional actuation of an outer sleeve of the compressed air coupling. In order to ensure a safe bleeding of the connected hose lines when unlocking the coupling plug without valve under pressure, there are specific compressed air coupling designs that secures a first actuation on the outer sleeve venting the coupling plug and the second actuation unlocking. For this two-time operation, there are several and thus also confusing embodiments, such as

• - Twice turning the outer sleeve in the opposite direction, or
• - Twice pushing the outer sleeve in the opposite direction, or
• - Press twice the outer sleeve in the same direction, or
• - Press twice a button on the outer sleeve.

Of the Invention is the object of the underlying couplings with spring-loaded Valve that is under compressed air without additional operation by simply pulling to separate the coupling plug in the axial direction, with a safe bleed in the coupling plug and in the example connected Hose line located compressed air volume through a in the coupling plug arranged spring-loaded valve that closes when disconnected and then selbstätig pressure-dependent continuously opens, guaranteed becomes.

According to the invention happens this by the fact that in the compressed air coupling with spring-loaded valve and external thread for the Fixed installation an internal axially displaceable locking sleeve connected is arranged with a pressure compensation part. About a compression spring is the locking sleeve held in the starting position. The pressure compensation part with his stepped peg diameters and the connection of the middle recess with the environment ensures that at Pressure in the space of the compressed air coupling shut off by the valve cancel the pressure-induced axial forces and no displacement the locking sleeve occurs against the force of the compression spring.

at another embodiment the pressure compensation part with a relative to the locking sleeve in diameter reduced outward sealing Pin, the occurring axial force is counteracted by spring force balanced.

At the Plugging the coupling plug into the compressed air coupling is the locking sleeve shifted in the direction of reducing the spring force until, for example the ball lock engages and thus Druckkluftkupplung and Coupling plug form-fitting get connected. Here, the arranged in the compressed air coupling spring-loaded Valve opened by the coupling plug. This occurs the existing pressure in the compressed air coupling also in the coupling plug on, whereby the valve located in this located through the Spring still open remains and the passage of compressed air from the compressed air coupling is secured to the coupling plug.

At the Removing the coupling plug from the compressed air coupling is the internal locking sleeve shifted with pressure equalizing part in the direction of the spring force increase until, for example, the ball lock releases and the coupling plug is separated from the compressed air coupling. By the arranged spring becomes the locking sleeve pushed back with pressure equalizing part in the starting position. in this connection includes the spring-loaded valve in the compressed air coupling and locks the compressed air outlet to the environment. The valve in the coupling plug is replaced by the in This part still exists compressed air against the spring force up to the stop shifted the valve seat, with a minimum cross-section as an opening to the Environment remains. about This minimal cross-section can be throttled the compressed air and thus harmless escape. With the associated reduction of pressure in the Coupling plug is by the arranged compression spring of the cross section continuously opened in the coupling plug to the environment and thus the further Controlled escape of compressed air from the coupling plug secured.

in the Following is the invention of embodiments shown and described.

It shows

image 1: longitudinal section a compressed air coupling for Fixed installation with axially movable locking sleeve and in diameter multiple stepped pressure equalizing part with adjacent Compressed air and separate non-pressurized coupling plug

image 2: longitudinal section a compressed air coupling for Fixed installation with axially movable locking sleeve and in diameter repeatedly stepped pressure compensation part with connected coupling plug

image 3: longitudinal section a compressed air coupling for Fixed installation with axially movable locking sleeve and in the diameter multi-stepped pressure equalizing part with adjacent Compressed air and separate still under pressure coupling plug

image 4: longitudinal section a compressed air coupling for Fixed installation with axially movable locking sleeve and one opposite the locking sleeve reduced in diameter pressure equalizing part with an outwardly sealing Pin with applied compressed air and separate non-pressure coupling plug

In the externally threaded 1 provided coupling body 2 is internally an axially displaceable locking sleeve 3 with pressure compensation part 4 arranged. The compression spring 5 (Picture 1) presses the locking sleeve 3 over the balls 6 against the attack 7 of the coupling body 2 in the uncoupled starting position. The valve 8th closes by the compression spring 9 the air outlet of the pressurized space 10 , The with the locking sleeve 3 connected pressure equalizing part 4 owns the recess 11 whose annular surface 12 equal to the diameter 13 of the pin 14 is. The middle part 15 of the pressure compensation part 4 is about the holes 16 and 17 connected to the outside air. The turn 11 the locking sleeve 3 is about the seal 18 separated from the ambient air. The middle unpressurized part 15 of the pressure compensation part 4 is about the seals 19 and 20 from the pressurized rooms 10 and 11 separated.

The coupling plug 21 with valve 22 According to Figure 1 is in the uncoupled pressure-free state due to the arranged compression spring 23 open, ie the rooms 24 and 25 are over the valve holes 26 connected with each other.

Will the coupling plug 21 inserted in the compressed air coupling (Figure 2) is the locking sleeve 3 with pressure compensation part 4 in the direction of the wallose 27 with space 10 postponed. This is also the sleeve 28 and valve 8th moved to the balls 6 in the recess 29 of the coupling plug 21 and thus a fonnschlüssige connection of compressed air coupling and coupling plug 21 produce. This is done by the valve 8th the connection of space 10 to room 24 open.

The compression spring 5 presses the locking sleeve 3 with waistband 30 against the face 31 of coupling body 2 , The valve 22 in coupling plug 21 this remains due to the compression spring 23 opened, ie room 10 is with space 25 connected. When removing the coupling plug 21 in the axial direction of the compressed air coupling (Figure 3) closes valve 8th and locks the pressurized room 10 from the ambient air. That in the room 25 of the coupling plug 21 including connected hoses compressed air volume pushes the valve 22 against the compression spring 23 on the valve seat 32 , where only a small defined cross-section 33 the space 25 is connected to the ambient air. This causes a pressure drop in the room 25 a, which causes the compression spring 23 the cross section of space 25 continuously opens according to the pressure reduction to the ambient air.

In the execution of the locking sleeve 3 with a relation to the locking sleeve in diameter reduced pressure compensation part 34 and the outwardly sealing pin 36 (Picture 4) is the room 10 by means of the seal 38 separated from the outside air. The result of the pressure in the room 10 and the area 37 of the pin 36 acting axial force in the direction of the compression spring 35 is taken up by this.

The Insertion and removal of the coupling plug takes place here as in the manner already described (Figures 2 and 3).

Claims (5)

Compressed air coupling with spring-loaded valve, characterized in that in the compressed air coupling, an axially displaceable spring-loaded locking sleeve is arranged with a multi-stepped in diameter, connected in the central part with the environmental air pin-shaped pressure compensation part. Compressed air coupling with spring-loaded valve, thereby characterized in that the compressed air coupling with an axially displaceable spring-loaded locking sleeve only a reduced in diameter peg-shaped pressure compensation part is arranged. Coupling according to claim 1 or 2, characterized that in the Coupling plug an axially displaceable by spring force continuously opening to the ambient air and in the coupling connector still existing compressed air closing valve is arranged. Coupling according to claim 1 or 2, characterized in that the compressed air coupling via an external thread with a compressed air supply contained and the contours of the pressure compensation part connected to the wall socket. Compressed air coupling according to claim 1 or 2 and 4, characterized characterized in that Wall socket and that the Compressed air coupling receiving counterpart with the internal thread and the contours of the pressure compensation part consists of two parts.