DE4141049A1 - Control for motor driven lubricant pump - has microphone as sensor for rail acoustic vibrations whose signals are fed to band pass filter - Google Patents

Abstract

At least one timer controls the pump operating time. A sensor (1), e.g. a microphone, receives acoustic vibrations of the lubrication rail. The sensor signals are fed via an amplifier (2) to a selective amplifier, e.g. an active bandpass filter (3) for filtering out a frequency range between 3000 and 4000 Hz, contg. the screeching sound of esp. 3150 Hz. The output signal of the selective amplifier, specified e.g. after passing a full wave rectifier stage (4) can be supplied to a threshold value switch (5) e.g. a Schmitt trigger, to whose output is connected at least one timer (8), which controls a switching relay (6) of the drive motor (7) of the pump (9), for delay time adjustment. USE/ADVANTAGE - For pump lubricating arcuated rails from a railway carriage, with pump operation only when screeching sounds occur.

Description

Mobile, d. H. on rail witness mounted lubricators known. So are about one device according to DE-OS 36 34 165 near the wheel flange of the rail vehicle Lubrication nozzles attached. Lubrication takes place in the known device each depends on a route unit to be covered by the locomotive. The route unit can be rejected by a so-called "curve signaling device" be delt. The release of lubricant is then triggered after the correct one Alignment of the wheel and nozzle on the rail. This makes it independent of Requirement, d. H. from the appearance of squeaking noises, a lubrication process solves. Waste of lubricant and the associated environmental pollution so inevitable.

CH-PS 6 70 427 describes a lubrication device for grooved rails, wherein the device is mounted on the rail vehicle, so also one mobile system. A powder mixture serves as a lubricant, which is against the pre the side of the wheels is directed. Sensors provided on the vehicle are included the powder conveyor in working connection. The sensor is more electromagnetic or electronic type and causes the drive motor to be switched on and off of the powder conveyor depending on the type of vibrations or waves emitted. What kind of vibrations or waves are involved is the documentary ment not to be removed. The spreading material distributed through the spreading nozzle should on the Treads of the rails and the upper parts of the walls of the rail grooves Be Generate layers that reduce friction. A requirement lubrication is not achieved even with this facility.

Unlike the aforementioned, the invention relates to a device for Control of the drive motor which can be supplied with energy, in particular by an accumulator tors of a pump for conveying lubricant in a stationary system for  Lubricate rails, especially in bends, to avoid squeaking noises or to reduce, with sensors for the property in the area of the lubrication point a train in the lubrication area and at least one timer for the pumps term are arranged. In the case of stationary lubrication systems, the CH-PS 6 35 282 known, every time a train enters the corner area, one Lubrication process. Hiebei is according to the latter document creates a short circuit between the wheels and the vehicle axles, which be is used to trigger an electromagnetic valve, which in turn then the egg triggers a possible lubrication process. For the operation of the known system is a Compressed air tank required, which is replaced as a whole either after emptying must be or at least have to be refilled. Other things arise in the known system pressures, which are theoretically 72 bar, but in practice in still in the order of 50 bar. This is already out of operation Security reasons extremely problematic.

As already mentioned, a lubrication process is not triggered due to squeaking noises, but each time before passing a rail vehicle.

Similar to the device known from CH-PS 6 35 282 works also the device made known by AT-PS 3 84 791. This one too Plant is a stationary plant, which was also operated by propellant will. The lubricant is applied immediately before it passes a shoot "shot" onto the rail. The jet penetrates the air space, so that the jet of lubricant flows through the air before it reaches the correct one Place of the rail occurs, can be blown away. Because just before the pass Ren of each rail vehicle is triggered a lubrication, it is in the known system also no need lubrication. The propellant gas containers ter of the known system are under high pressure (about 50 bar), which from Si safety reasons, as already mentioned in connection with CH-PS 6 35 282, is problematic. Likewise must also be known from the AT-PS 3 84 791 Device, the pressure medium container are exchanged. Because the pressure fluid container  appropriate size, the exchange is in any case difficult rig, especially if such systems for the lubrication of track systems by Trams are used in cities.

In US Patent 48 56 617 is a device for controlling the An drive motor of a pump for conveying lubricants for lubricating Rails described, the drive energy for the drive motor from a Accumulator is delivered. In the area of the lubrication point there are sensors for the presence of a train in the lubrication area. This wheel sensor is as one Formed as a pressure can and between the rail foot and the track bed orderly. Furthermore, in the known system there is also at least one timer for the Pump runtime provided. The known system tries above all that The right lubricant depending on the viscosity and the energy source Bring dosage to the rail. This is a separate with each lubrication The test run is provided, based on which the correct pump running time is then counter will. Since the system known from the US patent every time it is present If a train is triggered in the lubrication area, lubrication is not possible Lich. The lubrication cycle is rather independent of whether squeaking noises occur or not due to the mere presence of the train and the pressure of the wheels which triggered on the rail.

The object of the invention is to design the control device so that Lubricant only when needed, d. H. given squeaking noises becomes. This is achieved in that in a device for controlling the esp. from an accumulator with energy-supply drive motor to a pump Conveying lubricants in a stationary system for lubricating rail in order to avoid or reduce squeaking noises, with sensors for the presence of a train in the area of the lubrication point Lubrication area and at least one timer for the pump runtime arranged are, according to the invention as a sensor, a sound vibration sensor, e.g. B. a micro fon, for recording sound vibrations, in particular structure-borne sound vibrations the rail is provided, the signals, if necessary after passage through  an amplifier, a selective amplifier, in particular an active bandpass to stop filtering one, e.g. B. between 3000 and 4000 Hz, the squeak of frequency range containing 3150 Hz can be fed, the off output signal of the selective amplifier, if necessary after passing a two-way Rectifier stage one, e.g. B. trained as a Schmitt trigger, threshold switch can be fed, at the output of which at least one timer is connected sen, which controls a switching relay of the drive motor of the pump, with time Delay times for switching on the drive motor and the runtime of the motor are adjustable. When using the trained according to the invention Lubrication is caused by the squeaking of the wheels on the control device Rails triggered, thus realizing a need lubrication. Through the targeted Lubrication makes it possible to reduce lubricant consumption by around 33% other. The timer modules allow, on the one hand, the duty cycle to values to limit between 1 to 30 sec and prevent the plant from being hit twice one after the other, so in the range between 1 to 30 sec turns on, ver is avoided that one and the same train set in the area of a curve in which Squeaking noises occur when driving through, more than one lubrication process solves. By a delay (from 1110 sec to 1 sec) of the switch-on process, the can also be entered via the timer modules, it is avoided that short squeaking sounds are already a reason for triggering a lubrication process ben. Unlike mobile systems, each train with one is avoided Equip the lubrication system and carry lubricants with you.

The use of a control according to the invention as mentioned above ma suitable system for lubricating rails, is characterized in that the especially designed as a gear pump, feed pump in a tank for a hydraulic medium, esp. Oil for operating a grease gun and a Um switching valve-containing circuit is arranged, with a Lei from the switching valve tion goes to the cylinder of the grease gun, from which the grease containing cylin the space which is separated in particular from the cylinder space for the hydraulic medium is to lead lockable lines away, in particular on the rails to be lubricated.  can be connected to the grooves of grooved rails and the changeover valve in one Position the pressure line coming from the pump with that to the cylinder of grease press leading line connects, in the other position, however, the latter te line connects to the tank for the hydraulic medium and that in itself a known manner in the cylinder containing the fat from the grease gun from lockable filling line opens. The system trained in the aforementioned manner has a closed hydraulic system via which the lubricant press is operated. This is for driving the lubricant out of the lubricant press The hydraulic medium used becomes the lubricant when filling the cylinder telpress with the lubricant pushed back into the tank. For this you need it is simply a switchover of the switchover valve to the line via which the cylinder of the lubricant press is charged with the hydraulic medium is to be connected to the line leading to the tank for the hydraulic medium the and the shut-off devices in the from the cylinder of the lubricant press to the Rails to close outgoing lines. The plant is only during the Lubrication process under pressure and is depressurized the rest of the time. In the cylinder of the Lubricant presses must be taken to prevent the hy drastic actuating medium mixes with the lubricant (grease), for example by dividing the cylinder space by a piston, a membrane, esp special rolling membrane u. the like

In a further embodiment of the system it can be provided that a before pulls the changeover valve bypass line is provided in which a in particular adjustable pressure relief valve is arranged. If the in the Druckbe limit valve set pressure (operating pressure) exceeded, for example by a blockage in the line or by another ailment opens that Pressure relief valve and leaves the hydraulic medium in via the bypass line run the tank.

A is preferably used as the voltage source for the drive motor of the pump Accumulator, in particular a lead accumulator is provided. The facility is like this independent of the network. Lead batteries have the advantage that the installation position  can be arbitrary and, due to the solid ion transfer medium, none Formation of gases occurs.

The entire system for lubricating the rails can be in a steel housing be housed, which is arranged between the rails of a track. The outside width of the case is 1295 mm, its height is 180 mm and its length 1400 mm.

The invention is explained in more detail below with reference to the drawing explained. Show it,

Fig. 1 is a block diagram of a controller according to the invention,

Fig. 2 shows a plant according to the invention in top view, with removed housing cover Ge,

Fig. 3 is a front view of the system of FIG. 2, and

Fig. 4 is a partial cross section through the inner rail track in the Be rich lubricant supply with a wheel rim section.

In the drawing, 7 is the drive motor of a pump 9 for conveying lubricant, etc. for the indirect delivery of lubricants for the lubrication of rails. Hiebei is a z. B. formed by a microphone sensor 1 for recording sound vibrations, in particular structure-borne vibrations of the rail, such as are generated by the wheels in rails arches, is provided. The signals from the sensor 1 are fed, optionally after passing through an amplifier 2 , to a selective amplifier, which is preferably formed by an active bandpass filter 3 and is used to filter out a frequency which is approximately between 3000 and 4000 Hz. In this frequency range there is also the squeak, which is usually 3150 Hz. The output signal of the bandpass filter 3 , after it has possibly also been passed through a two-way rectifier stage 4 , is fed to a threshold switch 5 , which can be designed as a Schmitt trigger. At the output of the threshold switch 5 there is at least one timer module 8 which controls a switching relay 6 for switching the drive motor 7 of the pump 9 on and off. Delay times for switching on the drive motor 7 and times for the operation of the motor 7 can be set in the timer module.

From FIGS. 2 and 3, the system can be seen for lubricating rails, wherein the controller 10 is for the lubricating medium can be seen for the drive motor 7 of the feed pump 9. The feed pump 9 can be designed as a gear pump. The feed pump 9 is located in a circuit containing a changeover valve 12 and a tank 11 for a hydraulic medium. From the switching valve 12 , a line 13 goes to the cylinder 14 of a grease gun 15 which can be actuated by the hydraulic medium, with lines 16 which can be shut off leading from the grease-containing cylinder space and which can be connected to the rails to be lubricated.

The changeover valve 12 connects in one position the pressure line 17 starting from the pump 9 to the line 13 leading to the cylinder 14 of the grease gun 15 . Hydraulic medium under pressure reaches the cylinder 14 of the grease gun 15 via the line 13 and displaces the lubricant (grease) from the cylinder 14 into the lines 16 . Care must be taken to ensure that the hydraulic medium which is supplied under pressure via line 13 does not mix with the lubricant (grease) in cylinder 14 . For this purpose, a piston can be provided in the cylinder, for example, which divides the cylinder into two partial spaces, the lower partial space in FIG. 2 serving to hold the hydraulic medium and the space above the piston receiving the lubricant. After the changeover, the changeover valve 12 assumes a position in which the line 13 is connected to the tank 11 for the hydraulic medium. In the cylinder containing the fat of the grease gun 15 opens a lockable filling line 18 . Once out of the cylinder 14 of the grease gun all of the lubricant is displaced 15, which is in order switching valve switched by hand 12, the line 13 so that the tank 11 is connected via the switching valve 12th The changeover valve 12 can be designed approximately as a ball valve. The transport lines for the lubricant leading from the cylinder 14 to the rails to be lubricated are closed off by a valve 22 which at the same time connects the filling line 18 to the cylinder 14 . If lubricant (grease) is now introduced into the cylinder 14 via the line 18 , hydraulic medium is displaced from the cylinder 14 via the line 13 and the changeover valve 12 into the tank 11 , which is refilled in this way. A closed circuit is thus available for the hydraulic medium. In the tank 11 , only the amount of hydraulic fluid escaping due to leaks needs to be added. The tank 11 has a refill opening 23 for the hydraulic medium. The motor 7 is sealed so that no moisture can penetrate into the interior of the motor. As shown in FIG. 2, a bypass line 19 bypassing the changeover valve 12 is provided, in which an adjustable pressure relief valve 20 is arranged. If a pressure above the set pressure occurs in the lines 17 or 13 , the pressure relief valve 20 opens and releases the direct line to the tank 11 , via which the hydraulic medium can flow into the tank. An accumulator 21 is provided to supply the drive motor 7 with electrical energy.

With 24 in Fig. 2, a maintenance switch is designated, which serves to promote the grease from the cylinder 14 also by hand without taking into account the delays and running times of the engine 7 predetermined by the time modules. The entire system, as can be seen in FIGS . 2 and 3, is housed in a steel housing. In the exemplary embodiment, a three-chamber system is selected. The middle part contains the electronic control 10 explained in more detail in FIG. 1. The middle part, which contains the electronic control 10 , is tightly welded, a maintenance cover being provided for carrying out maintenance work.

The sensor 1 (pickup) shown schematically in FIG. 1 is connected to the electronic control 10 via a pan-protected cable. The rail profile is drilled for the purpose of connecting the lubrication lines 16 . The lubricant enters through this bore lined with a bore 25 in a space 26 . From there it arrives in intermediate chambers 29 via bores 28 arranged in the walls 27 that laterally delimit the space 26 . From the intermediate chambers 29 , the lubricant passes through gaps 30 between the rail side wall and the edge of a cover 30 which closes off the space 26 at the top of the rail profile to be lubricated.

Claims (3)

1. Device for controlling the drive motor of a pump for conveying lubricant in a stationary system for lubricating rails, in particular in track curves, in particular to avoid or reduce squeaking noises, in the area of the lubrication point sensors are arranged for the presence of a train in the lubricating area and at least one timer for the pump run time, characterized in that the sensor (1) an acoustic vibration sensor for. B. a microphone for recording sound vibrations, esp. Structure-borne vibrations of the rail is provided, the signals, optionally after passage through an amplifier ( 2 ), egg nem selective amplifier, esp. An active bandpass filter ( 3 ) for filtering out a, for. B. between 3000 and 4000 Hz, the squeak of in particular. 3150 Hz containing frequency range can be fed, the output signal of the selective amplifier, optionally after passing a two-way rectifier stage ( 4 ), one, z. B. designed as a Schmitt trigger, threshold switch ( 5 ) can be fed, at the output of which at least one timer ( 8 ) is connected, which controls a switching relay ( 6 ) of the drive motor ( 7 ) of the pump ( 9 ), the timer ( 8 ) Delay times for switching on the drive motor ( 7 ) and the running time of the motor ( 7 ) are adjustable. 2. System for lubricating rails with a device for controlling the drive motor of the feed pump for the lubricant according to claim 1, characterized in that the, in particular designed as a gear pump, feed pump ( 9 ) in a tank ( 11 ) for a hydraulic Medium, esp. Oil, for actuating a grease gun, and a switching valve ( 12 ) containing circuit is angeord net that from the switching valve ( 12 ) a line ( 13 ) to the cylinder ( 14 ) of the grease gun ( 15 ), and from that the grease-containing cylinder space, which is separated in particular from the cylinder space for the hydraulic medium, lead away lockable lines ( 16 ) which can be connected to the rails to be lubricated, in particular to the groove of the groove rails, that the changeover valve ( 12 ) in one position connects the pressure line ( 17 ) coming from the pump ( 9 ) to the line ( 13 ) leading to the cylinder ( 14 ) of the grease gun ( 15 ), in the other position hi against the last-mentioned line ( 13 ) connects to the tank ( 11 ) for the hydraulic medium and that, in a manner known per se, a lockable filling line ( 18 ) opens into the grease-containing cylinder chamber of the grease press ( 15 ). 3. Plant according to claim 2, characterized in that a bypass line ( 19 ) is preferably provided which bypasses the changeover valve ( 12 ), in which an, especially adjustable, pressure relief valve ( 20 ) is arranged.