DE942672C - Fluid pump or motor - Google Patents

Description

Liquid pump or motor The invention relates to valve-controlled valves Liquid pumps or liquid motors, preferably on those with cylinders arranged in a star shape, which are intended to work at high pressures, and to make the arrangement between the cylinder and piston valve so that the harmful Space is kept as small as possible. While in known designs control cylinder and working cylinders connected by bores, channels or other pressure lines are, the invention consists in the cylinder space in which the piston valve works, so to be arranged to the working cylinder that the piston valve cylinder space penetrates the working cylinder, preferably perpendicular to its longitudinal axis. In this way it is possible to keep the harmful spaces small. Becomes a Piston valve selected, the inlet and outlet in its middle position with a collar blocks, the edges of which are the control edges, so it succeeds in the harmful space reduce to a minimum. Working cylinders and control cylinders are preferred made from a single, for example T-shaped piece, a cross piece, which is releasably fastened in the machine frame. This makes it possible to do this to produce precisely machined part separately from the machine frame.

When used on more cylindrical machines with star-shaped Working cylinders whose working pistons work together with a central eccentric, becomes the machine frame in which the cross pieces are installed, appropriately divided approximately in the cylinder star plane. This makes the installation easier of the cross pieces.

Especially with smaller ones. Machines can make the cross pieces beneficial so inserted into both frame halves that lateral openings, the slide cylinder with provided in the frame parts, the cylinder connecting ring channels for Inflow and outflow are in communication. So it then occurs the work equipment from the frame part in the cross piece or vice versa. The: control cylinder of the cross pieces can-do it even serve to connect the two frame parts, for example in such a way that Screwed pressure nuts onto the control cylinder pushing through the frame parts which press the frame parts against each other.

The two frame parts are preferred for larger machines connected by a drum-like center piece, which acts as a support for the cross pieces serves. If the supporting part is formed from several beams, two of which are cross pieces wear, it is possible to make the individual structural parts relatively small to keep. The connecting lines between the individual working cylinders -bzw. Cross pieces can be formed by ring channels in the side frame parts are arranged and connected to soft the inlet and outlet openings of the cross pieces will. The control of the piston slide then takes place appropriately through openings the frame parts. The control elements for the piston slide pass through this opening through and are pivoted on the frame by an angle lever outside of the Frame operated with the eccentric rotating control means. , In particular In the case of very large machines of the present type, the entire machine frame is used rotatably arranged to facilitate assembly; for example by means of Pin rotatably mounted in a stationary frame. The two frame parts can be connected to one another by hollow bodies, which in a longitudinal bore the Control cylinder and the working cylinder in a cross hole. In doing so, penetrate the working cylinders, preferably the control cylinders, d. H. the working cylinders have then a smaller outer diameter than the control cylinder.

The drawing explains the invention on the basis of three exemplary embodiments, namely, Fig, i shows the first embodiment in an axial section through a multi-cylinder pump with working pistons arranged in a star shape, FIG. 2 shows a Section according to II-II of FIG. I, all cross pieces except for one being omitted 3 shows the second embodiment in section III-III of FIGS. g, 4 a vertical section according to IV-IV of FIG. 3, FIG. 5 another embodiment in an axial section, FIG. 6 shows a side view approximately according to VI-VI of FIG. 5, wherein the upper middle part is shown in a section according to VIA VI ", and FIG. 7 and 8 different versions of the spool.

In the first embodiment, the pump frame is divided in the plane of the cylinder star and consists of two parts i and i The transverse part forms the control cylinder 4 for a control piston 5. The working shaft 7, which carries the working eccentric 8 against which the working pistons 9 rest with a wide foot, is mounted in ball bearings 6. The working pistons are held in contact with the eccentric by compression springs i2. The bore of the control cylinder q. stands perpendicular to the bore of the working cylinder 3, the bores penetrating each other. The control piston 5 has a collar 13 in its center, the two edges i3a and i3b of which form the control edges. The two other bundles = q. and 15 of the control piston serve essentially to guide or close the bore of the control cylinder. Between the collars 13 and 14 or = 3 and 15, the cross piece is provided with Duichbronnen 16, which establish the connection to the annular spaces 17 "and 17, which are formed in the frame parts i and = d. All annular spaces 17 are interconnected by a Ring line z8 connected, which leads to the outside at = g. The annular spaces 17 ″ are connected, for example, to the supply line and the annular spaces = 7b to the discharge line of the pump. To control the piston 5, a compression spring 2o is used on the one hand, which is supported against a shoulder 2i of the frame part i, and on the other hand, with the interposition of a loose bolt 29 ″, an angle lever 22 which can be pivoted about an axis 23 fixed to the frame part i ″. A slidable plunger 2 [which slides in an attachment 25 of the frame part = a] acts on each angle lever 22 via a loose bolt 29. It rests against a control eccentric 26 which, rotated by go ° against the eccentric 8, is firmly seated on the shaft 7. The two frame parts i and i ″ are held together by pressure nuts 28 which are screwed onto each end of the cross piece and which hold the frame parts together.

The paths from the control edges = 3d and 13b to the working cylinder space 3 are as short as possible, so that damaging spaces are almost completely eliminated: The installation and removal of the cross piece 2 is done in a simple manner after loosening the pressure nuts 28 by pulling the frame parts i and apart i, The design of the control piston can also take place in another way, as FIGS. 7 and 8 explain. A further collar 15 is connected to the collar 13 only on one side via a neck 13. On the other hand, the control piston is cut off. The edges = 3d and = 3b form the control edges' here in the piston according to FIG. I, while the groove in the area of the neck = 3c is connected to the pressure line. The federal i5 has the task of relieving the control piston from one-sided pressure. In a departure from the illustration according to FIG. 7, the piston can also be designed according to FIG. 8. He then still has a neck 13.1 on the suction side, which can be guided in the control cylinder cover.

In the embodiment according to FIGS. 3 and 4, the machine frame consists of two main parts 30 and 31, between which bales 32 are attached, which together result in a drum-like structure. Instead of individual bars 32, it is also possible to use a closed drum which is provided with recesses. It would also be possible to manufacture the frame parts 30, 31 and 32 from a single piece. The disk-like frame parts are mounted in a foot part gi with a partially cylindrical recess 92. The pump frame can therefore be rotated by hand or in some other way in order to mount the cross pieces in the foot part. In operation, the frame is held non-rotatably on the foot part by steel straps 93.

A cross piece 33 is arranged between each two bars 32, of which only the upper and the lower are shown for the sake of clarity. Each cross piece has a bore for the working piston34, which rests with a foot 35 on the working eccentric 36 with line contact and is always held in contact by compression springs37. Each cross piece 33 has two lateral pins 38 with which it is easily rotatably mounted in two bars, for example 32, and is held by bearing cover 33a which are fastened by means of screws (cf. dash-dotted lines 39). This makes it possible to mount the cross piece in such a way that the piston is exactly perpendicular to the shaft axis 36 . The bore 4o serves as a control cylinder and receives a control piston, the collar 4z of which controls the inflow and outflow of the pressure fluid to a working cylinder in the same way as in the first embodiment with its edges. Recesses 42 in the control cylinder bore 40 are connected to annular channels 45 and 46 via channels 43, which are guided at an angle, via inserted pipe sections 44. The annular channel 45 has a connection 45a for supplying the liquid, while the annular channel 46 is connected to the pressure line through an opening 46a. The control of the control piston takes place in a manner similar to that in the embodiment according to FIGS. 1 and 2 by a control eccentric 26, a slidable plunger 24, a bolt 29 rotatable relative to the plunger 24 and angle lever 22, the angle lever 22, the bolt 29a, for which in the frame part 31 recesses 47 are provided. Each foot 35 carries a roller 48 at the end. This is guided with very little play on slideways 49a, which are formed by U-shaped brackets 49. The brackets sit on the crosshead 33 and are through its cylindrical extension 33b, which the working cylinder for the piston 34. In this way, the piston is kept free from lateral forces which are exerted on the foot 35 during the rotation of the eccentric 36. The dead spaces are kept just as small in the present exemplary embodiment as in the first exemplary embodiment best @ Art, however, from smaller individual parts, namely the 'bezden main frame parts 30 and 31 and the bar, 32. The cross pieces 33 are screwed from the outside "onto these bars and can thus be easily installed and removed. In particular, it is possible to 'expand each cross piece' without having to separate the frame parts 30 and 31 from one another.

In the embodiment according to FIGS. 5 and 6, the frame consists of the two frame halves 50 and 51. They are rotatably mounted in a frame 52 at 52a. This rotatability makes it easier to assemble the pump. On the frame parts 50 and 51 namely hollow bodies 53 are placed, for example screwed, which connect the two frame parts to one another. The bore 54 of each hollow body serves to receive a control cylinder 55 which is pushed into the bore from one of the two open sides. In addition, the hollow body has a transverse bore 56 into which a working cylinder 57 is inserted in the transverse direction. The working cylinder 57 penetrates the hollow body 53 and also the control cylinder 55. It rests against the hollow body 53 with lugs 58 and is held by means of a pressure nut 59. A control piston can be displaced in the bore 6o of the control cylinder 50 and controls the inlet and outlet to the working cylinder 57 with its central collar 61 in a manner similar to that in the first exemplary embodiments. Perforations 62 of the control cylinder 55 lead into the cavity of the hollow body 53, which in turn is connected at 63 to supply or discharge lines 64 and 64 ". The cavities 53 of all the hollow bodies are connected to ring conductors 65 and 66 in the frame parts 50 and 51 All cavities of the hollow bodies 53 are mutually connected, so that the entire machine enters and exits through the two lines 64 and 64a. Devices similar to those in embodiments a and 2 are used to control the control piston.

Claims (7)

PATENT CLAIMS: e.g. Liquid pump or motor, preferably with Cylinders arranged in a star shape, each cylinder being supported by a piston valve is controlled, characterized in that the piston valve cylinder chamber the Working cylinder space penetrates, preferably at right angles to its longitudinal axis. 2. Machine according to claim 1, characterized in that the control slide feed and the drain (16) in its central position with a collar (13) closes the edges (13a, 13b) are the control edges. 3. Machine according to claim 1 and 2, characterized in that that .the control piston (5). on the pressure side with a second collar (15) over a Neck (13,) is connected, while he has a corresponding collar on the suction side (14) or only has a neck (13d) or no other parts. 4. Machine after Claims 1 to 3, characterized in that the working cylinder (3) and control cylinder (4) from a single piece, the Cross piece (2) consist, which in the. Machine frame (i, i ") is releasably attached. 5. Multi-cylinder machine according to Claim i to 4, characterized in that the machine frame (i, id) in the Cylinder star plane is divided. 6. Machine according to claim 5, characterized in that that the cross pieces (2) are inserted into both frame halves (i, i ") that lateral Openings (i6) of the slide cylinder (4) provided in the frame parts, all The cylinder connecting ring channels (i8) for inflow and outflow are in connection. 7. Machine according to claim 6, characterized in that the control cylinders (4) serve to bind the two frame parts (_, i "), preferably in such a way that nuts (28) are screwed onto the cylinder ends penetrating through the frame parts. B. Machine according to claim 5, characterized in that the two frame halves (30, 3i) are connected by a drum-like support part (32) which carries the cross pieces (33) (Figs. 3 and 4) .g. machine according to claim 8, characterized characterized in that the support part is formed from several beams (32), two of which (32) each carry a cross piece (33) which preferably rests on them in a pivotable and adjustable manner with lateral pins (38) g, characterized in that ring channels (45, 46) are provided in the side frame parts, to which the inflow and outflow openings (43) of the cross pieces (33) are connected by tubes or hoses (44), which by their material or their type of connection with cross piece and frame have a low flexibility. ii. Machine according to Claims 8 to 10, characterized in that openings (47) are provided in the side frame parts (30, 31) for the control members (4i, 22) to pass through for the piston slide (4i), which are for example via angle levers ( ä2) can be actuated by a control eccentric (26) arranged outside the frame on the eccentric shaft. 12. Machine according to one of claims q. to ii, characterized in that the cross piece (33) has guide tracks (49Q) which protect the piston (34) against tangential pressures, the piston preferably. runs with rollers (48) on the guideways and the piston foot can be supported with line contact on the ore center (36). 13. Machine according to claim 5, characterized in that the entire machine frame (50, 51) is rotatably and lockably mounted in a frame (52). 14. Machine according to claim 5, characterized in that both frame parts (50, 51) are connected by hollow bodies (53) preferably attached to their circumference, in their longitudinal bore (54) the control cylinder (55) and in their transverse bore (56), the working cylinders (57) are pushed in, the working cylinders preferably penetrating the control cylinders.