DE2223916A1 - INTERNAL GEAR PUMP FOR HIGH PRESSURE - Google Patents

Description

Br. E. Wiegand, Dip! .-! Ng. W. W * ~
Dr. M. Kehlar. η; - '.. ¹ - ^: ^ _iisij ·

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Hamburg 50 - Könjjjstraße 28 \ "?? 9? Q 1 R

W.'25028 / 71 12 / Sch ₄ - _c - *.

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Maschinenfabrik Friedrich Reichert GmbH Hof / Saale

Internally toothed gear pump for high pressures.

The invention relates to a high pressure internal gear pump with a driven external toothed Pinion and an internally toothed ring gear engaged therewith, which is mounted radially by means of a bearing part is around a pivot point arranged in the pump housing is rotatable, wherein 'between the externally toothed pinion and the internally toothed ring gear a movable.gelageriges sickle-shaped Filler piece is arranged.

Gear pumps are suitable because of their simple and space-saving design is particularly good as displacement machines.

In contrast to externally toothed gear pumps, internally toothed gear pumps offer the advantage of low pulsation and with it that of the low noise development * To high pressures with good volumetric efficiency, it is necessary to the gap between gears and housing parts on the Places where the pressure space is limited by the suction space should be kept small.

The aim of the invention is to do this with simple means and consequently without impairing the simple structure of an internally toothed gear pump.

For externally toothed gear pumps, one version is known (DTPS 1 140 462), in which to achieve small radial gaps between the tip circle of the gears and housing parts a movable housing part provided with side plates ve: c-

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is turned, in which the driven wheel without shaft journal is mounted, the movable housing part by a spring to the driving, provided with a fixed bearing wheel is pressed, the driven wheel by the pressure forces generated from the oil pressure on the movable housing part presses independently and thus no radial gaps on the Tooth tips and the movable housing part between the suction and pressure chamber can arise

This pump can only be used for very low delivery pressures be used, because at high pressures the radial contact pressure would be so high and severe wear would occur.

With an externally toothed gear suitable for high pressures Gear pumps (DTPS 1 226 420) are the shaft journals of the two gears in bearing bodies that can move axially to the shaft journals stored, which are made movable by slots and an elastic 'joint that by a pressure field on the outer Circumference of the elastic part of the bearing body, the bearing of the gearwheels and so that these themselves are displaced can that the tooth tips v / earth pressed against the housing parts exactly where they seal the suction chamber from the pressure chamber have to.

In the case of internally toothed gear pumps, the principle of the movable arrangement of one of the two gears was adopted and there is a version (DTAS 1 653 826) known according to which the ring gear is guided in a x * movable bearing shell, the ring gear on the one hand through external liompensationsfeider Backlash-free presses into the toothing of the two gears and on the other hand presses the ring gear to rest against a movable filler piece brings, which in turn is supported on the tip circle of the externally toothed pinion.

Hit this version of an internally toothed gear pump high pressures can be achieved, but the backlash-free toothing means that even the smallest toothing errors have a major impact disadvantageous, the friction is increased and the stress on the bearings of the pinion is increased. The mechanical efficiency thereby deteriorates and a precision gear must be used. Wear on the tooth

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flanks has a very negative effect on the function of the pump, and wear and tear on the filler piece also changes the overlap ratios between suction and pressure chamber. In another known version (DTOS 1 653 871) is the ring gear in two diametrically opposite radially movable sliding pieces, which are acted upon by the medium pressure (delivery pressure) and in the area of the sickle-shaped and also movable filler piece or the fixed pinion against the ring gear. The disadvantage of this arrangement is "inter alia that the high pressure chamber is guided as far as possible around the pinion, so that the space between the ring gear and the housing with is connected to the high pressure area of the machine. This creates very strong forces on the housing parts at high pressures, which lead to elastic changes in shape, which have an unfavorable effect on the bearing of the wheels and which are unnecessary lead strong and expensive construction elements.

Another version (DTOS 1 653 828) provides that the ring gear is fixed radially in a bearing rocker via roller bearings is mounted and that the bearing rocker in the pump housing around a suitable for the balance of forces to the drive shaft parallel axis is rotatably arranged «. The pivot point of the swing arm should be chosen so that a for All operating states a valid geometrical location is found * for which all moments about the axis of rotation of the bearing rocker are balanced are. This in itself is not possible, since the resulting force coming from the pressure chamber that acts on the Ring gear acts in size and direction depending on the meshing and The coverage ratio changes periodically. This around a mean value fluctuating force is used in this known design to the ring gear for sealing contact with the Bring filler piece, bridged by a constant spring force. Since the spring force remains constant, but on the other hand the said force, which fluctuates around a mean value, increases with increasing pressure, the contact force is reduced of the ring gear to the filler piece with greater grounding pressures,

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which leads to poor sealing. On the other hand, the contact pressure at low pressures is so great, which leads to a Wear of the filler piece leads. This in turn causes the entire rocker to move around its pivot point and an increase in the distance between the gear centers. This results in a reduction in the delivery volume of the pumps, which leads to prolonged operation that the pump only provides a low output.

The invention aims to avoid the disadvantages of the known pumps. For this a pump is the introductory part mentioned type according to the invention, characterized in that the pivot point of the bearing part designed as a rocker on the connecting the center of the externally toothed pinion and the center of the internally toothed ring gear Line is arranged.

Such an embodiment ensures that force is exerted on the pinion by the ring gear only at one point is, in the area of the filler piece, which transmits the force to the pinion. This means that when Wear of the filler in the meshing area of the pinion and ring gear results in practically no changes, so that in particular the delivery volume of the pump even with longer periods of operation and thus when the filler piece becomes worn remains practically the same.

Advantageous embodiments of the invention are protected in further claims.

The invention is explained below with reference to the drawing, for example.

Fig. 1 is a longitudinal sectional view of a pump according to the egg-finding.

FIG. 2 is a sectional view taken along line 2-2 of FIG. 1.

FIG. 3 is a view taken along line 3-3 of FIG. 1.

FIG. 4 is a view taken along line 4-4 of FIG. 1.

Fig. 5 is a schematic view showing various Relationships of power are shown.

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According to Pig · 1, a pump according to the invention comprises a housing consisting of parts 1, 2 and 3. The housing parts 1, 2 and 3 are, as is known per se, fastened to one another by suitable screws (not shown).

In the housing part 1, a suction channel 17 and a pressure channel 18 are also formed. At the, outer end of the Housing part 3 is a mounting flange 4 for attaching the pump, for example directly to a drive motor, to a bearing block or the like.

A drive shaft 5 ', which is designed as a plug-in shaft, extends through the fastening flange 4- and is mounted corresponding to the zv / corner, as shown at 6. To seal the shaft 5 is in the mounting flange 4, a seal is arranged, which is indicated schematically at 7.

The stub shaft or drive shaft 5 extends into the hub 8 of an externally toothed pinion 9 and is connected to this hub 8 in an appropriate manner so that when the shaft 5 rotates, the pinion 9 is also rotated will. The hub 8 of the pinion 9 is, as can be seen from Pig.-1, in the housing parts 1 and 3 by means of a suitable Storage facility stored in Pig. 1 is shown as a plain bearing device 10.

The pinion 9 meshes with an internally toothed ring gear 11, with a substantially between the pinion 9 and the ring gear 11 sickle-shaped Püllstück 12 is arranged, which is rotatably and displaceably arranged. The Püllstück is for this attached to a bolt 13 which is rotatably mounted at its outer ends in the housing parts 1 and 3. The bolt has flattened sides which fit into a preferably square recess 14 of the PüTlstückes 12. That way you can the cleaning piece 12 rotates with the bolt 13 and it can move relative to the bolt 13.

The toothing of pinion 9 and ring gear 11 is designed so that there is play in the combing area. "Such a thing

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Toothing with backlash is useful, because it is a comparatively cheap production of the toothing allows and it can be applied to the pump according to the invention, because toothing errors and as Gear failure causing wear does not adversely affect the running of the pump.

fourth
Extends from the bottom of each tooth of the ring gear 11

a bore 15 extends to the outside of the ring gear 11. The purpose of these bores 15 'will be described later.

Kir the axial mount and seal are between the housing parts 1 and 3 sealing plates 16 arranged, wherein in the Pig. 1 upper sealing plate 16 a suitable one Opening for the outlet of the pressurized working medium is formed. The sealing plates 16 are known Way, that the force that is exerted on it from the pressure space and that strives to follow it to press outside, is overcompensated to a certain extent by a force acting from the outside on the sealing plates 16, so that the sealing effect of the sealing plates 16 on the pinion 9 and the ring gear 11 is guaranteed.

To mount the ring gear 11, a bearing rocker 19 is provided on its outside, which is rotatable about a fulcrum which lies on the line L which connects the center point of the pinion 9 and the center point of the ring gear 11 with one another, as shown in Pig . Shown 5.The bearing rocker 19, which explains to _T as described below in more detail, extends a ^r üeil of the circumference of the ring gear 11 is provided in its side facing the ring gear 11 facing Pläche with a recess 21, by means of which a hydrostatic pressure field is formed . Bores 22 extend from the recess 21, each of which leads to a recess 23 forming a compensation field on the radially outer side of the bearing rocker 19. The pressure medium which is required to form and maintain the hydrostatic pressure field 21 and the compensation fields 23 is supplied through the above-described bores in the ring gear 11. The hydrostatic pressure field 21

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is arranged so that it is substantially symmetrical to the resulting force R, which is exerted from the pressure chamber the ring gear 11 is exercised (see Fig. 5)

For the length or the extent to which or to which the bearing rocker 19 extends around the ring gear 11 extends, it is only essential that a stable mounting of the ring gear 11 is obtained. In theory it could the swing arm 19 extend around the ring gear 11, however, such a design would be disadvantageous because too great frictional forces then occur. In the illustrated embodiment extends the bearing rocker 19 up to the area in which the filler piece 12 between the ring gear 11 and the pinion 9 is located.

The described arrangement of the rocker arm 19 ensures that only at one point of the ring gear 11 Force is exerted on the pinion 9, specifically in the area of the filler piece 12, which transmits the force to the pinion 9 .

When the pump is running, pinions 9 and rotate Ring gear 11 as indicated in Fig. 2 by the arrows. The pinion takes 9 as the driven part the ring gear 11, which is pressed by the bearing rocker 19 with little force against the filler piece 12 low force is achieved by an appropriate size of the compensation fields 23 ^ whereby the size of the Kompeiosationsfeider 2J is chosen so that the force exerted by the bearing rocker 19 on the ring gear 11 is slight is greater than the resulting force exerted on the ring gear 11 from the pressure chamber. It should be noted that the The force exerted by the hydrostatic pressure field 21 on the ring gear 11 is slightly smaller than that from the pressure chamber resulting force R exerted on the ring gear 11, so that the ring gear 11 rests permanently on the bearing rocker 19, of course, in practical operation always a Pressure medium film between the opposing surfaces is available.

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If during operation of the pump on the filler piece 12 Wear occurs, the filler piece 12 performs a corresponding displacement and / or rotary movement along or around the Bolt 13 off. The ring gear 11 then performs a corresponding Follow-up movement off. This tracking movement of the ring gear 11 follows the swing arm 19 by corresponding rotation about its pivot point 20. Since the pivot point 20 of the swing arm is stationary and on the line L connecting the center points of pinion 9 and ring gear 11, also changes at Rotation of the bearing rocker 19 in the kneing area of the tickle 9 and ring gear 11, the distance between these two parts is practically nonexistent or only to a negligible extent. Thus, even when the filler piece 12 is worn, the backlash in the meshing area of the gears 9 and 11 practically changes not, so that the delivery volume of the pump remains practically the same.

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Claims (3)

Pat ent claims .11.) Internally toothed high pressure gear pump with a driven externally toothed pinion and an internally toothed ring gear engaged therewith, which by means of a bearing part which is rotatable about a pivot point arranged in the pump housing is, with between the externally toothed pinion and the. internally toothed ring gear a movably mounted sickle-shaped filler piece is arranged, characterized in that that the fulcrum (20) of the bearing part (19) designed as a rocker on the center of the externally toothed Pinion (9) and the center of the internally toothed ring gear (11) connecting line arranged is. 2. Pump according to claim 1, characterized in that the 'sickle-shaped filler piece (12) in the pump housing (1, 3) is rotatably and displaceably mounted. 3. Pump according to claim 1 or 2, characterized in that the bearing rocker (19) with one or more hydrostatic Kompensationsi'eldern (23) is provided, which are selected such that the ring gear resting on the bearing rocker (11) with little force in sighting against the filler piece (12) is printed. 4-. Pump according to one of Claims 1 to 3 »characterized in that that the bearing rocker (19) has a hydrostatic pressure field on its surface facing the ring gear (11) (21), which pressure medium is supplied via bores (15) formed in the ring gear (11). 5. Pump according to claim 3 or 4, characterized in that that the recesses (23) in the bearing rocker (19), polygamy, form the compensation fields, via bores (22) with the Recess (21) of the bearing rocker (19) are connected, which © forms the hydrostatic pressure field. 3-09848 / 0133 6 · Pump according to one of claims 1 to 5 »thereby characterized in that the toothing of the pinion (9) and ring gear (11) is formed as toothing with play. 309848/0133