DE1934147C3 - Device for coupling a driving or driven machine with a hydraulic fluid swashplate axial piston machine - Google Patents

Description

I 934 147

of the inlets and outlets 15, 18 'and 19 can ben radially. The arrangement of the sealing ring 28 on the

got inside to catch; the annular groove 29 is flat control plate 17 enables low radial

Via a leak channel 31 with the interior of the movement of the cylinder drum. The elastic

connected to the house. Sheet metal housing 27 can also have a small axial

A guide plate 32 detects all drive 5 movement of the sealing ring 28, which is an axial movement

feet 9 under the action of a spring-loaded ball movement of the cylinder drum follows, record.

33. The spring 34, which rests against the ball 33, supports it. is now on F i g. 2 referred to. In the

also from the cylinder drum. F i g. 2 pump shown has essentially the

In operation, the machine serving as a pump has the same structure as the exemplary embodiment in FIG on a motor or other drive source io Fig. 1, and for corresponding parts are therefore connected, which uses a drive shaft 35 in the same reference numerals. The simple one Bearing. The pump can therefore only be used for those parts of Fig. 2, by means of the flange 23 are attached to the motor which extend from the parts of FIG. I significantly under-

] the, so that the drive shaft 35 separate through the bore 34, explained in detail. Liquid enters

runs and in the splined blind bore 25 of 15 the pump via an opening in the housing 1 (not

Cylinder drum protrudes. The end portion 36 of the shown) a, in such a way that the liquid , The drive shaft is appropriately splined so that from over the swash plate 11 and through channels 41 the drive which flows a torque on the cylinder, which flows through the cylinder drum to a ring drum can be transferred. The splines 42 run between the housing 1, the opening is designed in such a way that the cylinder ao cylinder drum and the bearing surfaces 3 and 4

\ block has a low axial and forms relative to the drive shaft. Due to the dynamic pumping effect

^f can perform a tilting movement. The Triebwelie has the channels 41 liquid from a slightly increased section 37 of reduced cross-section, the system pressure in the ring channel! 42, from -.vo it is formed in the usual way in such a way that the inlet of the end face 14 enters. The outlet that breaks when the pump sticks. 25 end face 14 is provided with a threaded connection (nichi

During operation, the cylinder drum 2 is connected in the housing section 16 via the (shown).

Drive shaft 35 set in rotation. This has a sealing ring 28 made of carbon lies on the inside

Axial movement of the pistons result, and iwar syn- ner section of the control plate 17 on. The sealing

chronologically to the connection of the openings 15 with the ring 28 is made by means of a flexible support 43

■ Inlets and outlets 18, 19, so that fluid from 30 rubber is stored, which enters the bores in the bore 24 of the housing of the inlet 18 or 19 and section 16 sits tightly. The support 43 to emerge under pressure at the outlet 18 or 19. In FIG. 4 there is a compression spring 44, which is drawn from the bore 24, for the sake of simplicity, the section is supported on the sealing ring 28 and the sealing ring 28 presses against the control plate 17 through the housing section 16 outside the plane. The one shown lying in the control plate 17 of the rest of the section in order to show the annular groove 29 formed in 35, which is the contact surface of the or outlets 18, 19. The interior of the sealing ring 28 surrounds, has a much smaller housing 1 can either be directly on a cross section than in the embodiment of Fi g. 1. Low-pressure collecting tank or to the low- Here, too, the annular groove 29 is connected via a leakage channel pressure inlet 18 and 19, respectively. In connection with the interior of the housing 1,
drive leaks fluid from the inlets and outlets 40 The mode of operation of the exemplary embodiment according to 15, 18 and 19 between the control plate and FIG. 1; in particular prevents the ring seal from flowing radially outwards, the housing 26 ensures that liquid from the ring groove 29 is held in the and then either reaches the lower bore 24; In addition, it ensures that Strömunjis-18 or 19 located within the bore 24 are fed to the pressure-Sarr.mel tank or the low-pressure inlet 45. Liquid that does not leak into the annular groove 29, in particular air, enters the annular groove 29 and flows from there. In addition, the sealing ring 28 surrounds the control

; through the leakage channel 31 into the interior of the housing, mirror 17 and allows small radial and axial movements

; from where they either go to the low-pressure manifold connections of the cylinder drum.

holder or the low-pressure inlet 18 or 19 50 If also in the illustrated embodiments

flows. The ring seal, which play radially inside the seal ring on the end face of the cylinder

! Annular groove 29 acts on the control plate 17, rests against the drum, but it is entirely possible that

prevents pressure fluid to be arranged from the annular groove 29 in a seal in another way without

the bore 24 arrives. The ring seal 26 prevents the movements of the cylinder drum.

j at the same time that within the bore 24 be 55 For example, the. Ring seal from the cylinder

Sensitive liquid not be carried into the annular groove 29 and by the drum and on the control plate

because it gets into the pump. This feature is particularly important; for example it would also be possible that

This is important if there is either the control plate or the face of the air in the bore 24

j. is located as the entry of air into the pump has a cylinder barrel with a cylindrical protrusion

- Noisy operation of the pump and, given 60, has a flat surface on which one of the other

If the pump is damaged, the component worn sealing ring is in contact.

1 sheet of drawings

Claims (2)

|: With reference to the drawings, two specific claims: additional exemplary embodiments of the invention are explained in more detail. It shows 1. Device for coupling an attachment or Fig. I a longitudinal section through the first execution Output machine with a hydraulic fluid 5 approximately example and Swashplate axial piston machine with zy- F i g. 2 a longitudinal section through the second control plate on the front side of the linder drum and guide example. t drive shaft leadthrough on the control mirror side, reference is first made to FIG. 1. G; the splined central bore of the cylinder- the housing 1 of the axial piston ma- Drum, characterized in that the cord has an essentially cylindrical shape 1: that the drive shaft (35) of the input or output and surrounds a cylinder drum 2. The cylinder machine directly into the central bore (25) drum 2 is rotatably mounted in the housing 1, and the cylinder drum (2) can be inserted, which although by means of a bearing in the form of a by a ring seal (26) attached to the control plate end of the cylinder drum extension 3, j. (17) sealed against the inside of the machine and 15 of the in a cylindrical bearing surface 4 of the machine Ϊ sits at the end of the housing on the swashplate side. Inside the cylinder barrel are is closed. formed a plurality of cylindrical bores 5, which are in the 2. Device according to claim 1, characterized in that the same distance is distributed around the axis of rotation and indicates that the ring seal runs parallel to the axis of rotation. Inside stically pressed against the control plate sealing ϊο each bore 5 a piston 6 is arranged, has ring (28) which extends the radially inner limiter during its axial movement from the open end tion of a collecting hole 5 formed in the control plate within the area surrounding the bearing 3 groove (29) forms. Move away from the area of the cylinder drum can. The outer end of each piston faces 35 a ball socket 7 in which a ball 8 is seated. the Ball is part of a foot 9, which is attached to a The invention relates to a device for copper swash plate 11 engages. The swash plate is part painful to or. Output machine with a pressure part of a partially cylindrical component 12, which is in a part-cylinder swashplate axial piston machine after Lindrische storage area 13 sits. The bearing surface 13 according to the preamble of claim 1. 3 ° is formed in a cover 14 which is attached to the housing 1 In a known device of this type (British-attached. The angular position of the swash plate 11 in patent specification 913 123), the central bore within the bearing surface 13 is adjustable.
Cylinder drum pressurized with hydraulic fluid. The end of the cylinder drum that is attached to the bearing 3 so that the one passed through the control plate is opposite, has a flat end face 14, Drive shaft sealed against the machine housing 35 which is perpendicular to the axis of rotation of the cylinder drum must be, otherwise hydraulic fluid runs after. In the end face 14 is a one or would be lost outside. The drive shaft thus forms outlet serving opening 15, each with part of the axial piston machine, and the cup of a bore 5 in connection “-tent. The housing 1 pein the driving or driven machine is therefore only has a section 16 on the control plate side Via this 40 provided specifically for this purpose on the control plate 17. There are two in the steering mirror Drive shaft possible. The same applies to a wide opening 18, 19 serving as inlets and outlets known axial piston machine (German formation. The inlets or outlets 18, 19 are on with utility model 1898 762), the drive shaft of which is provided with hydraulic connections 21, 22 attached special bearings and under interposing closures. A is used to fasten the machine A seal in the axial piston machine flange 23. In the middle of the housing section 16 housing is stored and only outside of the bearing a hole 24 is formed, which is completely Coupling possibility with the input or output shaft extends through the housing section 16 and in the machine has. Center of the control plate 17 opens. A sacking The invention is based on the object of a tion 25, the gebil device in the middle of the cylinder drum to create the claimed type, with 50 det, opens into the end face 14 of the cylinder a driving or driven machine without a difficult drum and is open to the bore 24; the inities with the cylinder drum of a sloping surface of the blind bore 25 is with a wedge-verb axial piston machine can be coupled. serration 26 provided. This task is carried out by the identification within the bore 24, in addition to the control spinning features of claim 1 solved. 55 gel 17, an annular seal 26 is arranged, which consists of In the device according to the invention is an annular sheet metal housing 27 with a Central bore of the cylinder drum on the one hand against attached sealing ring 28 made of hard material, the inside of the machine is sealed and, on the other hand, there is, for example, carbon; the sealing ring is freely accessible to the outside. It can therefore arrange the drive in such a way that it is attached to the inner section a · shaft of the driving or driven machine rests directly in 60 of the control plate 17. The ring seal is ■ inserted into the central bore of the cylinder drum, there is also an O-ring 30 made of rubber, which be, and there is no longer a separate drive shaft see the sealing ring 28 and the housing, And , necessary. This not only simplifies the coupling of a compression spring 40, which the sealing ring 28 under the driving or driven machine, but also provides tension. In the area of the bore 24 is thus a structural simplification of the axial piston dimensions 65 between the housing section 16 and the cylinder "j machine itself. Lindertrommel formed a mechanical seal. From ! An advantageous embodiment of the invention is the end face 14 has an annular groove 29 extending into it ι stated in the dependent claim. the cylinder drum to avoid any leakage that