NL1021344C2 - Lubricator for a high pressure environment. - Google Patents

Description

LUBRICATION DEVICE FOR A HIGH PRESSURE ENVIRONMENT

The invention relates to a lubrication device for lubricating mechanical parts in a high pressure environment.

With, for example, volume meters used in gas pipes through which the gas is transported under high pressure, it is important to keep the volume meter properly lubricated in order to minimize measuring fluids. The mechanical parts of a volume meter must therefore be properly lubricated in order to flush dirt from the bearings, I 10 and to minimize friction.

It is known to provide a predetermined amount of lubricant when mounting such mechanical parts in, for example, a natural gas line. It ; however, the problem is that this lubricant supply is running out due to, among other things, pressure changes in the natural gas pipeline. The pressure changes suck the lubricant from the bearings and thus the supply, after which it is entrained in the gas stream.

In order to supply lubricant from outside in the high pressure environment, a considerable amount of energy is required since the high pressure must be sprayed. To provide this energy, a battery or battery is usually not sufficient, but a fixed power line is necessary. In many cases this is not possible or the costs of this are disproportionate.

It is an object of the invention to provide a lubricating device for lubricating mechanical parts in a high-pressure environment, wherein the lubricant consumption

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2 is considerably reduced and the effectiveness of lubrication is increased.

This object is achieved according to the invention by a lubricating device, which comprises a lubricant reservoir and lubricant level control means for optionally varying between a first, high level and a second, low level of lubricant level.

The lubricant level can be controlled by the lubricant level control means, so that the parts to be lubricated can optionally be brought into contact with the lubricant or not. This prevents the mechanical parts from being in constant contact with the lubricant. The lubricant consumption is thus reduced.

In a preferred embodiment, the lubricating device according to the invention comprises splashing means for splashing lubricant from the first lubricant level. When the lubricant level is brought to the first, high level, the splashing means will pass through the lubricant and thus splash the lubricant into the round, lubricating the mechanical parts. The splashing means preferably comprise a driven splashing vane.

In another preferred embodiment of the lubricating device according to the invention, the lubricant level control means comprise an object that can be moved into the lubricant. This object has a certain volume and because the object is introduced into the lubricant, this lubricant will displace, whereby the lubricant level will be increased. Such an object can for instance be arranged eccentrically on an axis, which axis extends beyond the high-pressure environment, so that it is easy to rotate from outside the object so as to optionally place the object in or outside the lubricant. In addition to rotation, translation is of course also possible.

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In another preferred embodiment, the lubricant level control means comprise a movable wall part which limits the lubricant reservoir. Thus, with the wall part, which is preferably designed as a piston, the contents of the reservoir can be varied, as a result of which the lubricant level can be adjusted. To be able to achieve this with little energy, there is an equal high pressure on both sides of the piston.

The invention further comprises a device for measuring the volume of a fluid, which device comprises: - a housing with an inlet opening and an outlet opening, - a paddle wheel mounted in the housing on a mounted shaft and a sensor for coupled to the shaft receiving a number of revolutions of the blade wheel, characterized by a lubrication device according to the invention for lubricating at least the bearing shaft.

It is precisely with such a device that it is of great importance that the bearing shaft remains well lubricated in order to minimize measurement errors as a result of an increase in friction in the device. Moreover, with such a device it is important that it can work for some time without any maintenance. Because a lubrication device according to the invention is used, the lubricant consumption is less than with devices according to the prior art.

In a preferred embodiment of the device according to the invention, the lubricant reservoir comprises a first chamber arranged outside the housing and a second chamber arranged in the housing, which chambers are connected to each other by at least one conduit. It is thus easy to check on the outside of the device whether there is still sufficient lubricant in the reservoir. The reservoir can thus be provided with, for example, a viewing glass with 1021344 '4. This simplifies checking and refilling the lubricant reservoir can be carried out without having to dismantle the device according to the invention.

In a preferred embodiment of the device according to the invention, the lubricant level control means are arranged in the first chamber. This also simplifies the construction, since, for example, an operating shaft for the lubricant level control means does not have to protrude all the way into the device, but only into the first chamber.

A spray vane of a lubrication device according to the invention can be arranged on the bearing shaft with such a measuring device.

These and other features of the invention are further elucidated with reference to the accompanying drawings.

Figure 1 shows in perspective view and with parts partially removed the volume measuring device according to the invention.

Figure 2 shows in perspective view a part of the device according to figure 1.

Figures 3A and 3B show the device according to Figure 1 in perspective view and with parts removed, the lubricant level being shown in two different positions.

Figure 4 shows a second embodiment in perspective view and with partially removed parts of a measuring device according to the invention.

Figures 5A and 5B show the device according to figure 4, wherein the liquid level is shown in two different positions.

Figures 6A and 6B show a third embodiment of a volume measuring device according to the invention with an embodiment of a lubricating device according to the invention mounted thereon.

Figure 7 shows the volume measuring device according to Figure 6 with another embodiment of a lubricating device according to the invention.

Figure 1 shows a first embodiment of a volume measuring device 1 according to the invention. This device 1 has a housing 2 with two flange parts 3,4. With these flange parts 3,4 the volume measuring device 1 can be arranged in a pipeline under pressure.

A paddle wheel 5 is arranged in the housing 2, which paddle wheel 5 is mounted in a bearing housing 6. A shaft 7 protrudes from this bearing housing 6 and is coupled to the paddle wheel 5. This shaft 7 can, for example, be coupled to a sensor in order to measure the number of revolutions of the impeller 5.

In figure 2 the measuring device 1 according to figure 1 is shown with parts partly removed. The paddle wheel 5 is mounted on a shaft 9, which is mounted in a first bearing 10 and a second bearing 11.

The shaft 7 is connected to the shaft 9 by means of two cone wheels 12,13. A spray vane 14 is furthermore arranged on the shaft 9.

Furthermore, a body 15 is rotatably mounted on a shaft 16, which can be rotated by means of a gear wheel 17 and a curb 18 by means of the operating shaft 19.

In Figure 3A the body 15 is rotated by means of the operating shaft 19 such that the body 15 is completely immersed in the lubricant 20. The liquid level is hereby increased, so that the vane 14 passes through the lubricant and thus causes the lubricant to splash to lubricate the bearings 10 and 11 and the bevel gears 12 and 13.

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In Fig. 3B, the operating shaft 19 is rotated such that the body 15 is rotated out of the lubricant 20, whereby the lubricant level is lowered and the vane 14 no longer comes into contact with the lubricant.

Figure 4 shows a second embodiment of a device according to the invention. This device largely corresponds to the device 1 according to figures 1-3. The same parts are therefore designated with the same reference numerals.

A part of the lubricating device 31 is visible on the outside of the housing 2.

5A and 5B, this lubrication device 31 is shown in more detail and with parts removed. The lubricator 31 has a first chamber 32 which is connected via a conduit 33 to the second chamber which is present in the lubrication housing 6. A return conduit 34 is provided for equalizing pressure differences between the first chamber 32 and the second chamber 6. A rotatable body 35 is provided in the first chamber 32, the axis of rotation of which extends through the wall of the first chamber 32. Furthermore, a sight glass 36 is provided in the chamber 32 to be able to check the lubricant level. In addition, a filler plug 37 is provided to be able to keep the amount of lubricant up to standard.

In figure 5A the body 35 is rotated such that it is immersed in the lubricant, whereby the lubricant level is increased. Figure 5B shows the situation in which the body 35 has been turned out of the lubricant and the lubricant level has been brought to a low level, so that no lubricant is used in the second chamber.

A device 40 for measuring volume is shown in Figures 6A and 6B. This device 40 has an inlet opening 41 and an outlet opening 42. 1 O 4 T flows through this. L 1 7 the gas, the volume of which must be measured. The device 40 has a housing 43 in which two rotors 44 and 45 are arranged. These rotors 44 and 45 are arranged with respect to each other and with respect to the housing 43 such that they completely close off the passage between the entrance 41 and the exit 42. The rotors 44 and 45 are coupled to each other by means of synchronizing wheels 46 and 47 such that the rotors 44 and 45 are rotated exactly 901 relative to each other. It is important to keep these synchronization wheels 46 and 47 well-lubricated in order to minimize wear. Namely, if too much wear is present on the synchronization wheels 46, 47, there is a risk that the rotors 44 and 45 rotate too much relative to each other, as a result of which they can get stuck. A vane 49 is mounted on the shaft 48 of the rotor 45. This vane rotates as a result of gas flowing in via the inlet 41. A second lubrication chamber is coupled to the housing 43, which is formed by closing plates 50 and a cover cap 51. A cover device 51 is placed on the cover cap 51, which works identically to the embodiment described above.

In figure 7 the volume measuring device 40 according to figure 6 is shown. Again, a vane 55 is mounted on the shaft 48 of the rotor 45. This rotates in a second lubrication chamber, which is formed by the outer wall of the housing 43 and the cover cap 56. A lubrication device 57 is placed on the cover cap 56. This lubrication device 57 comprises a cylindrical housing 58 in which a piston 59 is displaceable. The piston 59 can be moved by means of the piston rod 60. The piston 59 forms a movable inner wall of a first lubricating chamber 61. This first lubricating chamber 61 is connected to the second lubricating chamber via the channel 62. The lubricant level can be adjusted by displacing the piston 59, such that the vane 55 may or may not pass through the lubricant. Furthermore, an opening 63 is preferably provided in the piston 59 at the top, in order to be able to equalize the pressure on both sides of the piston.

The opening 63 is further provided to maintain the supply level and to prevent all lubricant from being squeezed into the first lubricating chamber when the piston is displaced.

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Claims (11)

CLAIMS 1. A lubricating device for lubricating mechanical parts in a high pressure environment, which lubricating device comprises a lubricant reservoir and lubricant level control means for optionally varying between the first, high level and a second, low level of the lubricant level. Lubricating device as claimed in claim 1, comprising splashing means for splashing lubricant from the first lubricant level. 3. Lubricating device according to claim 2, wherein the splashing means comprise a driven splashing vane. Lubricating device as claimed in any of the foregoing claims, wherein the lubricant level control means comprise an object movable into the lubricant. 5. Lubricating device as claimed in any of the foregoing claims, wherein the lubricant level control means comprise a movable wall part bounding the lubricant reservoir. Lubricating device according to claim 5, wherein the movable wall part is a piston. 7. Device for measuring the volume of a fluid, which device comprises: - a housing with an inlet opening and an outlet opening, - a paddle wheel arranged in the housing on a bearing shaft and a pick-up coupled to the shaft for receiving the number of revolutions of the blade wheel, characterized by 1 n? 1, k 4 '- a lubrication device according to any one of the preceding claims for lubricating at least the bearing shaft. 8. Device as claimed in claim 7, wherein the lubricant reservoir comprises a first chamber arranged outside the housing and a second chamber arranged in the housing, which chambers are connected to each other by at least one conduit. 9. Device as claimed in claim 8, wherein the lubricant level control means are arranged in the first chamber. Device as claimed in any of the claims 7-9, wherein a spatula vane is arranged on the bearing shaft. 11. Device for measuring the volume of fluid, which device comprises: 15. a housing with an inlet opening and an outlet opening, - at least two rotors mounted on an axis and coupled to each other, and - one with at least one pick-up of the shaft coupled pick-up for receiving the number of rotations of the rotors, characterized by a lubrication device according to any one of the preceding claims. * n 9 1 S 4 4