RU2220342C2 - Positive-displacement hydraulic transmission - Google Patents

Abstract

FIELD: positive-displacement hydraulic transmissions for rotary motion. SUBSTANCE: proposed transmission includes pump and hydraulic motor located in inner bore of housing 1. Pump has shaft 2, rotor 3 with splines 4 where gates 5 are located, disk 6 having central hole for rotor 3 and slots with seals for passage of gates 5. Hydraulic motor has shaft 9, rotor 10 with splines 11 and gates 12, disk 13 with hole for rotor 10 and slots with seals for passage of gates 12. Inner bore 14 between disks 6 and 13 is used both by pump and hydraulic motor. Transversal partition 15 slidably located in bore has working fluid supply passages 16, discharge passages 17 and bypass passages 18. During rotation of rotor 3, gates 5 get in contact with surface of bore 14 forcing liquid out of working chamber and admitting it to hydraulic motor through passages 17, 18 and 16. Liquid rotates rotor 10 and shaft 9 connected with it. Having done work, liquid is discharged to pump by other group of passages. Gear ratio of hydraulic transmission is regulated by axial shift of housing 1. EFFECT: facilitated control of hydraulic transmission. 3 cl, 2 dwg

Description

 The invention relates to volumetric hydraulic gears of rotational motion.

 The applicant is aware of a hydraulic transmission comprising a variable-displacement vane pump and a structurally similar hydraulic motor, which are located in a common housing / patent EP 0261682 in class. F 04 C 15/04, 1986 /.

 The known hydraulic transmission is performed on a separate pump and a hydraulic motor, which are located in separate bores of the housing, do not have combined elements and are regulated individually, which makes the design small-sized and complicates its control.

 The invention is aimed at solving the problem of using several structural elements in operation together with both a pump and a hydraulic motor.

 The technical result of the invention is to seal the dimensions and simplify the control of hydraulic transmission.

 The technical result mentioned is achieved by the fact that in the volumetric hydraulic transmission, which are enclosed in a common housing, which is also a reservoir for the working fluid, a vane pump and a hydraulic motor of variable working volumes, an internal profiled bore is made for the pump and the hydraulic motor and a transverse partition separating the pump and the hydraulic motor is installed having the ability to slip relative to the housing.

 Figure 1 shows a longitudinal section of a hydraulic transmission; figure 2 is a section along aa of figure 1.

 Volumetric hydraulic transmission consists of a pump and a hydraulic motor, which are sequentially located in the inner bore of the housing 1, the pump contains a shaft 2, connected to the rotor 3, having grooves 4, in which radially movable gates 5 are placed, in the slot of the inner bore of the housing 1 there is a disk 6 having the Central hole for the passage of the rotor 3 and the grooves 7 with seals 8 for the passage of gates 5. The hydraulic motor contains a shaft 9 connected to the rotor 10 having grooves 11, which are placed radially movable gates 12, in the slot of the inner bore Of the housing 1, a disk 13 is located, having a central hole for passing the rotor 10 and grooves with seals for passing the gates 12. Between the disk 6 and the disk 13, the located part of the profiled inner bore 14 is used jointly by both the pump and the hydraulic motor, a transverse partition 15 is installed in it, the separating pump and the hydraulic motor, which is placed between the rotor 3 and the rotor 10, has the ability to slide relative to the housing 1 along the inner bore 14 and is made with channels for supply 16, outlet 17 and pass 18 working fluid STI The inner bore of the housing 1 is profiled identically on both sides of each of the disks 6 and 13, which ensures that the sliders 5 and 12 touch the inner bore of the housing on both sides of the indicated disks and along the entire length of the sliders, as shown in the drawing of the longitudinal section of the hydraulic transmission.

 Hydraulic transmission works as follows.

 When the shaft 2 rotates, the rotor 3 rotates, the gates 5 come into contact with the surface of the bore 14 and displace the working fluid from the pump working chamber, which through the channels 17, pass 18 and inlet 16 enters the working chamber of the hydraulic motor. Here, the working fluid rotates the rotor 10 and the associated working shaft 9. Having completed the work, the fluid is discharged into the pump by another group of channels. The gates 12 of the rotor 10 are in contact with the surface of the bore 14, used in conjunction with both the pump and the hydraulic motor.

 The gear ratio of the hydraulic transmission is controlled both by the displacement of the housing 1 in the longitudinal direction relative to the transverse partition 15, and the displacement in the longitudinal direction of the partition 15 together with the rotors 3 and 10 adjacent to it.

 The passage channels 18 can connect both opposite and diagonally located inlet-outlet channels or have the ability to switch, which will provide reverse rotation of the hydraulic motor. Inlet-outlet of the working fluid can be carried out both through the channels in the partition 15, and through the channels in the housing 1 or in any other way. The housing 1 can also serve as a reservoir for the necessary fluid in the work.

 The pump and hydraulic motor can be performed as a single action or multiple. In the multiple-action variant, the inner bore of the housing 1 is shaped so that it contacts the surface of the rotor 3 and 10 in several places around the circumference and several cycles of pumping and draining of the working fluid are performed in one revolution of the rotor.

 In the proposed design, a part of the housing’s internal bore is used jointly by both the pump and the hydraulic motor, which reduces the size, and the gear ratio by shifting the housing simplifies its control.

Claims (3)

1. Volumetric hydraulic transmission, comprising a slider pump and a hydraulic motor of variable displacement, enclosed in a common housing, which is also a reservoir for the working fluid, characterized in that an internal bore is made for the pump and hydraulic motor in the hydraulic transmission housing and a transverse partition is installed that can slide relative to housings separating the pump and the hydraulic motor. 2. The hydraulic transmission according to claim 1, characterized in that in the transverse partition separating the pump and the hydraulic motor, channels for supplying, discharging and passing the working fluid are made. 3. The hydraulic transmission according to claim 1, characterized in that its gear ratio is controlled by the displacement of the housing in the axial direction.

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