Swarf flushing system

Information

  • Patent Application
  • 20020152852
  • Publication Number
    20020152852
  • Date Filed
    February 14, 2002
    22 years ago
  • Date Published
    October 24, 2002
    22 years ago
Abstract
A swarf management system to remove cut material (swarf) from the surfaces of a cutting machine comprises a fluid receptacle, pump means to deliver fluid from a sump to the receptacle, and a flow line extending from the receptacle from which fluid flowing from the receptacle may be directed across a machine surface for the removal of swarf therefrom. Outflow means is provided, conveniently in the form of one or more syphons to cause fluid to flow from the receptacle only intermittently, thereby producing intermittent large volume flow of fluid over the machine surface.
Description


BACKGROUND OF THE INVENTION

[0001] 1. Technical Field of the Invention


[0002] This invention is concerned with improvements relating to machine tools, particularly machine tools during use of which large quantities of cut material (conventionally termed “swarf”) are produced.


[0003] 2. Brief Description of the Related Art


[0004] In the production of a machined part a cutting tool, conventionally rotated at high speed, is traversed across a workpiece secured to a machine table mounted for movement above a machine bed, the cutting tool removing metal from the workpiece in stages, the removed metal constituting scrap or swarf. To ensure high quality cutting action, a cutting fluid is conventionally directed to the interface between the cutting tool and the workpiece, providing lubrication for the cutting action, washing cut material from the immediate vicinity of the interface, and to maintain the temperature of the cutting tool at a preferable low temperature.


[0005] Cut material falls away from the workpiece onto surfaces of the machine, such as the machine bed or floor, or a cover for the internal machinery of the machine, and particularly for workpieces of aluminium and similar materials having a high cut rate, the build up of swarf can be considerable. For this purpose it is conventional to provide in a machine tool a swarf management system, to remove the swarf from the machine bed, and other surfaces upon which the material may accumulate. The management system may comprise removal means in the form of scraper bars which move across the surface to scrape the material onto a conveyor belt, or means to produce liquid flow streams to wash the material onto the conveyor belt, or both. Where wash bars are utilised, it is difficult to locate these without interference with the normal operational movement of the machine parts, and they may easily be knocked out of position in use.


[0006] Where a fluid flow stream is utilised it is conventional practice to utilise the same fluid as is used as the cutting fluid, since inevitably the two streams will become inter-mixed.


[0007] Clearly, theoretically, no problem needs to be encountered in maximising the flow of cleaning fluid to ensure a complete removal of swarf from machine surfaces, enabling the scrap material conveniently to be conveyed away from the immediate vicinity of the machine, and for the cutting and cleaning fluids to be separated from the scrap and returned conveniently to a storage tank. However, a large flow rate of cleaning fluid suffers from a number of disadvantages, including the following:


[0008] a) the need to retain large volumes of fluid in a tank;


[0009] b) the need to provide a large filtering capacity, to filter out scrap material;


[0010] c) the need to utilise large pumps to provide a satisfactory flow of the cleaning fluid over the machine surfaces;


[0011] d) the loss of water from the cleaning fluid through evaporation;


[0012] e) the contamination of the atmosphere with evaporate.


[0013] Additionally, currently cutting fluids may comprise oxidation inhibitors, bacteriological inhibitors, lubricants etc., and are thus not inexpensive, and there are thus further disadvantages in utilising high flow rates of liquid for the removal of the scrap.


[0014] These problems mean that current swarf management systems are installed only in larger and more expensive machine tools.



SUMMARY OF THE INVENTION

[0015] The invention has been devised in relation to a vertical cutting machine, particularly for the production of machined metal parts, in which context the invention will hereinafter be described. It is however to be understood that the invention is not limited to this specific context, and may be utilised generally, eg. in turning, milling, drilling, reaming, grinding machines, or in machines designed to operate on non-metallic material, eg. in the production of plastic workpieces. Thus the term “swarf” is to be understood as applying to all cut materials, including both metal and plastics.


[0016] According to this invention there is provided a method of cleaning cut material from a machine tool, in which a cleaning fluid is flowed across surfaces of the machine intermittently.


[0017] In this manner the cleaning fluid may be flowed at a higher volume than would otherwise be desirable or practical. Thus, a higher flow rate may be utilised periodically to wash larger volumes of swarf from the machine surfaces.


[0018] In this manner not only may swarf more easily be removed by the high volume flow, but also the overall flow rate of the cleaning fluid through the system may be reduced.


[0019] Preferably cleaning fluid flows across one of the machine surfaces to a channel leading to a sump and further cleaning fluid is flowed through the channel to the sump intermittently. Thus intermittent flows of cleaning fluid may be used to sweep swarf from the cutting surface to the outside of the machine.


[0020] Preferably, a continuous flow of cleaning fluid is utilised in the method, the cleaning fluid flowing into a receptacle from which fluid flows periodically in a cleaning operation.


[0021] Thus, preferably means is utilised to restrain significant flow of fluid from the receptacle until a substantial volume has accumulated within the receptacle.


[0022] Conveniently the substantial volume is at least 2 liters and is preferably 5 liters or more.


[0023] The intermittent flow from the receptacle may be achieved by the use of valve mechanism, eg. periodic-operating valve mechanism, but preferably is achieved by the use of a syphon, thus obviating the use of moving parts.


[0024] Preferably a double syphon is utilised, enabling a high outflow through a large diameter pipe to be achieved with a relatively slow in-feed rate.


[0025] Preferably the quantity which is flowed intermittently is between three and twenty liters, conveniently between five and ten liters, and is conveniently outflowed over a period of five seconds or less, eg. two or three seconds.


[0026] Thus the outflow rate will typically fall within the range 36-600 liters per minute.


[0027] Preferably the time interval between successive outflows is between thirty seconds and two minutes, conveniently an outflow occurring every minute or thereabouts.


[0028] Conveniently such outflows are provided at a plurality of parts of the machine, to ensure swarf is washed from all appropriate or desirable surfaces, and in a typical machine four such outflows may be utilised, with independent flow rates and time intervals selected in accordance with the location of the outflow and the quantities to be cleared.


[0029] According to this invention there is also provided a machine tool comprising means to flow fluid across one or more surfaces of the machine to remove swarf, said means comprising:


[0030] a) a fluid receptacle;


[0031] b) means to deliver fluid to the receptacle;


[0032] c) a flow line extending from the receptacle to one or more machine surfaces through which fluid may flow from the receptacle in the removal of swarf from the surface; and


[0033] d) outflow means to cause fluid to flow from the receptacle through the flow line only intermittently.


[0034] Preferably the delivery means comprises a pump operative to pump fluid to the receptacle at a substantially constant flow rate of between 2 and 10 liters per minute, conveniently between 5 and 7 liters per minute, and the outflow means is operative to cause fluid to be delivered therefrom intermittently at a higher rate than the delivery of fluid thereto.


[0035] Conveniently said outflow means is operative to cause the receptacle to discharge its contents subsequent to the accumulation in the container of a sufficient quantity of fluid to produce an outflow of a desired intensity (volume or velocity). Preferably said outflow means is operative to produce such an outflow at an interval of between thirty seconds and one hundred and twenty seconds. Preferably the receptacle discharges its contents in a period of time conveniently of between 2 and 7 seconds, conveniently about 3 to 5 seconds, and conveniently the volume of fluid discharged is substantially the whole contents of the receptacle.


[0036] Preferably the machine comprises a plurality of such fluid receptacles, such delivery means, such flow line and such outflow means to cause liquid to flow from the receptacle, operative to cause fluid to flow across a plurality of surfaces of the machine to remove swarf.


[0037] Preferably the machine comprises a channel leading to a sump into which cutting fluid and swarf are flowed, in which at least one of said plurality of fluid receptacles, delivery means, flow line, and outflow means is operative to cause fluid to flow through the channel intermittently. Conveniently the fluid and swarf are separated in the sump.


[0038] Conveniently located in the sump means is a pump means operative to deliver fluid from the sump to the or each receptacle at a substantially constant flow rate.


[0039] Preferably such pump means is also operative to delivery fluid to the cutting head of the machine.


[0040] According to this invention there is also provided a swarf management system comprising a fluid receptacle, pump means to deliver fluid from a sump to the receptacle, a flow line extending from the receptacle from which fluid flow may be directed across a machine surface for the removal of swarf therefrom, and outflow means to cause fluid to flow from the receptacle through the flow line only intermittently.







BRIEF DESCRIPTION OF THE DRAWINGS

[0041] A better understanding of the present invention will be had upon reference to the following description in conjunction with the accompanying drawings in which like numerals refer to like parts, and wherein:


[0042]
FIG. 1 is a schematic perspective view of a machine tool including a swarf flushing system according to a first embodiment of the present invention;


[0043]
FIG. 2 is an exploded perspective view of a chip conveyor region of the machine tool shown in FIG. 1, showing a sump portion thereof;


[0044]
FIG. 3 shows schematically a receptacle portion of the swarf flushing system shown in FIG. 1;


[0045]
FIG. 4 shows schematically a side view of a swarf flushing system according to another embodiment of the present invention, having a channel through which swarf is flushed;


[0046]
FIG. 5 shows schematically a front view of the swarf flushing system shown in FIG. 4; and,


[0047]
FIG. 6 shows schematically a top view of the swarf flushing system shown in FIG. 4.







DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0048] There will now be given a detailed description to be read with reference to the accompanying drawings, of two machines which are preferred embodiments of this invention, each having being selected for the purposes of illustrating the invention by way of example, the machines comprising swarf management systems which are also illustrative of the invention in certain of its aspects.


[0049] The machine which is the first embodiment of this invention is a machine tool of conventional type, which will be described hereinafter only in general terms insofar as it is necessary to understand the present invention. The machine comprises a floor plate 6 above which a machine bed 8 is mounted, and mounted for movement across the machine bed is a machine table 10, to which a workpiece (not shown) may be secured in conventional manner. Extending upwardly from the machine bed is a column 12, comprising guide-ways 14 on which a column head (not shown) may be mounted for movement towards and away from the machine table.


[0050] The construction and arrangement will conventionally be such as to permit relative movement to take place between a tool carried by the tool head and a workpiece mounted on the machine table in at least three orthogonal axes, to permit the production of a machine part to a desired design, from a workpiece, the moving parts of the machine being enclosed within a plastic or metal cover 36, shown in dotted lines in FIG. 1.


[0051] Mounted on the floor plate 6 is a cover 7, within which internal machinery for the machine is located, including for example the machine motor, ball screw drives, and control devices.


[0052] In the use of the machine in performing a cutting operation on a workpiece, cut material, typically known as and referred to hereinafter as swarf, will fall onto the machine table, onto the cover, onto the floorplate, and onto other surfaces of the machine, and it is necessary for this material to be removed. For this purpose on either side of the machine is a housing 18, into the interior of which swarf may be caused to move, either by the use of cleaning fluid in conventional manner, or by the use of scraper bars, or by hand.


[0053] Thus, each housing 18 provides a sump chamber 19 (see FIG. 2), into which cutting liquid and cut material may pass conveniently through an opening 20. Located within the sump chamber is a conveyor 22, conveniently a scraper conveyor, operative to transfer solid material from the sump chamber and through an upwardly inclined section 30, to a discharge point 32, from which cut material may be deposited into a container, for accumulation and subsequent removal. During passage of the solid material from the sump chamber, particularly during passage through the inclined section 30, cutting fluid flows backwardly into the sump chamber.


[0054] Located in the sump chamber is a pump chamber 24, into which fluid flows from the sump chamber, through a filter material, and from which fluid is flowed by the use of a pump 26, as will hereinafter be described.


[0055] Liquid which accumulates in the left hand sump chamber 18a is delivered to the right hand sump chamber 18b by a flow pipe, allowing a single pump 26 to be utilised in the operation of the machine. Thus, conveniently the pump operates, in the preferred embodiment, at a flow rate of 25 liters per minute, 5 liters per minute for each of the receptacles 40, and 5 liters per minute being directed to the cutting head of the machine, for lubrication of the cutting tool during operation. However, as will self-evidently be appreciated, two pumps of smaller capacity may be utilised, one operative within each of the two sump chambers.


[0056] Located at any convenient position on the machine, typically at the four locations shown in FIG. 1 of the drawings, is a fluid discharge receptacle 40, to which fluid is delivered from the pump 26, and from which fluid flows through an outlet duct 48 directed towards those surfaces of the machine where it is desired to remove accumulated swarf.


[0057] The receptacle 40 is in the form of a double-syphon, comprising a first-stage syphon 44 and a second-stage syphon 46 (see FIG. 3a). Typically fluid is delivered to the first-stage syphon through a pipe 42, of narrow bore, conveniently provided by hose having diameter of ½″ (12.5 mm), through which fluid is flowed from pump 26 at a rate of 5 liters per minute. The capacity of the first-stage syphon 44 is typically 2 liters, and thus after 24 seconds or so the first-stage syphon is filled, and liquid is discharged therefrom through the outlet 45 of the first-stage syphon, into the second-stage syphon, conveniently utilising a hose of larger diameter than the inlet 42, typically of 1″ diameter (25 mm), (see FIG. 3b).


[0058] The hose forming the syphons has a flattened, generally oval cross-section at the top of its loop, which is wider in the horizontal direction to the vertical direction. This promotes the syphon action and prevents air bubbles forming in the hose.


[0059] The capacity of the second-stage syphon 46 is typically 5 liters, and thus after the dispensing into the second stage syphon 46 of (typically) 3 outflows from the first-stage syphon, the second-stage syphon 46 is filled, and liquid is outflowed therefrom through the hose 48, which may be of larger diameter, conveniently 1½ (38 mm), (see FIG. 3d). This enables substantially the entire contents of the second-stage syphon 46 to be dispensed through the outlet 48 within 2 or 3 seconds, producing a high flow rate across the surfaces of the machine, and ensuring a thorough removal of accumulated swarf, to flow onto the floorplate, and through the openings 20 into the sump chambers 19.


[0060] As will be seen from FIG. 1, the machine which is the first embodiment of this invention comprises four receptacles 40, to each of which liquid is delivered from the pump 26 at the low flow rate of (typically) 5 liters per minute, each of the receptacles 40 producing a high intermittent flow of liquid to wash the surfaces of the machine clear of accumulated swarf.


[0061]
FIGS. 4, 5 and 6 show a machine which is the second embodiment of this invention, generally of conventional type, which will be described hereinafter only in general terms insofar as it is necessary to understand the present invention. The machine is generally similar to the first embodiment, but conveyers to each side of the machine are replaced by a front flushing system.


[0062] The machine has three receptacles 54, two of which indicated by the numerals 54a and 54b are connected to outlet ducts 56 which are located at either side of the machine, towards the rear of the machine. The outlets ducts 56 extend to side gulleys 58, which slope towards a front gully 60, which has a square cross-section. These flushing systems function as described above to wash swarf from the surfaces of the machine.


[0063] The third receptacle 54 is connected to an outlet duct 62 extending to one side of the front gully 60. The gully slopes down to an outlet 64 at the other side of the machine. Thus as fluid is intermittently flushed through the gully, swarf is carried across the machine to the outlet 64.


[0064] The receptacle 54c which serves the front flushing system 52 is a double syphon system similar to those described in the first embodiment, but preferably having a larger capacity with a first-stage syphon of approximately 2 liters capacity and a second-stage syphon of approximately eight liters capacity. Liquid is delivered to the receptacle from a pump 66, which also delivers liquid to the cutting head and to the each of the other two receptacles, at a rate of approximately 5 liters per minute. The hose which carries outflow from the front flushing receptacle 54c is sized to provide a peak flow from the receptacle of approximately 200 liters per minute, and to outflow the whole of the contents of the second-stage syphon within 2 or 3 seconds. This provides a flow with sufficient force to move the swarf along the front gully 60 of the machine.


[0065] The front gully 60 and the side gullies 58 are polished, having a smooth surface which enables swarf to flow more easily through the gullies.


[0066] As shown in FIGS. 4,5 and 6, fluid and swarf flows through the outlet 64 to a sump 70. This contains a tray 82 (FIG. 4) having a perforated surface which acts as a filter and enables the fluid to be recirculated. The swarf is then elevated by an auger screw 68 to a height of approximately 1 m. This allows a swarf bin 85 (shown in dotted lines in FIG. 6) to be placed under the outlet to collect the swarf.


[0067]
FIG. 6 shows a top view of the front flushing system. The machine tool is shown at the centre of the Figure, comprising a support column 72, a cutting head 74 and a machining table 76. Swarf is flushed to either side of the machining table 76 by the flow of fluid from the cutting head of the machine, and flows into the side gullies 58. The intermittent flushing system described earlier flows the swarf into the front gully 60 and from there through the outlet 64 into the sump 70. The sump 70 has angled internal walls as shown to aid swarf removal, and leads to the system pump 66 which recirculates the fluid back to the three receptacles 54 for the flushing system and to the cutting head.


[0068] A control screen 90 is situated at the front of the machine. It provides an overview of the machine's operation and allows the operator to control the machine accordingly.


[0069] Whilst in the preferred embodiments the intermittent flow rate is achieved by the use of syphons, other means may be utilised to put the invention into practice if desired.


[0070] For example, the receptacle to which fluid is delivered may be provided with a valve mechanism, conveniently time-operated, which may be caused to open at pre-determined periods, to cause the contents of the receptacle to be discharged in a short period of time, to produce the desired “flushing” action


[0071] In the present specification “comprise” means “includes or consists of” and “comprising” means “including or consisting of”.


[0072] The features disclosed in the foregoing description, or the following claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately, or in any combination of such features, be utilised for realising the invention in diverse forms thereof.


[0073] The foregoing detailed description is given primarily for clearness of understanding and no unnecessary limitations are to be understood therefrom for modifications can be made by those skilled in the art upon reading this disclosure and may be made without departing from the spirit of the invention and scope of the appended claims.


Claims
  • 1. A method of cleaning cut material from a machine tool, in which a cleaning fluid is flowed across at least one surface of the machine tool intermittently.
  • 2. The method according to claim 1, wherein said cleaning fluid flows to a channel leading to a sump, and wherein said cleaning fluid is flowed through the channel to the sump intermittently.
  • 3. A method according to claim 1, wherein a continuous flow of cleaning fluid is utilised, the cleaning fluid flowing into a receptacle from which fluid flows periodically in a cleaning operation.
  • 4. A method according to claim 3, wherein means is provided to restrain significant flow of fluid from the receptacle until a substantial volume has accumulated within the receptacle.
  • 5. A method according to claim 4, wherein the substantial volume is at least 2 liters.
  • 6. A method according to claim 5, wherein the substantial volumne is at least 5 liters.
  • 7. A method according to claim 1, wherein the intermittent flow is achieved by the use of a valve mechanism.
  • 8. A method according to claim 1, wherein the intermittent flow is achieved by the use of a syphon.
  • 9. A method according to claim 1, wherein the intermittent flow is achieved by the use of a double syphon.
  • 10. A method according to claim 9, wherein the quantity which is flowed intermittently is between 3 and 20 liters
  • 11. A method according to claim 10, wherein the quantity which is flowed intermittently is between 5 and 10 liters.
  • 12. A method according to claim 1, wherein the time interval between successive outflows is between 30 seconds and 2 minutes.
  • 13. A machine tool, comprising means to flow fluid across one or more surfaces of the machine to remove swarf, said means comprising: a) a fluid receptacle; b) means to deliver fluid to the receptacle; c) a flow line extending from the receptacle to one or more machine surfaces through which fluid may flow from the receptacle in the removal of swarf from the surface; and d) outflow means to cause fluid to flow from the receptacle only intermittently.
  • 14. A machine tool according to claim 13, wherein the delivery means comprises a pump operative to pump fluid to the receptacle at a flow rate of between 2 and 10 liters per minute.
  • 15. A machine tool according to claim 14, wherein the pump is operative to pump fluid at a flow rate of between 5 and 7 liters per minute.
  • 16. A machine tool according to one of claim 12, wherein the outflow means is operative to cause fluid to be delivered therefrom intermittently at a higher rate than the delivery of fluid thereto.
  • 17. A machine tool according to claim 12, wherein said outflow means is operative to discharge the receptacle in a period of time between 2 and 7 seconds.
  • 18. A machine tool according to claim 17, wherein said outflow means is operative to discharge the receptacle in a period of time between 3 and 5 seconds.
  • 19. A machine tool according to claim 12, wherein the volume of fluid discharged is substantially the whole of the contents of the receptacle.
  • 20. A machine tool according to claim 12, further comprising a plurality of such fluid receptacles, said delivery means, said flow line and said outflow means to cause liquid to flow from the receptacle being operative to cause fluid to flow across a plurality of surfaces of the machine.
  • 21. A machine tool according to claim 20, further comprising a channel leading to a sump into which cutting fluid and swarf are flowed, in which at least one of said plurality of fluid receptacles, delivery means, flow line and outflow means to cause liquid to flow from the receptacle is operative to cause fluid to flow through the channel intermittently.
  • 22. A machine tool according to claim 21, wherein the fluid and swarf are separated in the sump.
  • 23. A machine tool according to claim 20, further comprising a pump means located in the sump and which is operative to deliver fluid to the or each receptacle at a substantially constant flow rate.
  • 24. A machine tool according to claims 21, wherein the pump means is operative to deliver fluid to the cutting head of the machine.
  • 25. A swarf management system, comprising: a) fluid receptacle; b) pump means to deliver fluid from a sump to the receptacle; c) a flow line extending from the receptacle from which fluid flow from the receptacle may be directed across a machine surface for the removal of swarf therefrom; and d) outflow means to cause fluid to flow from the receptacle only intermittently.
  • 26. A swarf management system according to claim 25, wherein the outflow means is adapted to generate an intermittent flow of between 36 and 600 liters per minute.
  • 27. A swarf management system according to claim 24, wherein the outflow means is operative to produce an outflow every 30-120 seconds.
Priority Claims (1)
Number Date Country Kind
0103959.3 Feb 2001 GB