DE1901132C - Device for monitoring the supply of lubricant to bearings in a machine - Google Patents

Description

3 4

so that the return outlet has the lowest pressure of the spring 28 certain oil flow below a certain one in the manifold 13. The return level is reduced, the piston 24 moves to the output is connected to the input of a return flow down, so that its end face 24 b on the seat 21 a switch 16, the output of which rests on a next to the inlet 23. As a result, the pressure relief valve 17 is connected to the oil pan 14 5 permanent magnet 25 from the contacts of the is. The pressure relief valve 17 is provided in order to move the reed switch 26 away so that the pressure of the system can be opened to a desired level.

boundaries. It is as close as possible to the In F i g. 4 shows an electrical circuit diagram, The return flow switch 16 for the monitoring shown in FIG. 1 is mounted on its outflow side. The return flow scaler 16 and the io device can be used. In the switching pressure relief valve 17 are preferably immediately shown in Figure 4 is assumed to be desirable mounted next to the inlet point of the oil pan 14. been to the machine in the event of a break The oil pan 14 usually has an opening into or a blockage in the still-free lubrication lines. The outlet of the oil pan 14 is to be inserted via a filter and by means of a lamp or the like 15 show with the input of the pump 11, if in one of the flow switches a connected, Reduction of the flow rate enters a suitable

Although a pipe branch 13 with only three supply voltage of z. Ü. 14 volts, 60 Hz

Lubricant outlets are shown, one of which is supplied to the busbars 40 and 41. the

two are each connected to flow switches, contacts K 1, K 2, KR of each flow switch are each

it is clear that the pipe branch 13 is each ao white in series with a Reiais winding Ri, R 2, RR

Desired number of lubricant outlets connected between the busbars 40,41. Every

can point. Relay winding has a normally open contact set R 1 -A,

The flow switches shown in Fig. 1 be R 2-A and RR-A and a break contact set R lR,

familiar design speak to the flow and not R 2-R, RR-R . These are each in series with

to the pressure of the lubricant. Such flow as an indicator lamp LI, L 2, LR between the sam-

switches are known in the art. In FIG. 2, milk rails 40, 41 are connected. The normal

and Fig. 3 shows an example of a flow switch. open relay contacts are connected in series

The housing 20 made of non-magnetic material switches, and this series connection is connected to a

such as brass, consists of a long-lasting control circuit for the machine 10

elongated cylinder 21, which bound on one side 30. This control circuit can be in the current

duich a screw 22 is closed. The other supply for the machine 10 will be attached so

Side of the cylinder 21 is threaded and that if any of the normally open

serves as inlet side 23. A piston 24 is sliding relay contacts closes, the machine ZQ is stopped

placed in the Zy ₍ inder21. A compression spring 28 is.

between the screw 22 and an end face 24a 35 The mode of operation of the lubrication system of FIG. 1

of the piston ? A pushes the piston 24 normally is now in connection with the electrical

down, while its other end face 24 b on the circuit of F i g. 4 described. When commissioning

a seat 21 α in the cylinder 21 rests. The machine 10 would be the busbars

Piston 24 receives a permanent magnet 25. 40.41 of FIG. 4 energized. If the

The position of the permanent magnet 25 determines 40 pump 11 is switched off, the flow switches are all

the state of the contacts of a conventional closed, leaving their respective contacts open

Magnetic tongue switch 26. An output 27 are consequently the Rclais windings R 1, R 2,

in the form of a threaded opening, RR extends radially without current, the normally closed contacts. R lR, R 2-R,

in the cylinder 21. If between the input 23 RR-R are closed, and the normally open contacts

and the outlet 27 no lubricant flows, 45 R 1A, R 2-A, RR-A are open. This is dtr in

the piston 24 takes the in F i g. FIG. 2 shown in FIG. 4 illustrated state.

Position a, with its lower end face 24 b on The indicator lights are energized and

the seat 21 α lies adjacent the inlet 23rd Burn out. If a lamp does not burn, it shows

It can be seen in FIG. 3 that the bulb 24 shows a cross, that the lamp has burned out, that a fault

Has sectional shape, the spaces 30 between 50 in the electrical circuit or that one

see the outer surface of the piston 24 and that the flow switch is defective. However, if all

Cylinder 21 leaves free. These allow the lubrication lamps to burn when the pump 11 is switched on,

means to flow into the area of the cylinder 21, Wc. into which the lubricant begins to flow

which contains the compression spring 28. each of the flow switches is operated so that each

When the flow switch is used, contacts close in 55. We; in the contacts of

the inlet 23 entering lubricant close a force each flow switch, the respective re-

at the end face 24 b of the piston 24, around the laiswickluiig e / re ^ t. When the relay windings energized

To press piston 24 against spring 28 so that the normally closed contacts Ri-R, R 2-R,

the lubricant exit from outlet 27 RR-R, so that the associated lamps go out,

can. This lubricant also flows through the sun. The make contacts R LA, R 2-A, FR-A are pasting

Gaps 30, past the piston 24 in the closed, so that the machine 10 is switched on

Area containing the spring 28. As long as that can be. The machine 10 is then with the

Lubricant flows, it pushes the piston 24 after it has operated for certainty that the bearing is the correct one

get lubrication up against the spring 28 in the direction of the screw.

22. The magnet 25 becomes more tight upwards 65 If one of the lines between the greases the contacts of the tongue switch 26 approaching 1 or 2 or the return output moves so that these contacts close. If the manifold and oil pan 14 become clogged, However, due to the pressure force, among other things, the certain to the blocked line occurs

subordinate flow switch in action to his contacts to oil tones. When the contacts of the particular flow switch are open, the associated relay is de-energized, its normally open contact opens and its normally closed contact closes. The machine 10 is stopped and the appropriate lamp is turned on to indicate the particular clogged line. Thus becomes the machine 10 is put out of service before the bearing is damaged and the display is facilitated S locating the fault.

1 sheet of drawings

Claims (1)

1 2 and safety circuit with a Deiekt not so Patent claim: is significant because in this case it is still a sufficient amount of lubricant on the bearing device for monitoring the lubrication points and therefore bearing damage is not so medium supply to bearings of a machine, e.g. B. 5 occur quickly. It is more important, however, that the a press consisting of a loading machine can only be started when Correct value set flow indicators in the bearing parts with certainty oil has been added the supply line to each is to be monitored. Only after the flow indicator has been addressed the warehouse through which the machine has to be switched on in the event of an interruption. Lubricant supply an electrical signal and / io responds to any line break at any point or a shutdown of the machine can be triggered, the flow indicator is activated immediately, because then the above characterized in that one closes the pressure valve and the lubricant flow through Storage (1.2,3) immediate return line before the flow indicator ended. Likewise, a is seen, in which a pump malfunction or a clogged filter can also be re-determined Value of the set flow indicator 15 Reduce the flow rate of the lubricant and (16) bring the pressure relief valve to close in front of an overpressure valve in the direction of flow, valve (17) is arranged. whereupon the flow indicator responds again immediately. The service life of the pump is also increased in a known manner by the pressure relief valve, since it ao not claimed beyond their pressure range will. The invention is to be explained in more detail below using an exemplary embodiment. It The invention relates to a device for over- shows watch the lubricant supply to bearings of a 35 F i g. 1 is a block diagram of a monitoring machine, e.g. B. a press, consisting of a device according to the invention,
certain value set flow indicators in Fig. 2 is a longitudinal section of a flow switch Feed line to each of those to be monitored along the line H-II in FIG. 3, the one for the device bearings, through which when the lubrication is interrupted according to FIG. 1 can be used
medium supply an electrical signal and / or an output 30 F i g. 3 shows a cross section of the flow switch which can be triggered to switch the machine. F i g. 2 along the line IH-III in FIG. 2 and For monitoring the lubrication of Ma- F i g. 4 an electrical circuit diagram of an arrangement is a series of monitoring which is carried out in the manner shown in FIG. 1 « known. So is z. B. can be used in the patent development. 59444 of the Office for Inventions and Patents 35 An embodiment of a supervisor East Berlin a device for monitoring the device according to the invention is in the block lubricant supply for mounting a machine, the wiring diagram in FIG. 1 shown. The through the knows, the rectangle set to a certain value from dashed lines indicated Ma flow indicator in the supply lines to each machine IO has three bearings 1, 2 and 3. Camp 1 the warehouse to be monitored. A 40 and 2 are considered important or critical, so Interruption of the supply of lubricant will result in the flow of lubricant to these bearings 1 and 2 electrical warning signal triggered and / or a monitoring must be carried out. Camp 3 is less switching the machine causes. critical; if no lubricant is added to this bearing 3 The known from the aforementioned document is performed, so its failure is not critical or However, flow indicators only indicate whether the exchange is easy. The lubrication system has a any lines that meet lubricant flow to pump 11 of suitable size and capacity, or not. Is z. B. a leak in the line that is larger than it is through the bearings 1, 2 and 3 ersystem behind the lubrication point, no request is made. The output of the pump 11 is via a show. Filter 12 connected to a manifold 13, The invention has therefore set itself the task of providing 50 the three lubricant outlets Γ, 2 'and 3' and to eliminate the aforementioned disadvantage and has a return outlet. The lubricant monitoring device of the type described above, notices 1 'and 2 are with the inputs of to create that with simple means connected to fault flow switches 1 "or 2". The exits responds at any point in the line system. the flow switch 1 "and 2" are with the bearings 1 According to the invention, it is proposed to connect a 55 or 2 to the machine 10. The lubricity The warehouse to be monitored, the immediate return outlet 3 'is directly connected to the warehouse 3 of the painting line provide in which a machine 10 is also connected. The connection between the Flow indicators, flow switches 1 "and 2" and bearings 1 and 2 are set to a predetermined value in the direction of flow upstream of a pressure relief valve and the connection between the lubricant is. 60 output 3 'and the bearing 3 have the required cross-sections, acting pressure relief valve after the Lcitunps- between the bearings 1, 2 and an oil pan 14 is Branch ensures that all bearings and all have a connection. This connection can Lines are fully pressurized before either be completely closed or a Through this regulating valve, the lubricant flowing off 65 other supply line of the lubricant to the oil pan 14 medium makes the flow indicator respond. At provide. The return outlet of the manifold the invention is based on the consideration 13 is preferably relative at the most distant point been attached that a quick response of the warning to your entrance of the manifold,