DE3529487C1 - Connection piece for the connection to an external compressed-air line of a compressed-air bottle carried by the wearer of the apparatus - Google Patents

Abstract

The invention describes a connection piece (1) for the connection to an external compressed-air line of a compressed-air bottle carried by the wearer of the apparatus, a pressure-controlled valve in the form of a double piston (7) being arranged in the connection piece. During connection, automatic switchover of the air supply from the compressed-air bottle to the compressed-air line takes place without interruption to the air supply for the wearer of the apparatus. The control of the air supply in the connection piece (1) is designed in such a way that the breathable air from the compressed-air line is fully utilised and a switchover to the compressed-air bottle occurs only when the pressure from the compressed-air line falls below a corresponding pressure that no longer ensures an adequate air supply. <IMAGE>

Description

The invention relates to a connector according to the preamble of Claim 1.

In a connector of the generic type, the valve is as a membrane valve controlled by the pressure of the connectable compressed air line trained that only responds and the way from the compressed air line to lead the regulator opens when the pressure in the compressed air Line greater than the pressure in the medium pressure line to the compressed air Bottle is (DE-PS 11 29 376). The pressure in the compressed air line must therefore always greater than the pressure in the medium pressure line the pressure be in the air bottle when the device carrier comes out of the compressed air line of the Compressed air supply breathes. However, this means that already at a ge pressure drop in the compressed air line switches the valve and the Device carrier breathes air from the pressure much too early air bottle must refer. This removes the air supply from the Compressed air bottle consumed faster and the efficiency for the Ge Councilors reduced. Another and premature air consumption from the Compressed air bottle of the device carrier also results from this known one Execution from that when taking compressed air from the compressed air bottle A whistling tone sounds continuously via an acoustic signal device generated by breathable air from the compressed air bottle to the device carrier to indicate that he breathes from the compressed air bottle.

In another generic connector, the compressed air Line connected to the connector with a coupling piece, wherein the coupling piece is provided with a check valve, which at Removing the coupling piece closes the compressed air line (DE-AS 11 67 188).  

The invention has for its object a connector for connection a compressed air bottle carried by the device carrier to an external compressed air Create line and train so that when connecting an automa table switching without interruption of the air supply enables and at the control of the air supply an optimal use of the breathable Air from the compressed air bottle is guaranteed.

This object is achieved according to the invention with a connector of the beginning mentioned type solved by the characterizing features of claim 1.

The advantages achieved by the invention are in particular that the breathable air from the compressed air line is fully utilized and a switch to the compressed air bottle only takes place when the Pressure from the compressed air line drops so that a sufficient Luftver supply is no longer ensured. This then also increases efficiency  of the SCBA significantly increased.

In addition, can lead to pressure when connected to the connector the compressed air line, the compressed air bottle is disconnected and stored.

An embodiment of the invention is shown in the drawing and is described in more detail below.

It shows

Fig. 1 shows a section through the connector

Fig. 2 is a plan view of the connector

Fig. 3 shows a section II of Fig. 3 and

Fig. 4 shows a section through the connector with a second connection for a further device carrier

As can be seen from Fig. 1, the connector 1 consists of a valve housing 2 with a connecting nipple 3 for the medium pressure line to the compressed air bottle (not shown), a connecting nipple 4 for the compressed air line for the compressed air supply (not shown) and one Connection nipple 5 for the line to the regulator with full mask (not shown). The ends of the lines are provided with coupling pieces which enable the lines to be connected to the connecting piece 1 . In Fig. 1, such a coupling piece 6 of the regulator lead to the line is shown attached to the connecting nipple 5 . In Ventilgehäu se 2 , the valve is designed as an axially movable double piston 7 , which as a control piston pressure-dependent the connection paths within the valve housing 2 between the medium pressure line A to the compressed air bottle and the line B to the regulator of the equipment carrier and between the compressed air - Line C to the compressed air supply and line B opens or closes.

The connection paths are as follows: A bore 9 running parallel and axially to the piston 7 ends in a chamber 10 with a check valve 11 , which on the one hand has the connection nipple 5 leading to the line B to the regulator and on the other hand the lower valve chamber 12 leading to the compressed air line C. communicates. A lateral bore 13 , starting from the bore 9 , opens into the upper valve chamber 14 , which is connected to the medium pressure line A.

The double piston 7 , which is axially movable in the valve housing 2 and is sealed by seals 8 , has a smaller diameter at its upper end, in the direction of the medium pressure line A , than at the opposite lower end, in the direction of the compressed air line C. At the upper end, the double piston 7 is loaded with medium pressure with ∼7 bar from the compressed air bottle and at the lower end with the pressure from compressed air line C of the compressed air supply with ∼10 bar to 2.5 bar. Depending on which pressure conditions are present, the equilibrium state is set by moving the double piston 7 in one or the other direction. In this case, either the connection path between the compressed air line C and the line B to the lun automaton is open and the connection path between the medium pressure line A and the line B to the lung machine is closed, or vice versa. In the case of ambiguously defined pressure ratios, that is, when it is e.g. B. should come to an unintended pressure equalization between the pressures in the medium pressure line A and in the compressed air line C , the double piston 7 can get into a so-called floating position. This floating position can prevent the path to the compressed air line C from being blocked by the double piston 7 , so that air can flow out of the medium pressure line A in the direction of the compressed air line. To prevent this, the non-return valve 11 is used , which also ensures a safe entry of the double piston 7 into the valve chamber 12 for closing the compressed air line C.

The connector 1 has a bracket 15 through which a belt band 16 is passed so that the device carrier can wear the connector on the belt ( Fig. 2).

So that the device wearer can recognize at any time where he draws his breathing air, from the medium pressure line A of the compressed air bottle or from compressed air line C of the compressed air supply, a pressure-controlled display pin 17 is provided, which in one with the lower Valve chamber 12 in connec tion standing bore 18 is guided under the pressure of a spring 19 ( Fig. 3). If the indicator pin 17 is in the upper position shown in FIG. 3, the device carrier draws its breathing air from the compressed air line C of the compressed air supply, and vice versa, if the indicator pin 17 is in the lower position, then the breathing air is exhausted the medium pressure line A of the compressed air bottle. The wearer can see or feel this. At the connector 1 , a second connection 20 can also advantageously be provided for closing an air donation line when another device carrier is in an emergency situation and breathable air is to be donated to it ( FIG. 4).

Claims (4)

1. Connector for connecting a compressed air bottle carried by the device carrier with medium pressure line, pressure reducer and lungs automat to an external compressed air line, wherein in the connector a pressure-controlled valve and in a line leading to the lung valve a check valve is arranged, characterized in that

• a) in the connecting piece ( 1 ) the valve is formed as an axially movable double piston ( 7 ) between the connection of the medium pressure line (A) and the connection of the compressed air line (C) ,
• b) a bore ( 9 ) is provided parallel and at a corresponding distance from the double piston ( 7 ), which is connected to an upper valve chamber ( 14 ) via a lateral bore ( 13 ) and ends in a chamber ( 10 ), which is connected to a lower valve chamber ( 12 ) and to a line (B) leading to the regulator.

2. Connector according to claim 1, characterized in that the double piston ( 7 ) sealed by seals ( 8 ) at its upper end, in the direction of the medium-pressure line (A) , has a smaller diameter than at the opposite lower end, in Direction of the compressed air line (C) . 3. Connector according to claim 1, characterized in that a pressure-controlled indicator pin ( 17 ) is provided which is guided in a bore ( 18 ) in connection with the lower valve chamber ( 12 ) under the pressure of a spring ( 19 ) ( Fig. 3). 4. Connector according to claim 1, characterized in that on the connector ( 1 ) a second connection ( 20 ) is provided for an air dispensing line ( Fig. 4).