DE19930610A1 - Compressor with boiler and compression unit, having flange casing between two compressed air line sectors - Google Patents

Abstract

The compressor has a boiler (1) with safety valve (18), a compression unit (2), a compressed air line (3) with no-return valve (16), a pressure switch (6), a pressure reducer (7) and a relief valve (8). There is a flange casing between two sectors of the compressed air line, to which the safety valve, no-return valve, pressure switch, pressure reducer, relief valve, compressed air outlet (20) and pressure gauges are directly connected.

Description

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

Such compressors are used in many areas. However, the production of the known compressors is relatively expensive dig and expensive, since many components are assembled separately and ver with the compressed air boiler must be bound.

For example, the compressed air line and the compressed air outlet are separate rate pipelines connected to the compressed air boiler, being for their assembly Welding work on the compressed air boiler is required, which naturally increases represent manufacturing costs and increase the cost of the compressor contribute.

Furthermore, the relief valve is connected to the pressure via a relief line air line connected, the relief valve with the pressure switch in effect  connection is made while the relief line is physically distant to the Pressure switch arranged compressed air line is connected.

Essentially, the separate arrangement also affects the other components, such as that Safety valve, the pressure reducer, the pressure switch and the boiler pressure and Working pressure gauge.

The separate arrangement and assembly of these components also leads to a not inconsiderable cost increase in the manufacture of the compressor.

This is particularly particularly disadvantageous as such a comm large numbers of pressors are manufactured.

The present invention is therefore based on the object of a compressor of the generic type so that it is easier and less expensive is adjustable and mountable.

This object is achieved by a compressor which has the characteristics of the claim ches 1 has.

The flange housing provided according to the invention forms a base part, which at for example, can be formed as a cast part with all operationally relevant connections is provided.

The components required for operation are simple with the To connect flange housing, for example by screwing, the Flange housing may have corresponding threaded sockets, in which the egg screwed components.

The compressed air boiler itself is only to be provided with a connection that way probably contains the compressed air line as well as the compressed air outlet. On further arrival conclusions directly on the compressed air boiler can be dispensed with by the invention  the, which of course results in a much easier production of the com pressors results.

According to an advantageous embodiment of the invention it is provided that in the com Binary compressed air inlet / outlet a riser is integrated, to which a drain is connected to the bottom of the compressed air boiler is sufficient and through which the separated condensate can be emptied Flange housing a drain valve is provided, which with the riser in Ver bond stands.

Compared to the prior art in the bottom area of the compressed air boiler a drain tap is provided, this further development also represents a represents a significant advantage, above all because of the implementation of the emptying device no additional construction work on the compressed air boiler is required are.

Further advantageous embodiments of the invention are set out in the subclaims indicates.

An embodiment of the invention is described below with reference to the accompanying Described drawings.

Show it:

Fig. 1 shows a compressor according to the invention in a side view;

Fig. 2 shows a detail view of the compressor in a partially cut sides,

Fig. 3 is a partial section of the detail according to the section line III-III in Fig. 2,

Fig. 4 seen a front view of the detail in the direction of arrow IV in Fig. 1,

Fig. 5 seen a side view of a detail in the direction of arrow V in Fig. 4,

Fig. 6 is a partially sectioned rear view of the detail according to the section line VI-VI in FIG. 1.

In Fig. 1, a compressor is shown, which has a pressure vessel 1 and a compressor unit 2 , with the compressed air in the pressure vessel 1 can be conveyed bar.

A compressed air supply line is connected to the compressor unit 2 , via which compressed air can be conveyed into the pressure vessel 1 . Between two compressed air supply sections, a flange housing 5 is arranged, the section of the compressed air supply line facing the pressure vessel 1 being designed as a compressed air inlet / outlet, through which the compressed air can be introduced into the pressure vessel 1 and removed on the other hand.

The flange housing 5 is provided with a connecting piece 11 which is connected to the compressed air inlet / outlet 4 . The compressed air supply line 3 opens into egg NEN compressed air connector 10 of the flange housing 5th

As shown particularly clearly in FIG. 6, the flange housing 5 is provided with a base part 24 on which a pressure switch 6 is mounted, which is operatively connected to a through hole 26 , which forms the continuation of the compressed air inlet / outlet 4 .

A riser pipe 12 is placed in this through hole 26 , the diameter of which is smaller than the diameter of the through hole 26 .

This riser pipe 12 , which has a hose nozzle at its end opposite the pressure switch 6 , onto which a hose (not shown) that can be pushed down into the bottom region of the pressure vessel 1 can be connected, is connected to a drain valve which is fixed in the flange housing 5 . If necessary, the drain valve 9 can be opened, so that the surface in the pressure vessel 1 , the condensate liquid created by the current operation can escape, the boiler pressure driving the liquid out. It is also conceivable to provide automatic emptying, for example in chronological order or depending on the liquid level.

The riser pipe 12 has molded-on partitions 13 which extend axially on both sides and through which the through hole 26 is separated into two chambers, namely into an inlet chamber 27 and an outlet chamber 28 . The inlet chamber 27 is connected to an access bore 14 which is connected to the compressed air supply line 3 , while in the outlet chamber 28 an outlet 15 opens, which on the other hand opens into an outlet port 20 to which a consumer can be connected.

Likewise connected to the access bore 14 is a check valve 16 , through which compressed air is prevented from escaping from the pressure vessel 1 into the compressed air supply line 3 when the compressor unit 2 is switched off. This check valve 16 is also mounted in a receptacle on the flange housing.

This is equally the case with a relief valve 8 , which is controlled by the pressure switch 6 , is actuated when the compressor unit is switched off and through which the compressed air supply line 3 is vented. When the compressor unit 2 is started up again, the compressed air line 3 is thus pressure-free.

A connection between the relief valve 8 placed in a molded eye 30 of the flange housing 5 and the compressed air supply line 3 or the compressed air nozzle 10 is via a connecting bore 17 , from which the compressed air with the relief valve 8 open from the compressed air line 3 into an outlet opening 29 to the outside reached.

Other components directly connected to the flange housing 5 are a pressure reducer 7 assigned to the outlet connection 20 , a safety valve 18 and pressure gauges 19 and 21 .

The pressure reducer 7 is in operative connection with the outlet connector 20 , while the safety valve 18 , which is screwed into a sleeve 23 of the flange housing 5 , is connected to the outlet bore 15 and the outlet chamber 28 and prevents overpressure in the pressure vessel 1 . The actual boiler pressure is indicated by the manometer 21 , which is screwed into a manometer connection 22 of the flange housing 5 and is also connected to the outlet chamber 28 or the outlet bore 15 .

Via a supply line 25 , the pressure reducer 7 is connected to the outlet chamber 28 .

Finally, the manometer 19 , which is connected to the outlet bore 15 , shows the working pressure effective at the outlet connection 20 .

Reference list

1

Pressure vessel

2nd

Compressor unit

3rd

Compressed air supply

4

Compressed air inlet / outlet

5

Flange housing

6

Pressure switch

7

Pressure reducer

8th

Relief valve

9

Drain valve

10th

Compressed air nozzle

11

Connecting piece

12th

Riser pipe

13

Partition

14

Access hole

15

Outgoing hole

16

check valve

17th

Connecting hole

18th

Safety valve

19th

manometer

20th

Outlet connection

21

manometer

22

Pressure gauge connection

23

sleeve

24th

Base part

25th

Supply line for pressure reducer

26

Through hole

27

Inlet chamber

28

Outlet chamber

29

Outlet opening

30th

eye

Claims (10)

1. Compressor, with the following components:

• a) a pressure vessel ( 1 ) to which a safety valve ( 18 ) is connected,
• b) a compressor unit ( 2 ),
• c) a compressed air supply line ( 3 ) connected to it and opening into the pressure vessel ( 1 ), to which a check valve ( 16 ) is connected,
• d) a pressure switch ( 6 ) with which the compressor unit ( 2 ) can be switched on and off.
• e) a compressed air outlet provided with a pressure reducer ( 7 ),
• f) a relief valve ( 8 ) which is operatively connected to the compressed air supply line ( 3 ),
• g) a boiler pressure manometer ( 21 ),
• h) a working pressure manometer ( 19 ),

characterized in that between two compressed air supply sections, a flange housing ( 5 ) is provided on which the safety and the return check valve ( 18 , 16 ), the pressure switch ( 6 ), the pressure reducer ( 7 ), the relief valve ( 8 ), the Compressed air outlet ( 20 ) and the boiler pressure and working pressure gauges ( 21 , 19 ) are directly connected, the corresponding components depending on their function communicating with each other. 2. Compressor according to claim 1, characterized in that with the pressure vessel ( 1 ) on the one hand and the flange housing ( 5 ) on the other hand connected compressed air supply section is designed as a compressed air supply / outlet ( 4 ). 3. Compressor according to claim 1 or 2, characterized in that the flange housing ( 5 ) has a connecting piece ( 11 ) which is connected to the pressure air supply / outlet ( 4 ) and which has a through bore ( 26 ) on the with an axially extending inlet chamber ( 27 ), which is connected to the compressed air supply line ( 3 ), and a parallel to it duri fenden outlet chamber ( 28 ) is provided, which is connected via an outlet bore ( 15 ) to an outlet port ( 20 ). 4. Compressor according to claim 3, characterized in that in the through hole ( 26 ) a riser pipe ( 12 ) is arranged, the diameter of which is smaller than the diameter of the through hole 26 and to which a hose is connected and into the bottom region of the Pressure vessel ( 1 ) is sufficient and on the other hand is connected to a drain valve ( 9 ). 5. A compressor according to claim 3 or 4, characterized in that the riser pipe ( 12 ) has partitions ( 13 ) through which the inlet chamber ( 27 ) and the outlet chamber ( 28 ) is separated. 6. A compressor according to claim 1, characterized in that the compressed air supply line ( 3 ) in a compressed air socket ( 10 ) of the flange housing ( 5 ) is fixed, which has a connecting bore ( 17 ) to the relief valve ( 8 ), the integral part of the flange housing ( 5 ) has. 7. A compressor according to claim 6, characterized in that the relief valve ( 8 ) is provided with an outlet opening ( 29 ). 8. Compressor according to one or more of claims 1-7, characterized in that in the flange housing ( 5 ) one of the inlet chamber ( 27 ) and one of the compressed air connector ( 10 ) connecting access bore ( 14 ) is provided, between this and the compressed air connector ( 10 ) the check valve ( 16 ) is arranged on. 9. A compressor according to claim 1, characterized in that the relief valve ( 8 ) in a molded eye ( 30 ) of the flange housing ( 5 ) is placed. 10. A compressor according to claim 1, characterized in that the flange housing ( 5 ) is designed as a one-piece casting.