DE644570C - Fast running gear pump - Google Patents

Description

High-speed gear pump In gear pumps, is generally the Suction and pressure channels in the pump housing. On the circumference of the gears near the Arranged tooth entry or tooth exit. There is then the risk that the funding, especially at high speed of the gears, due to the centrifugal force outwards into the The suction channel is thrown back and the gaps between the teeth are not completely filled: In order to improve the filling of the tooth gaps, one already has branch canals on the Arranged end faces of the gears, which are directly connected to the suction and pressure channels are connected. This is to ensure that the filling of the tooth gaps when The liquid is sucked in not only at the circumference, but also from the sides. Nevertheless, it did not succeed: even then, the gaps between the teeth when sucking in liquid full, as the centrifugal force flings some of the liquid out of the gaps between the teeth. The result was that when the tooth gaps approached the pressure channel, pressure fluid flowed into the partially filled tooth gaps at great speed, which caused the pump to run noisily.

According to the present invention, this disadvantage is intended to be eliminated be that the branch channels of the suction channel, which on the end faces of the gears are appropriate so. are widely carried out that they are in connection with the tooth gaps kick when the teeth are still engaged, and with the gaps between the teeth too still have connection when they are covered on the circumference of the gear.

The fact that the side channels are led to the engagement of the teeth, the filling starts early. Covering the gaps in your teeth while doing this are still in connection with the side channels, enables a safe post-flow the liquid even if the effect of centrifugal force, the liquid is to be thrown out of the tooth gaps, lifted.

The invention offers the advantage that the tooth gaps when sucking completely fill with liquid so that the gear pumps in operation quietly to run.

The invention is on the accompanying drawing, - on 'an embodiment shown. It shows Fig. I a section along line A-B of Fig. A, Fig. A a Longitudinal section through the pump parallel to the gear axles, Fig.3 the part of a Section along line A-B in Fig. Z without gears and Fig. ¢ a cross-section through the gear axles.

The parallel bores b, b ' are located in the pump housing n, which can be composed of one piece or also of different parts. The gears c, c 'and the bushings d, d are housed in these bores. The gear shafts are mounted in the bushes d, d '. The suction and pressure channels, f angeord;,; net. The suction channel e can be expedient be carried out large, that a " piece g, which the suction channel k and Branch channels i, i 'contains, inserted expectant "IEF. Can the branch channels i, i' associated with the d at the end surface of the sleeve, so that the suction or filling of the tooth spaces d 'attached channels k, k', in conjunction, partial takes place from the foot circle.

From Fig. R and 3 it can be seen that the channels k even then are in connection with the tooth gaps if they are covered on the circumference. at In the exemplary embodiment, the cover is made at this point by the insert piece.

In Fig. 2 the return line of the excess flow rate is shown. It takes place in the suction direction of the liquid, namely through the inclined inflow openings l from the annular space m. The annular space m is connected to the overflow valve n through bores o.

The execution remains free to pour branch channels i, i ' directly into the suction cup and to let the insert #rt without affecting the effect of the invention.

Claims (1)

PATENT CLAIM: High-speed gear pump in which the liquid is sucked in both on the circumference and from the end faces of the gears, characterized in that the side channels (k, k ') branched off from the main suction channel (e) are guided so far that they are connected to the Tooth gaps connect when the teeth are in mesh, and with the tooth gaps still have connection when they are covered on the circumference of the gear.