US3817668A

US3817668A - Gear wheel pump with feed passage of constant hydraulic cross section

Info

Publication number: US3817668A
Application number: US00267692A
Authority: US
Inventors: W Branscheid; K Mayer
Original assignee: Individual
Current assignee: Individual
Priority date: 1969-05-28
Filing date: 1972-06-29
Publication date: 1974-06-18
Anticipated expiration: 1991-06-18

Abstract

Gear wheel pumps, in particular melt pumps for vessels at subatmospheric pressure, whose pump casing consists of three plates stacked tightly against one another, the middle plate having two contiguous, partially overlapping housing intermeshing gear wheels, one gear wheel being driven. The middle plate contains a feed passage of constant hydraulic cross section and a discharge passage for the liquid to be pumped via pipes or tubes connected therewith.

Description

United States Patent [191 Mayer et a1.

GEAR WHEEL PUMP WITH FEED PASSAGE OF CONSTANT HYDRAULIC CROSS SECTION lnventors: Karl Mayer, Elberfelder Str. 159,

Radevormwald; Werner Branscheid, Ringstr. 5, Remscheid-Lennep, both of Germany Filed: June 29, 1972 Appl. No.: 267,692

Related US. Application Data Continuation-impart of Ser. No. 40,279, May 25, 1970, abandoned.

US. Cl. 418/206 Int. Cl. F0lc 1/18, F03c 3/00, F046 l/08 Field of Search 118/205, 206

References Cited UNITED STATES PATENTS 9/1941 Sherwood 418/206 [451 June 18, 11974 2,369,249 2/1945 Rainalter 418/206 2,503,016 4/1950 Weeks et a1. 418/206 2,531,726 11/1950 Durdin 418/206 2,915,977 12/1959 Campbell 418/135 7 Primary Examiner-Carlton R. Croyle Assistant Examiner-John J. Vrablik Attorney, Agent, or FirmJohnston, Keil, Thompson & Shurtleff ABSTRACT Gear wheel pumps, in particular melt pumps for vessels at subatmospheric pressure, whose pump casing consists of three plates stacked tightly against one another, the middle plate having two contiguous, partially overlapping housing interrneshing gear wheels, one gear wheel being driven. The middle plate contains a feed passage of constant hydraulic cross section and a discharge passage for the liquid to be pumped via pipes or tubes connected therewith.

3 Claims, 4 Drawing Figures PATENTEMm nu 3L8 17L668 SHEH 1 OF 2 GEAR WHEEL PUMP WITH FEED PASSAGE OF CONSTANT HYDRAULIC CROSS SECTION RELATED APPLICATION This application is a continuation of our US. Pat. application Ser. No. 40,279, filed May 25, 1970, now abandoned.

Gear wheel pumps have long been known. They are used for the conveyance of numerous liquid media, for example, oil, spinning solutions, and the like. Depending on the chemical and physical properties of the medium to be conveyed as well as under consideration of the required quantitative performance, the pumps are differently dimensioned in respect to their measurements, the precision of their machining, and their rotary speeds.

In recent time there has existed the desire to use gear wheel pumps of the type described to an increasing degree for the conveying of high-viscosity solutions as well as of molten thermoplastic materials. In particular, there exists a need for large pumps of this type, such as are required, for example, for pumping reaction masses out of reactors or the like, and to feed them, for example, to a granulating device, an extrusion press or to a system of spinning machines. If gear wheel pumps of conventional construction are used for this purpose, the performance capacity of the pump cannot be fully utilized because the viscous reaction mass flows too slowly into the entry or feed passage of the pump. This disadvantage arises especially when the composition has to be conveyed out of vessels maintained at subatmospheric pressures, for example vessels used for de gassing of the solutions or melts or for the removal of the monomers.

There exists, accordingly, the problem of providing a gear wheel pump of the type described, which makes it possible to pump efficiently viscous liquids, for example molten thermoplastic polymer compositions, particularly under situations where the compositions are supplied from a vessel or zone under subatmospheric pressure.

THE INVENTION The invention proceeds to the solution of this problem from the recognition that the entry or feed passage of the gear pumps hitherto known, for example, German Pat. No. 717,630, acts as a choke point with respect to the liquid to be pumped. In order to exclude this undesired influence, the invention provides an entry or feed passage having along its entire length a hydraulic cross section equal to the hydraulic cross section of the rectangular entry opening of the gearcontaining pumping chamber.

Hydraulic cross section is defined by the expression:

in which F is the flow-through cross section area and U is the wetted perimeter of the passage. The derivation of this expression takes place by way of the equations for the specific pressure gradient, i.e., the pressure gradient with respect to the tube length unit, in the flowedthrough tubes. With differing cross sections the specific pressure gradient (drop) is equal when the hydraulic cross sections are equal.

For the circle there is yie lded with respectively U 1r d (d diameter of circle) the hydraulic cross section:

and for the rectangular tube cross section there is yielded with F=aXb respectively U 2(a b) (a, b lengths of the sides of the rectangle) the hydraulic cross section:

4 a X b /(a b) Hydraulic cross section is expressed in dimension units to the fourth power, e.g., cm. or in. Speaking in dimension units, hydraulic cross section with units to the fourth power is comparable to dimension units of geometric cross section (in dimension units to the second power, e.g., cm. or in?) as the square of the latter. Conversely, geometric cross section, speaking in terms of dimension units, is the square root of hydraulic cross section. For any other tube cross section the hydraulic cross section can be determined from formula (1) by substituting the calculated or otherwise determined values for the flowed-through cross section area and the wetted perimeter.

The cylindrical shape of the gear wheel results in an entry opening at the pumping chamber having a rectangular cross section. Since the connecting lines for pumps virtually always have a round or circular cross section, it is necessary to merge the two cross sections aforementioned one into the other. This is accomplished in known pumps (German Pat. No. 717,630) and also in the pumps herein in the entry or feed passage. In this invention, however, the entry or feed passage has at its end facing the gear wheel pair a rectangular cross section corresponding to the entry opening of the passage with the intermediate portions thereof being transformed, with hydraulic flow cross section remaining constant, gradually toward the entrant end, into its round or circular cross section. In between, the passage has corresponding transitional forms which make possible a steady flow.

The concepts of the invention can be realized in various ways. Thus it is possible, for example, for the entry or feed passage situated in the pump casing to be arranged perpendicularly to the axis of rotation of the gear wheels. This form presents the least flow impediments and is suited, therefore, especially for viscous liquids and melts.

It is also possible, however, for the entrant portion of the feed passage in the pump casing to be substantially parallel to the axis of rotation of the gear wheels. In this case, the pump feed passage opens in a side face of the pump housing.

The invention is explained in further detail with the aid of preferred embodiments illustrated in the drawing, wherein:

FIG. 1 is a longitudinal section along the section plane l-1 of FIG. 2 of a first embodiment of the invention;

FIG. 2 is a cross section along the section plane 2-2 of FIG. 1;

FIG. 3 is a cross section along the section plane 33 of FIG. 2; and

FIG. 4 is a section through a second embodiment of the pump of the invention with entrant portion of the feed passage being parallel to the axis of rotation of the gear wheels.

THE ILLUSTRATED EMBODIMENTS The pump casing in the embodiments illustrated in the drawing consists substantially of the middle plate 1 as well as the two cover or

face plates

2 and 3.

In the middle plate 1 there are situated the two adjacent, side-by-side, cylindrical bores 4 and 5 (see FIG. 2), which are arranged in such a way that their circumferences partially intersect. These bores receive the two

gear wheels

6 and 7, which fit precisely into the bores and whose teethintermesh. The two

gear wheels

6 and 7 have the

shafts

8 and 9 which serve for the support of the gear wheels and of which one, (in the embodiment illustrated the shaft 8) projects externally and serves as the drive shaft.

The middle plate 1 has a considerably greater thickness than corresponds to the length of the gear wheels 6; 7. The free space on the face sides of the gear wheels in the middle plate 1 serves for the reception of the bearings l0, l0 and 11, 11'. In consequence of this construction, which is in itself known (German Pat. No. 717,630) the cover or

face plates

2 and 3 are freed of any load-bearing function and can be constructed correspondingly thin. The thickness of the middle plate 1, however, makes it possible according to the invention to construct the entry passage 12 in such a way that in all places of its length it has a hydraulic cross section equal in size to the hydraulic cross section of the rectangular opening 13 of the gear-containing pumping chamber 14. Thereby, the entry passage 12 does not bring about any choking of the flow of the viscous conveyance material, so that performance capacity of the pump can be utilized efficiently. In the embodiments illustrated, the cross section area of the entry opening 13 is equal to the product of the spacing of the gear axes of rotation and the tooth length. It is also possible, however, to increase this area further, for example, by arrangement of entry pockets which at the gear wheel circumference reach out beyond the axial spacing. The outlet passage 15 for the material pumped extends opposite passage 12 from the pumping chamber 14.

In FIG. 4, another embodiment of the invention is illustrated. The thickness of the middle plate 1 is utilized to provide in all places along the length of the feed passage 12a a hydraulic cross section equal in size to the hydraulic cross section of the entry opening 13 into the pumping chamber 14. The passage 12a does not run on its entire length perpendicularly to the axis of rotation of the gear wheels, but rather has a radial bend with its entrant portion 16 parallel to said axis. Otherwise, like parts are designated with like reference numbers to those used for the embodiment of FIGS. l3. This form of feed passage provides a feed passage through a face plate. Pumps of this type can be mounted, for example, by appropriate flanged connections, directly on vessels or other apparatus.

It is thought that the invention and its numerous attendant advantages will be fully understood from the foregoing description, and it is obvious that numerous changes may be made in the form, construction and arrangement of the several parts without departing from the spirit or scope of the invention, or sacrificing any of its attendant advantages, the forms herein disclosed being preferred embodiments for the purpose of illustrating the invention.

The invention is hereby claimed as follows:

1. In a gear wheel pump adapted for the pumping of viscous melts from a vessel maintained at subatmospheric pressure, a pump casing comprising three plates stacked together in face-to-face relationship, the middle plate thereof having two, partially intersecting, transverse bores next to one another, said bores together providing a pumping chamber with a rectangular entrant opening, a pair of intermeshing toothed gear wheels rotatably mounted in the respective bores, shaft means for driving rotatably one of said gear wheels, said rectangular entrant opening having a cross section at least equal in cross section area to the product of the distance between the axes of rotation of said gear wheels times the tooth length of said gear wheels, said middle plate further having therein a feed passage and a discharge passage respectively intersecting opposite sides of said pumping chamber, and said feed passage having at its end adjacent said entrant opening of said pumping chamber a rectangular cross section corresponding to the rectangular entrant opening and further, with its hydraulic cross section remaining constant, being transformed gradually toward a circular entrant opening in said middle plate, said hydraulic cross section being expressed as l6F"/U wherein F denotes the flow-through cross section throughout the feed passage area and U is the wetted perimeter of the corresponding part of said passage. 2. A gear wheel pump as claimed in claim 1, wherein said feed passage extends perpendicularly to the axes of rotation of said gear wheels.

3. A gear wheel pump as claimed in claim 1, wherein said feed passage has a 90 bend with the circular entrant portion being parallel to the axes of rotation of said gear wheels.

I UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTIUN Patent No. Dated une 18, 1974 Inventor(s) Karl y r et 8.1,

It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

In the Heading, insert [30] Foreign Application Priority Data May 28, 1969 Germany 69 21 358 In the Heading, insert [73] Assignee: Barmag Barmer Maschinenfabrik Aktiengesellschaft, Wuppertal, Germany En'gncd and Scaled this Twenty-eighth Day of June 1977 [SEAL] A ttes t:

RUTH C. MASON C. MARSHALL DANN Arresting Officer Commissioner oj'Parents and Trademarks

Claims

1. In a gear wheel pump adapted for the pumping of viscous melts from a vessel maintained at subatmospheric pressure, a pump casing comprising three plates stacked together in face-to-face relationship, the middle plate thereof having two, partially intersecting, transverse bores next to one another, said bores together providing a pumping chamber with a rectangular entrant opening, a pair of intermeshing toothed gear wheels rotatably mounted in the respective bores, shaft means for driving rotatably one of said gear wheels, said rectangular entrant opening having a cross section at least equal in cross section area to the product of the distance between the axes of rotation of said gear wheels times the tooth length of said gear wheels, said middle plate further having therein a feed passage and a discharge passage respectively intersecting opposite sides of said pumping chamber, and said feed passage having at its end adjacent said entrant opening of said pumping chamber a rectangular cross section corresponding to the rectangular entrant opening and further, with its hydraulic croSs section remaining constant, being transformed gradually toward a circular entrant opening in said middle plate, said hydraulic cross section being expressed as 16F3/U2 wherein F denotes the flowthrough cross section throughout the feed passage area and U is the wetted perimeter of the corresponding part of said passage.

2. A gear wheel pump as claimed in claim 1, wherein said feed passage extends perpendicularly to the axes of rotation of said gear wheels.

3. A gear wheel pump as claimed in claim 1, wherein said feed passage has a 90* bend with the circular entrant portion being parallel to the axes of rotation of said gear wheels.