SYSTEM AND METHOD FOR EXECUTING A LUBRICATION PLAN

Abstract

A system for executing a lubrication plan including a grease meter for measuring a volumetric flow of grease through the meter. The grease meter having a memory for storing a set of instructions that includes a series of prescribed grease volumes be delivered at a corresponding series of lubrication points, a memory for storing a volume of grease delivered at a particular lubrication point and is configured to communicate with the display device. A display device includes a memory for storing an image of each lubrication point in the series, each image being a photograph of the machine that has the lubrication point. The machine is configured to display each image along with the prescribed grease volume to be delivered at the corresponding lubrication point. The displayed image of a further lubrication point in the series image is triggered by the grease meter when a delivered volume is stored.

Claims

1-13. (canceled)

14. A system for executing a lubrication plan, the system comprising: a grease meter for measuring a volumetric flow of grease through the meter, and a display device, wherein the grease meter provides: memory means for storing a set of instructions, which at least include a series of prescribed grease volumes V1, V2, . . . Vn to be delivered at a corresponding series of lubrication points L1, L2, . . . Ln, memory means for storing a volume of grease delivered at a particular lubrication point; and means for communicating with the display device; and wherein the display device: comprises memory means for storing an image of each lubrication point in the series, each image being a photograph of the machine that comprises the lubrication point, including a visual indication of the location of that lubrication point on the machine; and is configured to display each image along with the prescribed grease volume that is to be delivered at the corresponding lubrication point, whereby the display of the image of a further lubrication point in the series image is triggered by the grease meter when a delivered volume is stored.

15. The system of claim 14, wherein the memory and communication means of the grease meter are housed within an electronic module that can be repeatedly connected to and disconnected from mechanical parts of the grease meter.

16. The system of claim 14, wherein the grease meter further comprises means for measuring a sensor signal and for storing the measured signal.

17. The system of claim 16, wherein the sensor signal is a vibration signal or an ultrasound signal.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0034] FIG. 1 shows a schematic view of a plurality of machines and a series of lubrication points provided on the plurality of machines;

[0035] FIG. 2 shows an example of a generated image that may be displayed in the method of the invention;

[0036] FIG. 3 shows an example of a device configured for use in the method of the invention

DETAILED DESCRIPTION OF THE INVENTION

[0037] FIG. 1 is a schematic representation of four machines M1, M2, M3, M4, each of which has at least one lubrication point, defining a series of lubrication points L.sub.1, L.sub.2, L.sub.3, L.sub.4, L.sub.5, L.sub.6, L.sub.7. Let us assume that all four machines are due for re-lubrication, whereby a prescribed volume of grease is to be delivered at each of the lubrication points. Thus, a series of prescribed grease volumes V.sub.1, V.sub.2, V.sub.3, V.sub.4, V.sub.5, V.sub.6, V.sub.7 associated with the corresponding series of lubrication points L.sub.1, L.sub.2, L.sub.3, L.sub.4, L.sub.5, L.sub.6, L.sub.7 can be defined.

[0038] The series of grease volumes to be delivered at the corresponding lubrication points forms a set of instructions or lubrication tasks which are to be executed manually by a technician. To facilitate the accurate and efficient execution of the lubrication tasks, the technician employs a system comprising a grease meter and a display device and follows an inventive method.

[0039] In a first step of the method, the set of instructions associated with the lubrication tasks are defined. The set of instructions at least includes a definition of the lubrication points to be lubricated and the volume of grease to be delivered there.

[0040] In a second step, an image of each lubrication point in the series is generated. The generated image comprises a digital photograph of the machine that has the lubrication point, plus an additional visual indication of the location of the lubrication point on the machine. An example of a generated image, of lubrication point L.sub.1, is shown in FIG. 2. The generated image 5 consists of a photograph of machine M1 and a superimposed arrow 10 that points to the location of the lubrication point L.sub.1.

[0041] Suitably, such an image is generated for each lubrication point in the plant or factory, whereby a unique identifier is assigned to each lubrication point. The unique identifier may be a code, such as 42-3202-244-DS (indicated by reference numeral 20 in FIG. 2). In other words, a visual library of the lubrication points is created.

[0042] According to a third step in the method of the invention, the visual library of lubrication points and the set of instructions associated with the lubrication tasks are stored in a system comprising a grease meter and a display device.

[0043] In one embodiment of the method, the series of lubrication points at which grease is to be delivered is defined in sequential order. With reference to FIG. 1, lubrication point L.sub.1 is the first point in the sequence, L.sub.2 is the second point in the sequence and so on. After the set of instructions has been stored, a fourth step in the method comprises displaying the generated image 5 of the first lubrication point L.sub.1 on a screen of the display device. In addition to the generated image, the prescribed volume of grease V.sub.1 to be delivered at the first lubrication point is displayed, e.g. 5 g. Preferably, a prescribed type of grease to be delivered is also displayed, e.g. LGHP2 (indicated by reference numeral 15). The identification code 20 associated with the first lubrication point may also be displayed.

[0044] The photographic image of the machine M1 enables the technician to easily find the correct machine; the arrow 10 quickly directs him to the lubrication point L.sub.1 and the displayed volume V.sub.1 tells him how much to deliver. In a fifth step of the method, the technician delivers the prescribed volume of grease using a grease meter connected to e.g. a grease gun. The grease meter measures the volume of grease delivered and stores the delivered volume.

[0045] The storage of the delivered grease volume may be initiated by the technician, e.g. by pressing a button on the grease meter or on the display device. Alternatively, the grease meter may be configured to store the delivered volume after a prescribed interval of no grease flow measurement. For example, 30 seconds after grease delivery has stopped.

[0046] Storage of the volume of grease delivered at the first lubrication L.sub.1 point triggers a sixth step of the method, in which a generated image of the next lubrication point L.sub.2 in the sequence is displayed. Again, the generated image comprises a photograph of machine M1 plus an arrow that points to the location of the second lubrication point L.sub.2. Furthermore, the prescribed volume of grease V.sub.2 to be delivered there is displayed, preferably along with the prescribed type of grease and the identification code associated with the second lubrication point. After the technician has performed the lubrication task at L.sub.2, the delivered volume is stored in the grease meter, which triggers the display of the third lubrication point L.sub.3 in the sequence.

[0047] Thus, the fifth and sixth steps of the method are repeated until the final volume V.sub.7 for the final lubrication point L.sub.7 in the sequence has been stored. When all of the tasks have been performed, the delivered volumes V.sub.1-V.sub.7 associated with the corresponding lubrication points L.sub.1-L.sub.7 are suitably loaded into a central computer or, for example, a software package for managing and scheduling lubrication tasks. Alternatively, the completed task list may be uploaded to a cloud platform.

[0048] The display device used in the system and methods of the invention can be a tablet computer, or a smart phone or a pair of ?Google glasses. In one embodiment, the display device is integrated in the grease meter. A front view of such a grease meter is shown in FIG. 3.

[0049] The grease meter 30 in the depicted example is an oval gear meter such as described in WO2007/132062. The grease meter comprises two oval-shaped gears arranged to rotate in synchronism in a chamber provided in a housing 35. When grease flows through the chamber, the gears rotate at a speed proportional to the flow rate. The meter is further equipped with means for detecting the rotational speed of the gears, enabling the volume of grease passing though the chamber in a given time interval to be measured.

[0050] The grease meter further comprises a delivery tube 40 having first and second sections 41, 42 in connection with the chamber. The first section has a connection point 43 to which a grease gun is connectable; the second section 42 has a connection point 44 that is configured for connection to a machine lubrication point.

[0051] In the depicted example, the grease meter has a first screen 51 for displaying the volume of grease being measured. A second screen 52 is provided for displaying the generated image of a lubrication point, plus at least the prescribed grease volume, as described above. Needless to say, a single screen may be provided for displaying all information.

[0052] In a further embodiment, the grease meter or the display device (when separate) is equipped with a positioning system and a geographic position is assigned to each lubrication point L.sub.1, L.sub.2, L.sub.3, L.sub.4, L.sub.5, L.sub.6, L.sub.7.

[0053] In a corresponding embodiment of the method, the first generated image to be displayed on the screen of the display device is a generated image of the lubrication point that is geographically closest to the positioning system. Let us assume that this is the lubrication point indicated in FIG. 1 with reference L.sub.3. After the volume of grease delivered at L.sub.3 has been stored, the next generated image displayed is a generated image of the lubrication point closest to L.sub.3, i.e. L.sub.4 The next generated image displayed will be an image of the closest lubrication point to L.sub.4 for which a delivered volume of grease has not yet been stored. Advantageously, the grease meter is further configured to store the geographic position at which a delivered volume of grease is stored. This enables further verification that grease has been delivered at the correct lubrication point.

[0054] A number of aspects/embodiments of the invention have been described. The invention is not restricted to the described embodiments, but may be varied within the scope of the accompanying patent claims.