DE466106C - Circulating displacement air pump - Google Patents

Description

Circulating positive displacement air pump The invention relates to circulating air pumps Positive displacement air pumps; in which the piston-like oscillating in the impeller cells Process water drives the impeller while compressing the air. They are air pumps known of this type, in which the water is supplied and discharged at the circumference of the impeller will. However, these air pumps have the disadvantage that the wheel body is only one small part can be used for compression, as the supply and discharge lines take up a considerable part of the wheel circumference. Also have the pumps considerable energy losses due to the friction of the rapidly flowing water.

These disadvantages are now avoided according to the invention in that on the one hand the openings for the inlet and outlet of the service water in different: Radial planes are laid and on the other hand of the expedient laterally next to the impeller lying pressurized water supply channel, in which only low water velocity prevails, short nozzles after the running talk, so that the water is just before his Entry into the impeller, the high working speed, which gives rise to frictional losses assumes and penetrates into the impeller blades as a closed jet. A Mixing with the air to be compressed is avoided in this way. On the other hand, takes the water speed through the work of air compression and the impeller drive in the impeller blades from, so that the draining water with its low speed no more frictional losses. By laying the supply and discharge of the Process water in different radial planes can greatly reduce the suction volume of the wheel increased - be. Because now a larger number of water jets acting as pistons can be distributed around Cas impeller, so that as possible all blade channels acted upon are.

One of the numerous possible embodiments of the idea of the invention is illustrated on the drawing as an example, namely Fig. i shows in his upper part a radial section through the impeller center plane of the machine, in its lower left ouadrant a section through the inlet channel for the pressurized water and in the lower right part that of the machine housing.

Fig. 2 is an axial section through the machine.

One impeller a is from the two. rings surrounded by bolts b4 o. the like. verbundenen- parts b1, b2 of the machine housing such that the impeller at a cl and c2 in the overall housing is rotatably mounted b1 and b2. On the circumference of the housing, two channels d and e are provided next to one another in the axial direction, of which the channel d, which lies laterally from the impeller a in the axial direction, is connected to the water inlet nozzle f, while the circumferential channel e lying in the impeller plane, which through a series of tongues e1 is divided into a spiral shape, with the water outlet connection g is connected. In front of the water inlet channel d, several inclined channels or nozzles dl expediently lead to the vane cells of the impeller a. One side wall d of the impeller is slightly smaller in diameter than the rest of the impeller in order to allow the water from the nozzles dl to enter the vane cells from the side, so that the vane cells are exposed on the circumference of the impeller on one side and here be covered by the housing wall b- ', which are penetrated at some points by the nozzles dl. Between the two walls a1, a = of the impeller there are a number of blades ca3, so that cell spaces a4 arise in the impeller.

Centrally in the impeller a is arranged a distributor 1z, which with the machine housing is connected, so it stands still. Open into this distributor two pipes conveniently located in the center of the machine housing: the suction pipe i. for the air to be compressed or the gas and the pipe k from which the compressed Air flows out. The suction chambers hl in the distributor h are through from the pressure walls h2 Partitions h3 separated. Radial bores b # and bf lead from both spaces outside, such that the mouths of these holes immediately in front of the inner mouths of the impeller vane cells a. The arrangement of the inlet and outlet of the Process water in different radial planes makes it possible for the impeller during hit several times of one revolution with the pressurized water jet. In the embodiment three application nozzles are provided, but a more frequent one can also be used Actuation of the wheel takes place during one revolution, in such a way that in any case all impeller vane spaces participate continuously in the machine's work cycle. Through this it becomes possible to achieve high outputs with a relatively small machine achieve.

Claims (1)

PATENT CLAIMS: a. Circulating positive displacement air pump; where the process water The impeller swings like a piston in the impeller cells, compressing the air drives and is supplied and discharged at the circumference of the impeller, characterized in that that the openings for the inlet and outlet of the process water in different radial planes lie. z. Displacement air pump according to claim z, characterized in that that the pressurized water supply channel lying axially next to the impeller circumference, in which the water flows comparatively slowly, -short nozzles after the impeller lead, in which the pressurized water assumes its high working speed.