DE404830C - Fluid change gearbox - Google Patents

Description

Fluid change gear. The invention relates to fluid change gears, consisting of a driving and a driven rotatable pump part and a stationary one Pump part exist, and in which the driving and the driven rotatable pump part together a main pumping station and one of the rotatable pump parts and the stationary one Pump part form a pump mechanism, the setting of which increases the speed is regulated. The purpose of the invention is to adjust the Kelienptunpwerk, (1. H. the induction of the various coupling stages to bring about automatically. The invention consists essentially in (leave between your main pump station and deni secondary pumping station or its individual stage check valves finite specific load are switched on in such a way (let the gear load change depending on the Liquid pressure the corresponding auxiliary pump, each for itself or together, automatically come into effect. Is (the gearbox is designed for several gear ratios, then, according to the invention, the valves will be arranged in such a way that they come into effect at different pressures, so that the transmission ratio gradually increases with pressure.

In the drawing is an embodiment of the new fluid change gear shown.

Fig.i is. a longitudinal section through (read gear.

Fig. 2 and 3 are sections according to the lines: 1: -1 and ß-13 of Fig. i.

Fig. 4 is an enlarged partial section with the check valve in an open position.

In the illustrated embodiment, which consists of two capsule pumps, the driving shaft i is firmly connected to an outer housing 2. This housing forms the driving part of the gearbox and, as shown in Fig. A and 3, is provided in a known manner with finite working surfaces z4., 15 and \ Viderlager 16. 17 for the two Ptinipen. In your tlehatise 2 anzutrcibendc the shaft 3 is rotatably mounted, finit of a finite radially movable blades-provided .l f) Rehl: @llicn 5 is connected fixedly. This forms the driven part. In the housing 2 there is also arranged a piston 7 provided with radially movable blades 6 which, in the embodiment shown, is wedged onto a sleeve-like pin 8 of a bracket 9 and forms the stationary pump part of the transmission. The pin 8 also serves as a pivot for the circumferential housing 2. The connection between the clean pressure chamber 18 and the suction chamber ig of the pump mechanism 2, 7 takes place through a channel ii arranged in the abutment 17 of the housing 2.

The check valve is designed as a spring-loaded piston valve 12, that is arranged between the pressure chambers 2o and 18 of the two pumping stations 2, 5 and 2, 7 and (read, if the gearbox is set for immediate clutch, the connection shut off between the two pressure chambers. The piston valve 12 is from the pressure fluid in the pump part 2, 5, so that at a certain pressure the Connection between the pressure chambers of the two pumping stations opens, creating a transmission ratio is switched on. With decreasing pressure, i. H. with a correspondingly lower Torque of the driven shaft 3, is (read piston valve 12 by the action of a Spring 13 in the rest position, (l. I.e. returned to the position in the (lie connection between the pressure chambers Gier pumping stations is closed. Then immediate arises Coupling. The piston valve 12 also regulates the connection between the pressure chamber. 1 8 and (lein suction chamber ig of the pumping station 2, 7, such, class, if (read gear is set for direct coupling (Fig. i), the mentioned connection is open while it is locked when the gearbox is set for transmission (Fig. d.) is.

The mode of operation of the transmission is as follows: -If the shaft i with the housing 2 is set in dreliting and the load on the shaft 3 is small, then the shaft 3 is driven at the same speed through the intermediary of the main points 2, 5 enclosed hydraulic fluid driven ivie the wave i. At the same time, ini \ ehenpumpwerk 2. 7 only circulates the 1 # fluid between your pressure chamber. 18 and your suction space ig instead of through the channel ii. If thereupon the load, (1st left (read the torque of the driven shaft 3, erli ('ilit., The pressure in the main pumping station 2,; is met and finally reaches the value. At the (spring-loaded valve 12 the connection between This creates a pumping action in a manner known per se between the above-mentioned pumping stations, and the speed of rotation of the shaft 3 is reduced to a degree which is in direct proportion to the capacity of the two pumping stations For example, if the capacity of the main pump unit 2.5 at a certain rotational speed is twice as large as the capacity of the secondary pump unit 2.7 at the same speed, the rotational speed of shaft 3 is equal to half the rotational speed of shaft I. If the load on shaft 3 to reduced to a certain value, the pressure in the main pumping station 2, 5 is also reduced accordingly, and (read V The valve 12 is automatically returned to the rest position by the spring 13 (Fig. i). Then there is an immediate coupling. With the device described, a direct coupling is achieved below a certain rotational axis of the driven shaft 3, but above the same a C ratio is automatically achieved.

The secondary pumping station 2, 7 can also consist of several independent ones Pumps exist, (gradually take effect with one at different pressures coming check valve can be provided. The pumps can also be used as piston pumps be trained.

Claims (1)

PAT EN T-ANSYRUC1-1: Fluid change gear, (read from a driving and a driven rotatable pump part and a fixed pump part, and in which the driving and the driven rotatable pump part together a main pump station and one of the rotatable pump parts and the fixed pump part Form secondary pumping station, the setting of which regulates the speed, characterized in that (let between the main) tnnpN @ -erl: and the 'secondary pumping station or whose individual stages non-return valves (12) are switched on finitely certain load in such a way (let through depending on the The gear load changing oil already (irtick the corresponding point levels independently or together come into effect.