JP2006226419A - Oil air dispensing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reconcile equi-dispensation of oil air and simplification of piping design and furthermore to enable a device to prevent orifices from clogging. <P>SOLUTION: The orifices 8a-8d are mounted to each outlet part of each sub-distributor 6a of final place. Consequently, an oil air dispensing device is intended to simplify pipe arrangement 10a-10d because of lessening relative difference in pressure loss from a mixer 3 to each bearing (not shown in Figure) of bearing housings 7a-7d and being capable of intending to evenly dispense amount of lubrication of the oil air to each of the bearing (not shown in Figure). The device is capable of using it without clogging the orifices 8a-8d even when foreign matters mix into the sub-distributor 6a in case of using a filter 11a in the vicinity of an inlet part of the sub-distributor 6a (upstream side of installation of the orifices 8a-8d). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention is an oil-air lubrication system for bearings mainly used for rolls of various steelmaking facilities including guide roll bearings for continuous casting equipment, and achieves both equal distribution of oil and air and simplification of piping design, and an orifice. The present invention relates to an oil / air distribution device that can prevent clogging.

  FIG. 4 is a schematic diagram showing an example of the structure of an oil-air distribution device in a continuous casting equipment guide roll according to the related art.

  When using an oil-air lubrication system with various lubrication points, such as a guide roll for continuous casting equipment, the mixer 3 mixes the lubricating oil 1 supplied from the main unit and the compressed air 2 to generate oil air. Then, it is fed out from a plurality of pipes 4a-4d, and then roughly each bearing (shown in the figure) of each axle box 7a-7d via a plurality of stages of parent / child distributors 5a-5c, 6a-6c described later. Abbreviation).

  In some cases, the box is directly from the mixer, and each distributor is not provided.

  That is, taking the pipe 4a as an example, the pipe 4a is connected to a parent distributor 5a, and a plurality of pipes 9a-9c are branched from the parent distributor 5a.

  These pipes 9a-9c are connected to the child distributors 6a-6c, respectively. Taking the sub-distributor 6a as an example, a plurality of pipes 10a to 10d are branched from the sub-distributor 6a and are connected to shaft boxes 7a to 7d, respectively.

  Thus, in order to improve the efficiency of the pipes 4a... 9a... 10a..., Bearings (not shown) of the axle box 7a-7d are passed through the mixer 3 and the parent / child distributors 5a-5c and 6a-6c. It is transported to.

  Depending on the positional relationship of the rolls (not shown), the distance from the mixer 3 to the axle box 7a-7d is mixed from the shortest to the longest. In addition, it is not an exaggeration to say that all pipe lengths to the bearings (not shown) of the axle boxes 7a-7d are different.

  As described above, when the oil-air lubrication system is used in a place where the pipe lengths to the bearings (not shown) of the axle boxes 7a-7d are different, the difference in the lengths of the pipes 4a ... 9a ... 10a ... Since pressure loss differs depending on the pipe diameter and the like, it is difficult to evenly distribute the shaft boxes 7a-7d of the conventional oil-air lubrication system to the respective bearings (not shown).

  Further, when more efficient piping design is performed, the mixers 3 and the parent / child distributors 5a-5c, 6a-6c having different numbers of outlets are used. In this case, the number of outlets is different. Therefore, there is a difference in the pressure loss in the mixer 3 and the parent / child distributors 5a-5c and 6a-6c, and even distribution at the end is further difficult.

To solve this problem, in order to achieve an even distribution at the end of the oil / air flow rate, as disclosed in Patent Document 1, an orifice 8a-8j is provided in the pipe section near the end to eliminate this unbalance. Had a structure to do.
JP-A-7-301396 Japanese Utility Model Publication No. 7-25333 JP 2000-88187 A JP-A-6-201092 JP 2002-206692 A

  However, the method of Patent Document 1 has a problem in that an extra joint has to be newly installed in order to install the orifices 8a-8j at the sites of the pipes 4a,. .

  Further, the terminal pipe 10a-10j is frequently removed during maintenance and inspection. During this operation, foreign matter may enter the pipe 10a-10j and the orifices 8a-8j may be blocked by the foreign matter.

  The present invention has been made in view of the above-described circumstances, and is an oil-air lubrication system for bearings mainly used for rolls of various steelmaking equipment including guide roll bearings for continuous casting equipment. It is an object of the present invention to provide an oil / air distribution device that achieves both distribution and simplification of piping design and enables prevention of clogging of an orifice.

In order to achieve the above object, an oil / air distributor according to claim 1 of the present invention mixes lubricating oil and compressed air supplied from a main unit to a mixer, and generates oil air in the mixture. In the oil-air distribution device that sends out from the piping and then distributes to each bearing of the axle box,
An orifice is installed in any of the mixer, the axle box, and the bearing.

According to a second aspect of the present invention, there is provided an oil-air distribution device that mixes lubricating oil and compressed air supplied from a main unit to a mixer, generates oil air with the mixture, and sends it out from a pipe. In the oil-air distribution device that distributes to each bearing of the axle box via
An orifice is installed in any of the mixer, the distributor, the axle box, or the bearing.

  The oil / air distribution device according to claim 3 of the present invention is characterized in that a filter is installed upstream of the orifice.

  The oil / air distribution device according to claim 4 of the present invention is characterized in that the distributor is plural and / or the piping is plural and / or the axle box is plural. To do.

  According to the present invention, since an orifice is installed in any of a plurality of distributors, axle boxes, or bearings, a large pressure loss can be intentionally generated.

  Therefore, the relative difference in pressure loss from the mixer to each bearing of the axle box can be reduced, and the efficiency of piping design can be improved while the oil-air lubrication amount is evenly distributed to each bearing.

  In addition, since the filter is installed on the upstream side of the orifice, it is possible to prevent the orifice from being troubled by foreign matter.

  Hereinafter, an oil-air distribution device according to an embodiment of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a schematic diagram showing a structural example of an oil-air distribution device in a guide roll for continuous casting equipment according to the first embodiment of the present invention.

  The mixer 9 and the parent distributor 5a shown in FIG. 4 are connected to the piping 9a in the oil / air distributor shown in FIG.

  In some cases, the box is directly from the mixer, and each distributor is not provided. The same applies to the following embodiments.

  A plurality of pipes 10a-10d are branched from the child distributor 6a, and are connected to the axle boxes 7a-7d, respectively.

  In the present embodiment, the orifices 8a to 8d are attached to the outlet portions of the child distributors 6a at the final location.

  A large pressure loss can be intentionally generated by the orifices 8a to 8d. Therefore, it is possible to reduce the relative difference in pressure loss from the mixer 3 to each bearing (not shown) of the axle box 7a-7d and to evenly distribute the lubrication amount of oil air to each bearing (not shown). it can.

  By installing the orifices 8a-8d at this location, it is not necessary to install the orifices 8a-8d on the pipes 10a-10d, and the pipes 10a-10d can be simplified.

  In the present embodiment, when the filter 11a is used in the vicinity of the entrance portion of the child distributor 6a (upstream from the place where the orifices 8a-8d are installed), when foreign matter is mixed into the child distributor 6a. Can be used without clogging the orifices 8a-8d.

(Second Embodiment)
FIG. 2 is a schematic diagram showing a structural example of an oil-air distribution device in a guide roll for continuous casting equipment according to the second embodiment of the present invention.

  The mixer 9 and the parent distributor 5a shown in FIG. 4 are connected to the pipe 9a in the oil / air distributor shown in FIG.

  A plurality of pipes 10a-10d are branched from the child distributor 6a, and are connected to the axle boxes 7a-7d, respectively.

  In the present embodiment, the orifices 8n-8q are attached to the axle boxes 7a-7d.

  This orifice 8n-8q can intentionally generate a large pressure loss. Therefore, it is possible to reduce the relative difference in pressure loss from the mixer 3 to each bearing (not shown) of the axle box 7a-7d and to evenly distribute the lubrication amount of oil air to each bearing (not shown). it can.

  Further, by installing the orifices 8n-8q at this location, it is not necessary to install the orifices 8n-8q on the pipes 10a-10d, and the pipes 10a-10d can be simplified.

  Furthermore, when the filter 11b-11e is used in the vicinity of the entrance section of the axle box 7a-7d (upstream from the place where the orifices 8n-8q are installed), even if foreign matter is mixed into the axle box 7a-7d, The orifice 8n-8q can be used without clogging.

(Third embodiment)
FIG. 3 is a cross-sectional view of a shaft box of an oil / air distribution device in a guide roll for continuous casting equipment according to a third embodiment of the present invention.

  The mixer 3 and the parent / child distributors 5a-5c and 6a-6c shown in FIG. 4 are connected to the shaft box 7a in the oil / air distributor shown in FIG. Reference numeral 12 is a roll, reference numerals 13a and 13b are covers, reference numeral 14 is a bearing, and reference numerals 15a and 15b are oil seals.

  In the present embodiment, the orifice 8q is attached to the outer ring of the bearing 14.

  The orifice 8q can intentionally generate a large pressure loss. Therefore, it is possible to reduce the relative difference in pressure loss from the mixer 3 to each bearing (not shown) of the axle box 7a-7d and to evenly distribute the lubrication amount of oil air to each bearing (not shown). it can.

  Further, by installing the orifice 8q at this location, it is not necessary to install the orifice 8q on the pipe 10a-10j, and the pipe 10a-10j can be simplified.

  Further, when the filter 11e is used in the vicinity of the entrance of the axle box 7a (upstream from the place where the orifice 8q is installed), the orifice 8q is not clogged even if foreign matter is mixed into the outer ring of the bearing 14. Can be used.

  In addition, this invention is not limited to embodiment mentioned above, A various deformation | transformation is possible.

  Also, there may be a direct box from the mixer, and there may be no distributor.

  Furthermore, an orifice may be installed in the mixer.

It is a schematic diagram which shows the structural example of the oil-air distribution apparatus in the guide roll for continuous casting installations concerning 1st Embodiment of this invention. It is a schematic diagram which shows the structural example of the oil-air distribution apparatus in the guide roll for continuous casting installations concerning 2nd Embodiment of this invention. It is sectional drawing of the axle box of the oil-air distribution apparatus in the guide roll for continuous casting installations concerning 3rd Embodiment of this invention. It is related and is a schematic diagram which shows the structural example of the oil-air distribution apparatus in the guide roll for continuous casting installations conventionally.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Lubricating oil 2 Compressed air 3 Mixer 4a-4d Piping 5a-5c Parent distributor 6a-6c Child distributor 7a-7d Shaft box 8a-8j Orifice 9a-9g Piping 10a-10j Piping 11-11e Filter 12 Roll 13a, 13b Cover 14 Bearing 15a, 15b Oil seal

Claims (4)

In the oil-air distribution device that mixes the lubricating oil and compressed air supplied from the main unit to the mixer, generates oil air with the mixture, sends it out from the piping, and then distributes it to each bearing of the axle box.
An oil-air distribution device, wherein an orifice is installed in any of the mixer, the axle box, and the bearing. Lubricating oil and compressed air supplied from the main unit to the mixer are mixed, oil air is generated from the mixture, sent out from the piping, and then distributed to the bearings of the axle box via the distributor. In the dispensing device,
An oil-air distribution device, wherein an orifice is installed in any of the mixer, the distributor, the axle box, or the bearing.   3. The oil / air distribution device according to claim 1, wherein a filter is installed upstream of the orifice.   4. The oil air according to claim 1, wherein there are a plurality of distributors and / or a plurality of pipes and / or a plurality of axle boxes. 5. Dispensing device.

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