DE829769C - Small compressor - Google Patents

Description

Small compressors Small compressors come in a wide variety of designs suggested. The compressed air generator is usually set up next to the compressed air tank or also combined with the drive motor mounted on the air tank]. Such designs have the disadvantage of large dimensions, they require considerable building material and cannot be installed in small rooms.

Compressors without compressed air tanks have the disadvantage that the 1'reßluft is fed to the consumer point in bursts. This is particularly disadvantageous with Tools. In addition, the compressed air produced without 1) return air boiler separates considerably away. In the case of color fuel systems, the spray material is therefore mixed with water; but also when inflating pneumatic tires, the condensation water that occurs is very harmful.

The invention makes it its task to a small Kompres @ or that takes up little space, i.e. also in small workshops, petrol stations, . Garages o. The like. Can be set up easily, the result of its combined Bauart represents a small compact and clear aggregate, des @ -, # en Individual parts are easily accessible. In addition, the operation is simplified, the Small compressor Scann may also be mobile. Because of its technically simple And economically easy to manufacture, the construction costs are low. In particular but the new small compressor has the essential technical advantage that a favorable separation of the condensation water is achieved in the air pressure vessel, so that a largely anhydrous compressed air is generated.

The invention consists in that through the cylindrical air pressure vessel the drive shaft for the piston of the working cylinder is passed through, which is at at its end has the drive pulley connected to the drive motor.

It is also according to the invention to the Working cylinder Attached pressure vessel by arranging an inner tube as a closed hollow jacket formed, and the drive shaft of the working cylinder is through the inner tube passed through. Finally, there is a large number of baffle plates in the pressure vessel arranged, which divide the pressure vessel into compartments and on the inside and / or Outer jacket of the pressure vessel and nozzle-like air passage gaps on the condensation pipes form.

Furthermore, according to the invention, it is advantageous in the pressure vessel around the inner tube a second inner tube is arranged and thereby a second one around the drive shaft Hollow jacket formed in the pressure vessel through which the compressed air stored in the pressure vessel is introduced or discharged.

Further features of the invention consist in the special type of assembly of the drive motor, as well as in the arrangement of passed through the pressure vessel Condensation pipes that open into chambers at the front and through which the fresh air is sucked in by the working cylinder.

Finally there are further features of the invention in the type of leadership , the condensation pipes through the baffle discs and in particular that the compressed air of the pressure vessel in a hollow jacket of the working cylinder provided with spiral channels introduced, fed from this to a collecting chamber, do eventually warmed up with simultaneous cooling of the working cylinder introduced into a post-filter from which it is then discharged to the tap.

The invention can be carried out in various ways. she is illustrated schematically in the drawing in one embodiment, wherein Working cylinder and pressure vessel as well as part of the connecting pipes shown in section are.

The cylindrical pressure vessel i has an inner tube 2 through which the drive shaft 3 for the connecting rod 4 of the piston 5 of the working cylinder 6 is passed through. The pressure vessel i is through the walls at both ends ia completed. It is conveniently located directly on the crankcase 7 of the working cylinder 6 flanged. The shaft 3 is in the bearings 8, 9 of the crankcase. 7 and: des Pressure vessel i expediently with the interposition of. Rolling elements stored. Of the Pressure vessel i can with; stationary training of the compressor unit by means of Feet can be attached directly to the floor, but it can also be placed on a chassis to be assembled.

The pressure vessel i designed as a closed hollow jacket has in addition to the inner tube 2, a second inner tube i i, which has openings 12 at one end for the discharge of the compressed air into the. has thereby formed inner hollow jacket 13. At the other end of this hollow jacket 13, the discharge pipe 14 is connected.

The design can now be made so that the compressed air discharged here possibly with the interposition of filters reaches the tap directly. at the illustrated embodiment, the cold compressed air is used to cool the Working cylinder related with simultaneous heating of the compressed air, so that one can supply heated Prgßluft the consumer point, what for many work purposes is beneficial.

For the purpose of generating compressed air that is as water-free as possible, are in the pressure vessel i a larger number of baffle disks 15, arranged, which the pressure vessel Divide into compartments 16 and nozzle-like on the inner outer shell of the pressure vessel Form air gap 17. There are also a large number due to the pressure vessel out of Kontdensrohren 18, which are on both sides at the boiler front sides in chamber 19, 20 open. The chamber 2o has suction openings covered by filter rings 21 22, while the chamber i9 through openings 23 optionally via a second Collection chamber 24 and channels 25 with the interior of the crankcase 7 in connection stands. In the crankcase, the crank disk 26 is arranged on the shaft 3, while at the other end of the shaft 3 the. Drive pulley 27 is put on, the means suitable transmission means, for example endless tension members 28 (V-belts), Transmission gear or the like from the one mounted directly on the pressure vessel Drive motor 29, in particular an electric motor, is driven.

The piston 5 of the working cylinder, which is provided with the suction valve 30 in a known manner, sucks in fresh air as it goes up through the condensate pipes, which, when the piston goes down, enters the cylinder chamber in a known manner via the valve. When the piston rises, the air is then forced out via the pressure valve 31 via the pipe 32 and supplied to the pressure vessel i. The compressed air produced in this way is then passed over the entire length of the pressure vessel through the various compartments 16; it has to force its way through the many narrow passage gaps that act as nozzles, whereby condensation of the water carried takes place. At the same time, the fresh air passed through the condensation pipes 18 cools the compressed air in the pressure vessel which is heated during compression, which also increases the condensation.

At the bottom of the pressure vessel i is an automatic water pressure relief valve133 intended. The compressed air then passes through the openings 12 into the inner hollow jacket 13 of the pressure vessel and is discharged through pipe 14.

In the embodiment shown in the drawing, this is Discharge pipe 14 for the compressed air -an a hollow jacket 34 of the working cylinder 6 connected, which is also provided with cooling fins 35. The now cooled Compressed air is therefore in turn used to cool the working cylinder with simultaneous heating used, whereby it is expedient to run spirally in the hollow jacket 34 Arrange channels 36 in order to achieve the best possible cooling of the cylinder wall reach. The compressed air expediently passes through the channel 37 a plenum chamber 38 arranged in the cylinder head, from which it is heated over the pipeline 39 is fed to a secondary filter 40.

The post-filter can, for example, consist of two nested pots of which the inner one is provided with filter material. On the post-filter the nozzle 41 are then expedient with the interposition of Mehrwegeliähnen put on.

At the post-filter 40 is also useful, for example, as Piston valve designed control member 42 is grown, through which the electrical Drive motor can be switched on and off in a manner known per se.

The baffle plates or baffle plates can be loose on the condensation pipes 18, they can also be spaced apart by spacer tubes 43 are held, and it is particularly possible also at the implementation points of the condensation pipes 18 to form nozzle-like air gaps 17 through the baffle plates.

A particular advantage of the system is that the compressed air as a result mechanical friction on the baffle plates or penetration points their moisture releases and the fresh air sucked in through the intake or condensation pipes at the same time the compressed air in the pressure vessel cools, creating such a strong condensation it is achieved that practically the compressed air is completely dry. For example 6o suction pipes and 20 baffles would be with five passage gaps on each Sheet metal in the relatively small design of the compressor around 6,000 nozzles for created the passage of compressed air in the pressure vessel.

The on and off in the control member 42 can, for example, as Mercury toggle switches are formed.

Claims (9)

PATENT CLAIMS: i. Small compressor for generating compressed air that is as water-free as possible, in particular for spray systems, air tank systems or the like, characterized in that the drive shaft (3) for the piston (5) of the working cylinder (6) is passed through the cylindrical air pressure vessel (i), which has a drive pulley (27) at its end. 2. Small compressor according to claim i, thereby characterized in that the pressure vessel connected to the working cylinder (i) by Arrangement of an inner tube (2) is designed as a closed hollow jacket and that the drive shaft (3) of the working cylinder passed through the inner tube (2) is, which is stored only in front of and behind the pressure vessel. 3. Small compressor according to claims i and 2, characterized in that around the inner tube (2) of the pressure vessel (i) In this a second inner tube (ii) is arranged, which has openings at one end (12) for the discharge of the compressed air from the pressure vessel at the other end is connected to the discharge pipe (14) of the cold compressed air or that the supply and discharge of the compressed air is reversed. 4. Small Krompressor according to claim i to 3, characterized in that the pressure vessel (i) has a larger number of baffle plates (15) is arranged, which divide the pressure vessel into compartments (16) and on Inner and / or outer jacket of the pressure vessel nozzle-like passage gaps (17) form. 5. Small Krompressor according to claim i to 4, characterized in that the drive motor (29) is mounted directly on the pressure vessel (i) and by means of Transmission means, for example traction elements (28) (V-belts), transmission gears or the like. Drives the drive pulley (27) of the drive shaft (3). 6. Small compressor according to claims i to 5, characterized in that condensation pipes through the pressure vessel (i) (18), which on both sides at the boiler front sides in chambers (19, 20) open and is sucked in by the fresh air from the working cylinder (6). 7. Small compressor according to claim i to 6, characterized in that the condensation pipes (18) through the Baffles (15) are passed through with play, creating more nozzle-like Durchtrnttsspalte (17) are formed for the compressed air to the individual departments (16). B. Small Krompressor according to claims i to 7, characterized in that the one facing the working cylinder (6) Chamber (i9) of the pressure vessel (i) through holes (23) and channels (25) with the crankcase (7) of the working cylinder is connected, being between the chamber (i9) and the crankcase (7) a second collecting chamber (24) can also be provided. 9. Small compressor according to claims i to 8, characterized in that the compressed air of the pressure vessel (i) through the discharge pipe (14) into one provided with spiral channels (36) Hollow jacket (34) of the working cylinder (6) introduced and served by a collection chamber (38) is performed, whereupon it while cooling the working cylinder warmed into a post-filter (40), from here to the tapping points to become. ok Small compressor according to Claims i to 9, characterized in that a control element formed, for example, as a piston valve aws on the post-filter (40) (42) is grown, through which the electric drive motor is known per se Means can be switched on and off. i i. Small compressor according to claims i to io, characterized characterized in that an automatic water and pressure relief valve on the pressure vessel (33) is provided.