DE2019122A1 - Auxiliary device - Google Patents

Description

Power-assisted device The invention relates to a power-assisted device with a partition which is arranged immovably in a housing, a pair of movable ones Partition walls, which are provided on both sides of the partition wall and over a partition wall penetrating spacer tube are in connection with one another, and a valve device, which is moved via an actuating plunger, which simultaneously via suitable transmission means actuates the master cylinder.

Power assist devices of this type are preferably used in braking systems installed by motor vehicles.

There are already tandem auxiliary power devices of the type mentioned a spacer tube connecting the booster pistons is known. The graduated one The spacer tube with its coarser step is through the one in the booster cylinder fixed partition wall slid through. The stepped form of the The annular surface formed by the spacer tube serves as a fastening stop for the actuating cylinder 'facing, movably arranged booster piston. The on the actuation piston The stepped push rod acting on the actuating cylinder is through the spacer tube passed through and in a protruding into the spacer tube, between control piston and control valve clamped guide sleeve held and limited slidable guided.

An annular gap is provided between the spacer tube and the guide sleeve, the pressure medium chamber of the one booster piston adjoining the actuating cylinder over the cylinder space of the spacer tube with the one in the direction of actuation in front of the booster piston connected to the valve device connects.

The object of the present patent application is to maintain the same Diameter of the partition walls of an auxiliary power device that work as booster pistons to achieve an increase in the effective piston area of one of the two partition walls and to simplify the structure of the power assist device.

According to the invention this object is achieved in that the spacer tube is stepped, the smaller step of the spacer tube with the the intermediate wall facing the main cylinder and firmly connected by the partition is passed through and the larger step of the spacer tube on the with the valve device connected intermediate wall is attached, wherein in the larger Step of the spacer tube. stepped formed push rod guided and held is.

In a further embodiment of the invention it is provided that the between Push rod and spacer tube in the pressure medium space in the direction of actuation located in front of the intermediate wall arranged between the main cylinder and the partition wall Pressure medium chamber D opens, in which in the direction of actuation behind the partition remaining part of the spacer tube bores are arranged, which the pressure medium chamber D over the pressure medium space of the spacer tube with the one behind in the direction of actuation Connect the pressure medium chamber B lying on the partition wall.

The advantages achieved by the invention are that by dal3 the inventive design and arrangement of the spacer tube an enlargement the effective area of the partition arranged in front of the partition in the actuation direction is effected. Due to the stepped design of the spacer tube, which is used for guidance and support the stepped push rod of the reaction disc and the control housing of the control valve is used, the guide sleeve previously used for this purpose and the one for fastening the guide sleeve are no longer required necessary processing of the control housing of the control valve, thereby a significant Cheaper of the present air force device is achieved.

An embodiment of the invention is shown in the drawing and is described in more detail below.

In the auxiliary power device shown in the drawing, this is Cylinder housing with 1, the partition dividing the cylinder housing into two chambers denoted by 2, in each of the two chambers one from a diaphragm plate and an intermediate wall 3 and 4 consisting of a rolling membrane is provided so as to be movable. The rolling membrane 5 of the partition 3 and the rolling membrane 6 of the partition 4 are attached to the cylinder housing 1. A centrally arranged in the cylinder housing 1 Spacer tube 7 is on the one hand on the diaphragm plate of the partition 3 and on the other hand attached to the diaphragm plate of the partition 4 and by one in the partition 2 arranged seal 23 slidably passed through. The spacer tube 7 is step-shaped formed, with the larger connected to the diaphragm plate of the partition 4 Step a step-shaped push rod acting on a master cylinder 9 is performed and held. The larger step of the spacer tube is also used 7 for receiving a reaction disk 1o and for guiding a control housing 11 a valve device, which via an actuating tappet 12 for controlling the pressure medium supply is operated for the auxiliary power device. The spacer tube 7, the diaphragm plate the partition 4 and the control housing 11 are connected via a screw connection 13 firmly connected.

The one formed by the cylinder housing 1 and by the partition 3 Pressure chamber D is via the cylinder interior 14 of the spacer tube 7 and via the im Spacer tube 7 provided holes 15 with the one through the partition 2 and the partition 4 formed pressure medium space constantly connected. In the cylinder housing 1 is a pressure medium connection 16 is provided, via which the pressure medium space D pressure medium is supplied or discharged. In the partition 2 an angle pipe piece 17 is attached, from which a hose connection 18 leads to the angled pipe section 19 arranged in the diaphragm plate of the partition 4, so that there is a pressure medium connection between the pressure medium spaces C and A. Via a channel 2o provided in the control housing 11 of the valve device and thereon in the diaphragm plate of the partition 4 and the spacer tube 7 subsequent holes 21 and 22 is for the pressure medium space B and thus also for the pressure medium space D controlled via pressure medium connection 16 pressure medium.

Claims (2)

Claims S ilfskraftvorrichtung with a non-displaceably arranged in a housing Partition, a pair of movable partitions provided on either side of the partition and are connected to one another via a spacer tube penetrating the partition wall stand, and a valve device that is moved via an actuating tappet, which simultaneously actuates the master cylinder via suitable transmission means, thereby it is noted that the spacer tube (7) is step-shaped, the smaller step of the spacer tube (7) facing the master cylinder Partition (3) firmly connected and slid through the partition (2) is and the larger step of the spacer tube (7) on the one with the valve device connected intermediate wall (4) is attached, wherein in the larger step of the spacer tube (7) the stepped push rod (9) is guided and held. 2) auxiliary power device according to claim 1, characterized in that g e k e n nz e i c h n e t that the pressure medium space between the push rod (9) and spacer tube (7) (14) in the direction of actuation in front of between the master cylinder and the partition (2) arranged intermediate wall (3) located pressure medium space (D) opens, wherein in the part of the spacer tube that remains behind the partition (2) in the direction of actuation (7) bores (15) are arranged, which the pressure medium chamber (D) via the pressure medium space (14) and with the pressure medium chamber located behind the partition (2) in the direction of actuation (B) connect. L e r s e i t e