DE856393C - Piston slide control for central lubrication systems - Google Patents

Description

Piston slide control for central lubrication apparatus The invention relates to on a piston valve control for central lubrication systems where a pressurized medium alternately in several places or several rooms in determinable quantities are to be supplied. In particular, it is thought to take turns two or more rooms with a pressurized liquid of any Fill viscosity. There is, per se, the possibility of doing this mechanically or partly hydraulically, partly mechanically operated control devices to be used. However, since the mechanical links easily suffer from failure or wear and require permanent maintenance, it is desirable to use control devices which work purely hydraulically. Also speaks for the use of a hydraulic Control also the fact that a quick and sudden opening as possible and closing of the control piston is to be achieved, because only thereby the result the high pressure and the high speed of the medium occurring abrasion and cavitation phenomena can be avoided.

The invention now has a piston valve control for central lubrication devices for alternating supply of two or more lubrication points with the under pressure standing lubricant to the subject, in which the switching of the reversing piston takes place through the lubricant. According to the invention, the control lines of the Reversing piston dominated by a preselector piston, whereby this is controlled by the pressure at the respective connected lubrication point.

This control device works completely automatically, only through driven by the pressure of the medium. As a result, it does not need a special mechanical one Drive. Their maintenance is extremely low and the mode of operation is very reliable. The device according to the invention can be used wherever alternately any but determinable amounts of a liquid of any viscosity are to be submitted to various bodies.

The invention is further features in the drawing in several Circuit diagrams shown. Fig. I shows the simplest form of the device, which can be improved by adding the part shown in dashed lines can; Fig. 2 illustrates the setup with the chokes switched on at the time Regulation of the filling sequence; Fig. 3 is a system with a separate delay piston, while Fig. 4 illustrates the use of a delay piston with an adjustable stroke.

In the cylinder i there is a displaceable reversing piston z. The space between the two piston surfaces of the double piston is on the one hand with the consumption points I and II, on the other hand with that of the pressure source incoming line 3 connected. The two on the end faces of the reversing piston The rooms located are through the lines 4 and 5, the flow of which alternates is controlled by the piston 6, hereinafter referred to as the preselection piston, also connected to the pressure source or line 7. The end face spaces of the preselector piston in turn are available through the lines 9 and io with the pressure lines to the consumption points I and II in connection.

If you want to secure against unwanted pressure increase during create the filling period of one of the two consumption rooms and the reversal process only initiate when the pressure of the 'medium in the space to be filled one has reached a certain, possibly adjustable value, you switch to the pressure line a double valve. For this purpose, think of the shut-off valve in Fig. I i1 as well as the connection piece 12 closed to the pressure source and the dashed line links shown -added. There is once a check valve 13 and a piston valve 14. The latter is with little axial play in the driver 15 attached, in turn by the auxiliary piston 16 against the action of a load 17 is slidable. The pressure source is connected at 18, while i9. a Represents safety valve. This also has the consequence that the Medium is kept under two or more different pressure levels, namely in the part of the lines leading to the. Consumption rooms and to the end faces of the Pre-selection piston 6 leads, under high pressure and in the other lines under, a low pressure that is sufficient to carry out the switching movements.

The. Establishment can be. to add even further by the fact that one either built into the lines 7 or 4 throttles 27 or a so-called Delay piston 20 (Fig. 3) between the pressure source and the end face spaces of the reversing piston turns on. The end face spaces of this delay piston are through the lines 21 and 22 via the preselector piston 6 to the pressure source, but behind the double valve 13 and 14, switched. The stroke of the delay piston can also be adjusted by means of an adjusting screw 28 (Fig. 4) can be made adjustable.

In addition to the high pressure medium for the lubrication points for the control process a medium of low pressure, which is characterized by a special Pump is generated, so the line 7, which according to Fig. 2 leads to <l a preselector piston, connected directly to the source of low pressure.

The mode of operation of the device is roughly as follows: In Fig. I is the device shown at the moment in which the preselection piston 6 by Increase in the pressure at the point of consumption 11 and in the line 9 to the left is shifted. In this position the flow from the pressure source 12 in line 7 and line 4 to the right reversing piston area are open, so that the reversing piston moves to the left. This once turns the line to the point of consumption II connected to the return 24, on the other hand the line to the point of use I opened so that the hydraulic fluid through the lines 12, 7 and 3 to consumption point I can flow. It happens until the space I is filled and as a result the pressure in this space rises. That has the consequence that the rising pressure in the line io the preselection piston shifts right. This creates the right end face space of the reversing piston connected via the line 4 to the return 25, while the high pressure from line 12 via line 7 and line 5 to the left reversing piston face space and moves the reversing piston to the right. This in turn will the line to the point of consumption 1 disconnected from its connection to the pressure source and connected to the return 26, while the line to the consumption point 1I is connected to the pressure source and through lines 12, 7 and 3 with hydraulic fluid is fed. The work cycle thus begins anew.

If a double valve is to be switched on in the pressure line, so you cut the direct connection between lines 7 and 3, for example, by closing and locking a shut-off valve ii attached there likewise the pressure connection piece 12. The one now supplied through the connection piece 18 high pressure is once via the check valve 13 directly to the line 3, on the other hand via .das piston valve 14 connected to line 7. This piston valve 14 prevents the high pressure liquid from entering the line. '? and thus to the end face spaces of the reversing piston until .the pressure increase in the line 3 after filling the respective consumption space one has reached a certain size. This size is determined by the load on the auxiliary piston 16. Once this specific pressure has been reached, the auxiliary piston 16 is shifted and at the same time lifts the driver 15. On the other hand, in this driver the Head of the piston is supported by the piston valve 14, this piston is also moved until its lowest edge connects to the pressure connection 18 has released. At this moment the pressure fluid is taking in the space flow into the piston 14 and this immediately by the amount due to the damming effect of the game of this piston in the driver fling upwards, so that immediately a large flow area is released. This results in high flow velocities in the flow cross-sections and cavitation and abrasion phenomena avoided. The pressure fluid now flows through the space under the piston 14 to line j and from there via the preselection piston to the end face spaces of the U m control piston 2.

Should regulate the time between the individual switching processes can be done by switching on a throttle 27 in the line 7 or the Line c happen. This throttle regulates the speed at which the rooms be filled at the end faces of the reversing piston 2 and the preselector piston 6. It is also possible to use a special delay piston to determine this time period 20 (Fig.3) to be provided. It then comes into operation when the piston valve 14 closes the pressure line 7 is open. Then once from this high pressure via the lines 21 or 22 of the delay piston moved, and on the other hand «earth through the lines 4 and 5, the spaces on the end faces of the reversing piston 2 connected to the high pressure. The stroke volume of this piston 20 is to be chosen so large that the pump, which the medium takes as much time to move it completely as it takes to delay the switchover it is asked for. If you want to set the duration of the reversal process as desired means, which limit the path of the delay piston, are attached, z. B. an adjusting screw 28 (Fig. 4).

The process is as follows: The delay piston 20 'is with an even Pressure is moved until it reaches a stop, namely the adjusting screw 28. After this stop has been reached, the pressure in the pipe system connected to it rises and opens the pressure-dependent check valve 30 between the delay piston 20 'and the face of the reversing piston 2 is located. The reversing piston is thereby postponed. In order to ensure an outflow of the medium displaced by the reversing piston, is a reverse-acting check valve 31 parallel to the check valve 30 built-in, which can be set to a low pressure and the Releases the way into the return line through the control channels of the preselector piston 6.

An additional piston can also be used to control the delay piston Use low pressure medium. For this purpose the line 7 would be from the high Shut off pressure and instead connect it to a source of low pressure. This low pressure can be regulated and then reaches the preselector piston 6 and the lines 21 and 22 to the end face spaces of the delay piston 2o.

Claims (7)

PATLNTANS1'E: ÜCI1E: i. Piston valve control for central lubrication systems for alternating supply of two or more lubrication points with the under pressure standing lubricant, in which the switching of the reversing piston by the Lubricant takes place, characterized in that the control lines (4, 5) of the Reversing piston (2) are dominated by a preselector piston (6) and this from the Pressure is controlled at the respective connected lubrication point. 2. Piston valve control according to claim i, characterized in that in the feed line between the pressure source and the preselection piston there is a double valve (13-Z7), which is only activated when Increase in pressure after filling the respective connected lubrication point space connects the line to the preselector piston with the pressure source. 3. Piston valve control according to claim 2, characterized in that the double valve consists of a conventional Check valve (13) and a positively controlled piston valve (14). 4. Piston valve control according to claims 2 and 3, characterized in that that the piston valve (14) is controlled by a loaded auxiliary piston (16), the part of the line between the lubrication point and the check valve (13) connected is. 5. Piston slide control according to claim 4, characterized in that that the piston valve (14) is in a driver (15) moved by the auxiliary piston (16) is held with play in such a way that there is a relative movement with respect to the auxiliary piston can perform. 6. piston valve control according to claims i to 5, characterized characterized in that the duration of the filling and reversing process is regulated or is delayed by a throttle (27) in the line, which directly or indirectly leads to the end face spaces of the reversing piston (2). 7. Piston slide control according to claims i to 5, characterized in that a delay piston (2o or 20 ') is provided which releases the flow to the end faces of the reversing piston only after its stroke volume has been filled. B. piston valve control according to claim 7, characterized in that an adjusting screw (28) or other means are provided in order to be able to adjust the stroke of the delay piston. G. Piston slide control according to Claims 7 and 8, characterized in that a pressure-dependent check valve (30) is located in the line between the delay piston (20 ') and the end face space of the reversing piston (2). ok Piston slide control according to claim 9, characterized in that parallel to the check valve (3o), but in the opposite direction of opening, there is a second check valve (3i) which is only slightly loaded and enables the return from the end spaces of the reversing piston (2). Cited publications: German Patent No. 673 292; U.S. Patent No. 2,069,122.