DE262264C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 262264 CLASS 47h. GROUP

SCHNEIDER & CIE. In LE CREUSOT, France.

Fluid change gear. Patented in the German Empire on September 22, 1911.

The invention relates to a fluid change gear consisting of drive pumps and pick-up pumps with cylinders arranged in a radial shape, and has an Subject to an arrangement for relieving any lateral pressure between the pistons and their cylinders. It is known to arrange auxiliary links for the transmission of motion, those with lateral projections in radial guides on the drum carrying the cylinders are led.

According to the invention, each piston is to the corresponding auxiliary member for transmission of the pressure with the interposition of a ball joint.

This ball joint can consist of a special pressure piece with two spherical heads exist, which are based on two pans provided on the piston and on the auxiliary link.

In another embodiment, the joint consists only of one on the piston trained socket, which is based on a ball head on the auxiliary link.

In the drawing, an embodiment of the device is shown; Fig. 1 shows it and 2 sections lengthwise and transversely through the device in one, FIG. 3 and 4 in the other embodiment.

As is known, the fluid change transmission consists of a drive side and a driven side. The effect of the subject matter of the invention should first be shown on the drive side. This is shown in the left part of FIG. 1 and in FIG. 2 and has a drum 1 which, being carried along by the shaft α , rotates in a housing 2 fastened to the separating disk 3. This drum 1 carries on its circumference a certain number of cylinders (for example seven) which are arranged at equal distances from one another. These cylinders, ^{denoted by 4 a} , 4 *, \ ^c , 4 ^d , 4 ^e , 4 /, 4 ^, are each provided with a channel 5 which terminates on a circular edge of the drum 1 which is connected to the separating disk 3 in Touch stands.

To ensure perfect radial movement of the pistons in the cylinders and To avoid any side pressure, each piston 6 forms a hollow spherical bearing for one of the correspondingly designed heads of a pressure piece 7, the other head is also spherical in a pan formed in the cross head 8. That crosshead carries two pins 9, on each of which two rollers 10 and 11 designed as ball bearings are mounted. The common axis of these pins preferably goes through the center of the head of the pressure piece mounted in the cross head 8.

The rollers 10 lie against a disk 12 which in Figs. 1 and 2 eccentrically upwards with respect to the axis of the drum ι is shown, but the location is variable. The rollers 11 are in radial shape Slideways 13, which are attached to the drum 1.

The pick-up pump consists of similar parts as the drive pump, with the only one The difference is that the two disks 12 have a position with invariable eccentricity occupy with respect to the axis of rotation of the drum 1.

The separating piece 3 accommodates the necessary connecting channels.

Suppose the drive shaft rotates

60

75

in the direction of arrow 37 and take the drum i, the cylinders 4, the crossheads 8 and the rollers 10 and 11 with you, the ^{rollers corresponding to the cylinders 4 *, 4 C} , 4 ^{d will} be io *, io ^c and io '' driven outwardly by the eccentric disks 12; these rollers push through the cross heads 8 and the pressure pieces 7 the corresponding pistons 6 into their cylinders and consequently force the liquid through the connecting channels. The pistons remain completely centered in their cylinders, since side pressures can only arise between the rollers 11 and the slideways 13.

If one now assumes that FIG. 2 represents the pick-up pump, one sees that in the illustrated position the three cylinders 4 *, 4 ^C , 4 ^{d are} in communication with the passage of the separating piece. The pressure fluid tends to drive the pistons of the three aforementioned cylinders, and these pistons press their rollers 10 against the disks 12 these rollers have a tangential component with the corresponding disk; since, on the other hand, the frictional force resulting from the pressure of the rollers on the disks 12 is almost zero as a result of the rollers being supported on balls, it follows that the entire tangential component is practically completely used for the rotary movement of the drum ι in the direction of arrow 38. In addition, the rotational movement of the drum is not determined by the lateral pressure of the pistons against the cylinder, but by the tangential pressure of the rollers 11, which are placed on the same pin 9 as the rollers 10 and roll in the slideways 13 on the drum 1. The rollers 11 can also be mounted on balls, as the drawing shows; As a result, the tangential pressure which they cause when rolling on the slideways 13 causes only negligible friction. Since the drum 1 runs in ball bearings at both ends, all in all the tangential components of the rollers 10 *, io ^c , io " ^{1 are used} with the best efficiency for generating the rotary movement of the rollers 1 on the driven side, since yes, the only friction that really needs to be taken into account during said rotation is that between the two mirror bearing surfaces 14 and 15.

3, 4 show the other embodiment of the auxiliary member for transmitting the Pressure on the pistons in order to avoid the lateral forces between the latter and the cylinders.

In this example, the cross head 8 is supported by a head b with a spherical end face against a corresponding spherical concave face α of the piston. A roller is mounted inside this head on an axis c, which is carried by the head b. The cross head 8 is provided on the outside, as in the previous example, with two pins 9, the geometric axis of which preferably coincides with that of the axis c and on each of which a roller 11 is attached. The rollers 11 are in engagement with the radial slideways 13 on the drum 1.

In the embodiments described, each of the drums 1 runs in ball bearings. One (26, Fig. 1) is between the outer cover of the housing 2 and the shaft stored, which itself drives the drum 1 through a central pin and teeth. The other bearing 29 is attached between the drum 1 and the separating disk 3.

Claims (3)

Patent Claims: 1. Fluid change gear, consisting of drive pumps and receiver pumps with cylinders arranged radially, characterized in that each piston (6) is interposed by one Ball joint is hinged to an auxiliary member (8) for transmitting the pressure, which in a known manner with lateral Projections (9) in radial guides (13) on the drum (1) carrying the cylinders is guided, for the purpose, of any lateral pressure between the pistons and the cylinders to eliminate. 2. Embodiment of the device according to claim 1, characterized in that the ball joint to transfer the pressure between the piston and the auxiliary link from a special pressure piece (7) consists of two spherical heads, which are located on two pans provided in the piston or in the auxiliary link (8) support. 3. Embodiment of the device according to claim 1, characterized in that the ball joint consists of a socket (a, Fig. 3) which is formed on the piston (6) and is on a ball head (b) of the radially guided auxiliary member (8) supports. For this purpose 2 sheets of drawings.