CS248662B1 - Rolling-contact bearings' testing machine's lubrication device - Google Patents

Description

The invention also addresses the equipment for measuring the rolling bearing test machine.

When testing roller bearings on test machines, it is usually used for oil lubrication, which, in particular during shortened tests, when a very high load force is exerted, provides not only the lubrication of the bearing bearing surfaces but also heat dissipation. The existing lubrication system consists of a lubricant tank, a pump and an automobile radiator located in the tank. Oil is cooled by water flow through the cooler · The disadvantage of this arrangement is low cooling efficiency, frequent failure associated with water penetration into the oil and thus degradation of the oil filling, eventually degradation of the whole test. The wear products of the test bearings are re-introduced into the test bearings with the existing arrangement, which negatively affects the test.

The aforementioned disadvantages are largely eliminated by the lubrication device of the test machine according to the invention. The device consists of an oil tank and a pump head. The essence of the invention is that in a tank closed from above by a one-piece or multi-part lid there is a sump dividing the interior of the tank into an inflow space and an outlet space, both interconnected by interconnecting spaces. In the circumferential wall of the well on the side of the inflow space, it is designed to be prestressed. The inlet throat protrudes into the interior of the sump with clearance. An outlet pump controlled by an electric motor mounted on the tank lid is built into the tank outlet space. The outlet pump control pipe is equipped with a cleaner and a control valve. A circulation pump controlled by another electric motor also mounted on the tank lid is built into the tank inflow space.

248 '662 The circulation pump is provided with a circulation piping, which is fed into the outlet space of the tank. A further aspect of the invention is that an exchanger is installed in the circulation pipe, the exchanger being located outside the tank. A further object of the invention is that a control thermoregulatory element is incorporated into the electric motor circuit of the circulation pump. Another object of the invention is that a cooling block is arranged in the interior of the sump or around the circulation pump or around the terminal. A further object of the invention is that the cooling block consists of a set of at least two concentric helical tubes, bottom closed by a vessel and top mounted in a carrier fixed to the tank lid, the tubes being interconnected and terminated with inlet and outlet connections. . A further principle of the invention is that an electromagnetic valve is connected upstream of the inlet connection or the outlet connection, into which the control thermoregulation member is connected. It is a further object of the invention that petmealtent magnets are located below the well passage. It is a further object of the invention that the permittal micromags of the shape of the annular discs are also located between the faces of the rods. Another object of the invention is that the sump is provided with sedimentation partitions in the interior. A further object of the invention is that a heater is incorporated in the tank, the thermoregulation element of which is optionally connected to the electrical circuit.

The device according to the invention guarantees the long-term observance of the operating parameters, i.e. the quantity, chemical composition, viscosity, temperature and purity of the lubricating oil, and thus the trouble-free operation of the testing machine and the repeatability of the tests. There is no harmful penetration of cooling water into the mmiivi even when testing rolling bearings, they do not deteriorate ini oil deterioration. Furthermore, the resulting products of wear and tear on the functional surface of the tested bearings do not become clogged, thereby impairing the tests. Due to the controlled cooling of the oil, the accuracy of the test results is increased as well as the lutomatic operation not requiring machine operation.

- 3,248,662

The use of the device according to the invention is particularly advantageous in shortened durability tests of rolling bearings carried out under high loads.

The lubrication device of the testing machine according to the invention is shown schematically in the drawing, in FIG. 1, a front cross-section and in FIG. 2 a side cross-section through the overall arrangement. FIG. 3 is a side elevational view; and FIG. 4 is a side elevational view of another possible embodiment of the apparatus of the present invention.

1 and 2 consists of a lubricating oil tank 1 closed from above with a one-piece or multi-part lid 2. Inside the tank 1 is a sump 2 dividing the interior of the tank 1 into the inflow space 5 ^{and the} outlet space 6, both interconnected by interconnecting spaces The well 2 may be removable or fixedly mounted in the tank X. In the interior 3 of the hole 2, in which the sedimentation baffles 27 are incorporated, the inlet throat 10 engages with play. In the circumferential wall of the well 2 there is a filter 8 formed as a recess. Permanent magnets 25, for example in the form of annular disks, arranged alternately on the rods 26, are located below the filter 8 of the sump 2. The output ring 2 of the tank 1 is fitted with an outlet pump 2 controlled by an electric motor. The inlet space 2 of the tank 1 is fitted with a circulation pump 13 controlled by another electric motor, also mounted on the lid 2 of the tank 1. The circulation pump 13 is provided with a circulation pipe 14 introduced by a terminal 15 into the outlet space 6 of the tank 1. A heat exchanger 16 located outside the tank 1 is incorporated into the circulation pipe 14. A thermoregulation member 17 is inserted into the circuit of the electric motor of the circulation pump 13. The thermoregulation member 17 controls the operation of the electric motor of the circulation pump 13 and thereby the coolant flow through the exchanger 1. 6. The thermoregulator 17 may optionally be integrated into the electrical circuit of the heater 28 embedded in the tank 1. The heater 28 serves to heat the lubricant to a specified temperature at the start of the test.

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Another possible embodiment of the device according to the invention, shown in FIGS. 3 and 4, is provided by the prior art by having inside the chamber 1 of the well 3, around the circulation pump 13 and around the end 15 cooling blocks 18. The arrangement comprises a set of two tubes 21 having the shape of concentric helices. The tubes 21 are interconnected and terminated at one end by an inlet connection 19 and at the other end by an outlet connection 20 of the coolant. From below, the tube assembly 21 is closed - by the vessel 22. an inlet port 19 is provided with an electromagnetic valve 24, into whose circuit a control thermistor control member 17 is connected. provided with indicators and controls such as lubricating oil printing indicator, pressure switch, etc. ·

The heated grease with the wear bearing test products flows from the testing machine through the inlet orifice 10 into the interior 4 of the sump J, where coarser particles are trapped by sedimentation and eventually the lubricant is cooled by cooling block 18. The permodent microspheres 25 below the filter 8 retain the ferro-dipped particles. The action of the outlet pump 2 ^{and the} circulation pump 13 flows through the lubricant from the inlet space 2 through the interconnecting spaces 2 to the outlet space 6 of the tank 1 and vice versa, thereby intensifying the heat transfer from the sump J to the tank X and the environment. At a higher temperature of the lubricant, a circulation pump 13 operated by a thermoregulation member 17 is actuated, which causes the lubricant to flow through the circulation line 14 and the end piece 16 into the outlet space 6, the lubricant being cooled by the cooling blocks 18 arranged. around the circulation pump 13 or the end 15, from the outlet space 6 the lubricant is largely free of wear and tear and the specified temperature is supplied by the outlet pump 2 through the cleaner 11 and the regulating valve 12 is piped to the test machine.

Claims (10)

248 682 Device for lubrication of a rolling bearing test machine consisting of a lubricating oil tank and a pumping mechanism, characterized in that a sump (3) dividing the inside of the tank is arranged in a tank (1) closed from above - with a one-piece or multi-piece lid (2) (1) to the inflow space (5) and the outlet space (6), both interconnected by interconnecting spaces (7) and into the interior space (4) of the sump (3), the peripheral wall of which is formed on the side of the inflow space (5) the inlet throat (10) extends with play, wherein an outlet pump (9) controlled by an electric motor mounted on the lid (2) of the tank (1) and an outlet pipe of the outlet is built into the outlet space (6) of the tank (1). the pump (9) is provided with a cleaner (11) and a control valve (12), while a circulation pump (13) controlled by another electric motor is built into the inlet space (5) of the tank (1). also fastened to the lid (2) of the tank (1) and this circulation pump (13) is provided with a circulation pipe (14) introduced by an end piece (15) into the outlet space (6) of the tank (1). 2. Apparatus according to claim 1, characterized in that a heat exchanger (16) is integrated into the circulation pipe (14), the heat exchanger (16) being arranged outside the tank (1). 3 · Zaaízení according to claim 1, characterized in that the circuit of the electric motor of the circulation pump (13) is interposed actuating te ^ imoregulační member (17) · _a 4 · Apparatus according to claim 1, characterized in that a cooling block (18) is arranged in the interior of the space (4) of the sump (3) or around the circulation pump (13) or around the terminal (15). by. wherein the cooling block (18) is formed by a system of at least two tubes (21) having the shape of concentric helices, sealed from below by the vessel (22) and mounted from above in a carrier (23) mounted on the lid (2) of the tank (1); 21) are interconnected and terminated by an inlet connection (19) and an outlet connection (20) of the cooling medium. 5 · 248 662 Device according to claim 5, characterized in that an upstream solenoid valve (24) is connected upstream of the inlet port (19) or downstream of the outlet port (20), into which the control thermoregulation member (17) is connected. 7. A device according to claim 1, characterized in that permeable copper grids (25) are disposed beneath the passage (8) of the well (3). 8. The apparatus according to claim 7, wherein the dummies (25) are in the form of annular discs and are positioned with play between the faces on the bars (26). Device according to claim 1, characterized in that the sump (3) is provided with sedimentation partitions (27) in the interior (4). Apparatus according to claim 1, characterized in that a heating element (28) is incorporated in the tank (1), into which, possibly, a thermoregulation element (17) is connected.