EP1155240B1 - Medical gear pump - Google Patents

Description

The invention relates to a medical gear pump for sucking and rinsing, with a pump body that is a pot-like Pump housing having two cylindrical openings, in where two meshing gears are included, namely a driving gear and a revolving gear, the driving gear journal bearing free in the corresponding opening is received, wherein the openings on the one hand with an inlet and on the other hand connected to an outlet, and with a lid for closing the pot-like pump housing.

Such a medical gear pump is known from DE 197 25 462 A1.

In the medical gear pump described there for sucking and rinses are both gears, which have a helical toothing comb each other, zapfenlagerfrei in the openings received the pump body. The cup-shaped pump body is completed by a lid, through which a coupling pin of the driving gear. Each opening is available an inlet connection and with an outlet connection in connection. These thus form an inlet and an outlet of the medical Gear pump.

The assembly of pump housing, cover and the included therein meshing gears forms a compact pump body, the via a bayonet connection with a drive body is connectable, in such a way that then of the driving Gear protruding coupling pin in a corresponding Clutch slot of the drive body engages.

To clean the medical gear pump, the pump body unlocked from the drive body via the bayonet connection, the lid of the pump housing removed, so that then the two Gears pulled out of the openings of the pump body can be.

After cleaning and sterilizing, the two gears can pushed back, put the lid on and so mounted Pump body be placed back on the drive body.

In order not to create numerous bacteria niches and cleaning To facilitate, is with this medical gear pump provided that both gears zapfenlagerfrei in the openings are included.

Are the gears removed from the pump housing, are inside the pump housing only the cylindrical openings present which are easy to clean and sterilize.

In practical use, it has now been determined that the follower, So the not directly driven gear during operation not only by the differential pressure between inlet and outlet, but also strong by the drive of the driving gear is pressed against the inner wall of the pump housing. This Circumstance may be increased at high flow resistance Wear due to abrasion, if the material pairing of the revolving wheel to the housing not for optimal sliding conditions is selected or the fits of the gears to the housing bores are not precisely made. For continuous operation Under high stress, there is a relatively strong heat inside the pump housing. As a further consequence a relatively higher torque is needed to high delivery pressures to accomplish. However, this increased torque is higher Claims on the strength of the coupling or drive pin of the driving gear. To counter this, can the coupling pin with a relatively large diameter be provided, but what a relatively high wear on the shaft seal due to an increased peripheral speed pulls. The coupling pin is indeed from the pump body before, he must therefore have a shaft seal through the ground be passed through the pump body.

If the gear pump is intended for multiple or continuous use, So have optimal material pairings between the Housing and the therein rotating gears are provided, and correspondingly hard materials with a very good Lubricity.

This leads to a relatively high cost of materials and needed exactly worked components.

From FR-A-1 308 375 a gear pump for conveying combustible fuels known.

In a pump housing, two meshing gears are accommodated, namely a driving gear and a revolving gear. The follower gear is received on a pin.

To seal the gear chamber with respect to the drive train for preventing passage of the flammable liquids in this area is provided, the driving gear including the Coupling pin on which this sits, via a spring in axial Direction with a force to apply.

It is therefore an object of the present invention, a pump body to create the cheaper with good pump performance is.

According to the invention the object is achieved in that of a Floor of the pump housing protrudes a pin, on which the revolving Gear is pushed, and that the pin is conical zerjüngt.

This measure has the advantage that through the guide pin the follower gear through the pin so far out is that, except in the context of provided tolerances, the revolving Gear from the driving gear not in excess of the Inner wall of the pump housing is pressed.

One conical pin has manufacturing technology the advantage much easier from an injection mold as a cylindrical pin to be peelable, and the taper also ensures easy centering of the gear in the Assembly and operation.

As a result, then not particularly wear-resistant and expensive machined materials used for the gears but it can be much cheaper materials be used. The same applies to the material of the pump housing.

Pressing force peaks coming from the wall of the housing openings the curved line pieces of soft-elastic tooth tips the more heavily loaded follower gear act within the elastic range of the gear material intercepted by the pin.

Material abrasion on the driven gear is effectively prevented. A possible tumbling of the gears within the game The overlapping openings are greatly reduced.

This can be used especially for a pump body can be created for single use, i. the request to the materials consist only in that a one-time use is guaranteed. This opens up now the possibility of inexpensive injection molding materials in relative large tolerance ranges to use both pump housing as well as gears.

The ease of use and installation is facilitated because the pin as a landmark and centering for the non-driven gear is used during assembly.

After use of the pump, the pump body can via the bayonet connection Turned off the drive body and discarded, and for the next use of the pump, a new pump body be put on.

In a further embodiment of the invention, the pin is on cast the bottom of the pump housing.

This measure has the advantage that the bearing pin at the same time the manufacture of the pump housing with molded or molded becomes, so that a particularly simple and cost-effective Making the pump housing is possible.

Both the driving and the follower gear can be formed as a simple injection molded parts, which are then in a also designed as an injection molded pump housing and be closed over the lid. These parts can technically be made inexpensively and inexpensively be so that a pump body for single use available stands, or even with relatively idle drive power ensures a safe and sufficient pumping power.

It is understood that the above and the following yet to be explained features not only in the respective specified combinations, but also in other combinations or be used alone, without the framework of to leave the present invention.

Fig. 1

einen Schnitt durch einen Pumpenkörper längs der Ebenen der Drehachsen der Zahnräder und

Fig. 2

einen Schnitt längs der Linie II-II in Fig. 1.

The invention will be described and explained in more detail below with reference to a selected embodiment in conjunction with the accompanying drawings. Show it:

Fig. 1

a section through a pump body along the planes of the axes of rotation of the gears and

Fig. 2

a section along the line II-II in Fig. 1st

A pump body shown in Figs. 1 and 2 is in its Entity provided with the reference numeral 10.

The pump body 10 has a pot-like pump housing 12, the bottom side over an integrally connected ground 14 is closed. The pump housing is as a plastic injection part formed, for example. From the material PC Macrolon, such it is offered by Bayer, Germany.

On the open side, the cup-shaped pump housing 12 via a lid 16 are closed. One around the lid 16 circumferentially circumferential seal 17 ensures a tight seal the interior of the pump housing 12th

In the pump housing 12, as shown in particular in FIG. 2 can be seen is, two cylindrical intersecting openings Sent out 18 and 20.

The openings 18 and 20 are on the one hand with an inlet port 22 in connection, which projects laterally from the pump housing 12. On the other hand, the openings 18 and 20 with an outlet 24 connected, which also protrudes laterally and extends at the same height and parallel to the inlet pipe 22.

As a result, once an inlet 26 is created over the one Liquid can be sucked into the pump housing 12. Accordingly an outlet 28 is provided via which the liquid can be dissipated.

In the opening 18 sits a gear 30, which is on the side of the Dekkels 16 provided with an axially projecting coupling pin 32 is.

The coupling pin 32 extends through an opening 34 in the lid 16 through and stands from this. A seal 36 surrounds the coupling pin 32, so that a tight seal to the inside the pump housing is guaranteed.

The gear 30 is thus the driving gear.

As can be seen in particular from the sectional view of FIG. 1, is from the inside of the bottom 14, a pin 40th before, which is slightly conical and directly to the ground 14 is molded, so even in the production of the pump housing 12 is poured with.

On the pin 40, a second gear 42 is pushed, ie the pin 40 engages in the central bearing opening 41 a.

Both gears 30 and 42 are each with a helical toothing 44 and 46 provide and mesh with each other, as it is in itself from the aforementioned DE 197 25 462 A1 is known, so that insofar as this application is referred to directly.

The gear 42 is thus the follower gear.

The pump housing 12 is on its outside in the region of Cover 16 provided with a bayonet guide 48.

The coupling pin 32 of the driving gear 30 can directly be molded onto this gear 30 and either from a metallic material or consist of the plastic material, from which the driven gear 30 is made.

The outer end of the coupling pin 32 is a slot pin trained and is therefore not closer from one here shown slot coupling of the drive body of the pump when closing the bayonet connection, like that also from the aforementioned DE 197 25 462 A1 is known.

In other words, the pump body 10 may be in itself known drive body are placed. In doing so, the Clutch without further action.

Due to the pin 40 is a guide of the follower gear 44 in the operation ensures that this Gear by the differential or drive pressure not one is exposed to heavy wear, especially because no intensive Friction, be it circumferentially, be it on the face, with the Inside the pump housing 12 takes place.

The pump body 10 may be formed as a disposable part, that is, after a single use, it does not need to be disassembled and be cleaned, but can be thrown away. It is but also possible, if you choose appropriate durable materials to disassemble the pump body 10, to clean the items and to sterilize and return to one in the figures assembled pump body 10.

Claims (2)

1. Medical gear pump for sucking and irrigating, comprising a pump body (10) having a pot-like pumping house (12) comprising two cylindrical openings (18, 20) into which two meshing gearwheels (30, 42) are housed, namely a driving gearwheel (30) and a driven gearwheel (42), wherein the driving gearwheel (30) is housed in the respective opening (18) without a pivot bearing, and wherein the openings (18, 20) are connected to an inlet (26) at one side and to an outlet (28) at an other side, and having a lid (16) for closing the pot-like pumping house (12), characterized in that a trunnion (40) protrudes from a bottom (14) of the pumping house (12), onto which trunnion (40) the driven gearwheel (42) is mounted, and in that the trunnion (40) is conically.
2. Medical gear pump of claim 1, characterized in that the trunnion (40) is molded to the bottom (14).

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