CN203887527U - Highlight machine base - Google Patents

Highlight machine base Download PDF

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Publication number
CN203887527U
CN203887527U CN201420257409.7U CN201420257409U CN203887527U CN 203887527 U CN203887527 U CN 203887527U CN 201420257409 U CN201420257409 U CN 201420257409U CN 203887527 U CN203887527 U CN 203887527U
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CN
China
Prior art keywords
installation portion
support portion
crossbeam
installation
face
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Expired - Fee Related
Application number
CN201420257409.7U
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Chinese (zh)
Inventor
王三平
何佳佩
刘振凯
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CHANGZHOU JINGHUA NUMERICAL EQUIPMENT Co Ltd
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CHANGZHOU JINGHUA NUMERICAL EQUIPMENT Co Ltd
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Priority to CN201420257409.7U priority Critical patent/CN203887527U/en
Application granted granted Critical
Publication of CN203887527U publication Critical patent/CN203887527U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

The utility model provides a highlight machine base comprising a base body and a bed body which are of a split structure. The bed body is fixedly mounted above the base body through an inner bolt, the base body comprises a front supporting portion, a rear supporting portion, a liquid discharging portion, a retaining portion and a mounting portion, and a left notch and a right notch are formed in a position where the front supporting portion and the rear supporting portion of the base body are connected; the bed body comprises a foundation supporting portion, a left guide rail mounting portion, a driving mechanism mounting portion, a right guide rail mounting portion, a cross-beam left mounting portion and a cross-beam right mounting portion, the left guide rail mounting portion, the driving mechanism mounting portion and the right guide rail mounting portion are arranged above the foundation supporting portion, and the cross-beam left mounting portion and the cross-beam right mounting portion are arranged on the left side and the right side of the rear portion of the foundation supporting portion respectively. Compared with an existing cast iron or granite integrated highlight machine base, the highlight machine base has the advantages of low cost, convenience in carrying and assembling, high shock absorbing performance, high heat stability, high corrosion resistance and capability of substantially improving processing accuracy of a highlight machine.

Description

A kind of high ray machine pedestal
Technical field
The utility model relates to high ray machine and technical field of engraving, is specifically related to a kind of high ray machine pedestal that can effectively promote high ray machine machining accuracy.
Background technology
High ray machine is a kind of precision processing machine of naming according to the feature of its converted products, and another name claims again edge-falled machine, bright border machine, the high ray machine of chamfering etc.; The similar engraving machine of its profile (or carving machine).High ray machine is used for the high light face processing of metal, nonmetallic materials or accessory, and the product surface of its processing requires to reach mirror effect conventionally, can't see knife mark.High ray machine is high more a lot of than engraving machine to the requirement of technology and accessory.High ray machine is very strict to the requirement of machining accuracy aspect.Affect a lot of because have of high ray machine machining accuracy, one of them important factor is the pedestal of high ray machine, and the stability of pedestal has direct decisive influence to the precision of high ray machine.Common high ray machine pedestal, be generally cast iron integral piece, although cast iron integral piece is easily manufactured, cost is lower, but at least there is following defect in the pedestal of cast iron integral piece: the one, and because there is pore, sand holes and cinder hole in foundry goods inside, have influence on the rigidity of foundry goods, thereby while using, affect the machining accuracy of high ray machine; The 2nd, foundry goods pedestal does not belong to hot investment casting, and the wall thickness of foundry goods pedestal is often inhomogeneous, and while causing using, foundry goods pedestal produces deformation, thereby affects the precision of high ray machine; The 3rd, the surface of foundry goods pedestal hardness after processing differs larger, easily cause working face wearing and tearing inhomogeneous, thereby while causing high ray machine to use, machining accuracy is greatly affected; The 4th, the pedestal of cast iron integral piece, shock absorption is poor, and hot voltage stabilizing is qualitative bad, and not strong to the corrosion resistance of the liquid such as cutting fluid, cooling fluid while using.For this problem, also there is on the market the high ray machine pedestal that whole employing granite is made, although overcome the some shortcomings of ironcasting pedestal, also there are the problems such as machining accuracy is difficult to adjust, deadweight is very heavy, carrying and installation is inconvenient, cost higher price is more expensive in it.
Utility model content
The purpose of this utility model is: for problems of the prior art, provide a kind of base and lathe bed split type high ray machine pedestal, by the structural design of base and lathe bed, make high ray machine pedestal cost of the present utility model relatively low, carrying and easy to assembly, shock absorption, heat endurance and corrosion resistance are strong, can significantly promote the machining accuracy of high ray machine.
The technical solution of the utility model is: a kind of high ray machine pedestal of the present utility model, and its design feature is: comprise base and lathe bed; Lathe bed is fixedly mounted on the top of base by inner bolt; Base comprises front support portion, rear support portion, discharge opeing portion, stop part and installation portion; Front support portion integral body is cuboid; On the left surface of front support portion and right flank, be respectively provided with respectively 1 hole for hoist; Rear support portion integral body is cuboid; The left surface of rear support portion is provided with left hole for hoist; The right flank of rear support portion is provided with right hole for hoist; The height of rear support portion is identical with front support portion, the left and right of rear support portion to width be greater than front support portion; Front support portion is connected with the integral middle of the front end face of rear support portion by end face thereafter, thereby in the left side of base, anterior and front portion, right side forms respectively 1 breach, is respectively left breach and right breach;
The left and right of discharge opeing portion is identical to width with the left and right of rear support portion to width; The front and back that the sagittal length of discharge opeing portion is greater than front support portion are to the front and back of length and rear support portion to length sum; The rear end face of discharge opeing portion is concordant with the rear end face of rear support portion, and the front portion of discharge opeing portion protrudes from forward the front end face of front support sector; Discharge opeing portion is connected with the upper surface of front support portion and the upper surface one of rear support portion by its lower surface; The top that the anterior left side of discharge opeing portion is positioned at left breach is provided with left porus excretorius; The top that the anterior right side of discharge opeing portion is positioned at right breach is provided with right porus excretorius;
Stop part is square frame-shaped; Stop part consists of 4 that the are positioned at front, rear, left and right mutual vertical connections of rectangular plate body part; Stop part is connected with the upper surface one of discharge opeing portion surrounding by its lower surface;
Installation portion is located in stop part; Installation portion is connected with the upper surface one of discharge opeing portion by its lower surface; The front side of installation portion and rear side divide left and right to be respectively provided with respectively 2 tapped installing holes.
Further scheme is: above-mentioned base also comprises bottom reinforcement; Bottom reinforcement is intersecting parallels reinforcement; Bottom reinforcement is arranged on the lower surface of front support portion and rear support portion.
Further scheme is: the middle, bottom of the leading flank of the front support portion of above-mentioned base is provided with 1 Damping cushion installing hole; The left Damping cushion installing hole in middle, left surface bottom of rear support portion; The middle, right flank bottom of rear support portion is provided with right Damping cushion installing hole.
Further scheme is: left porus excretorius and the right porus excretorius of the discharge opeing portion of above-mentioned base are back taper through hole, and its underpart protrudes from the lower surface of discharge opeing portion downwards; The left and right sides at the upper end open place of left porus excretorius is provided with left collecting tank; The left and right sides at the upper end open place of right porus excretorius is provided with right collecting tank.
Further scheme is: above-mentioned installation portion comprises front installation portion, middle interconnecting piece and rear installation portion; The front installation portion plate body shape that is rectangle, the left and right of front installation portion to width identical with the distance between the right-hand member of the left collecting tank of discharge opeing portion and the left end of right collecting tank; Front installation portion is arranged on the front side, upper end of discharge opeing portion; 2 tapped installing holes of the front side of above-mentioned installation portion are 2 front installing holes that the anteriomedial position that is arranged on front installation portion divides left and right to arrange; The rear installation portion plate body shape that is rectangle, the left and right that the left and right of rear installation portion is greater than front installation portion to width, to width, is less than the left and right of discharge opeing portion to width; The upward and downward height of rear installation portion is identical with the upward and downward height of front installation portion; Rear installation portion is arranged on the upper end rear side of discharge opeing portion; Installing hole after 2 tapped installing holes of the rear side of above-mentioned installation portion are the rear side that is arranged on rear installation portion and divide 2 that left and right arranges; The middle interconnecting piece plate body shape that is rectangle; The left and right of middle interconnecting piece is identical with front installation portion to width; The upward and downward height of middle interconnecting piece is less than the upward and downward height of front installation portion; Middle interconnecting piece is connected with the rear end face one of front installation portion by its front end face; Middle interconnecting piece is connected with the front end face one of rear installation portion by end face thereafter.
Further scheme is: above-mentioned lathe bed comprises base support portion, left rail installation portion, driving mechanism installation portion, right guide rails assembling portion, the left installation portion of crossbeam and the right installation portion of crossbeam;
Above-mentioned left rail installation portion, the from left to right precedence setting above base support portion of driving mechanism installation portion and right guide rails assembling portion, and left rail installation portion and right guide rails assembling portion are mirror image setting in the both sides of driving mechanism installation portion; Left rail installation portion, driving mechanism installation portion are all connected with the upper surface one of base support portion with its lower surface with right guide rails assembling portion; Between left rail installation portion and driving mechanism installation portion and between right guide rails assembling portion and driving mechanism installation portion, form respectively a first row liquid bath;
The left installation portion of crossbeam is arranged on the left side, rear portion of basic connecting portion and is connected with basic connecting portion one; The right installation portion of crossbeam is arranged on the right side, rear portion of basic connecting portion and is connected with basic connecting portion one; The left installation portion of crossbeam and the right installation portion of crossbeam and basic connecting portion joint are respectively provided with respectively 1 second row liquid bath.
Further scheme is: the base support portion integral body of above-mentioned lathe bed is cuboid; Base support portion is provided with 4 installation fixing holes that upward and downward connects, and installs in fixing hole and is provided with internal thread; These 42 left and right sides in the rear end of base support portion of installing in fixing hole respectively arrange 1 respectively; These 4 other 2 front end centre positions in base support portion of installing in fixing holes divide left and right respectively to arrange 1; The front portion of the left surface of base support portion and the front portion of right flank are respectively provided with respectively 1 the first hole for hoist; Before and after the left side of the upper surface of base support portion and right side are respectively provided with respectively, to row's dustcloth guide plate installing hole of arranging, the top of the front end face of base support portion and the top of rear end face are respectively provided with respectively left and right to row's dustcloth installing plate installing hole of arranging;
Left rail installation portion integral body is cuboid; To the middle that is arranged on the left side of base support portion, and be positioned at the right side of left side one row's dustcloth guide plate installing hole of base support portion before and after left rail installation portion; The front end face of the front end face of left rail installation portion and base support portion is in the same plane; The rear end face of the rear end face of left rail installation portion and base support portion is in the same plane; The front and back, left side of the upper surface of left rail installation portion are to being provided with the left compression leg installing hole of a row; In the middle of the upper surface of left rail installation portion, front and back are to being provided with row's left rail fixing hole; The right part of the upper surface of left rail installation portion, to upper process, forms a sagittal flat cuboid, as left rail backer; The structure of right guide rails assembling portion is identical with the structure of left rail installation portion;
Driving mechanism installation portion integral body is flat cuboid; Before and after driving mechanism installation portion, to the middle that is arranged on base support portion, the front end face of the front end face of driving mechanism installation portion and base support portion is in the same plane; Before the rear end face of driving mechanism installation portion is positioned at the rear end face of base support portion; The rear end of driving mechanism installation portion is provided with motor cabinet installing hole; The front portion of driving mechanism installation portion is provided with leading screw supporting seat installing hole.
Further scheme is: above-mentioned lathe bed also comprises motor installation gap; Above-mentioned motor installation gap is arranged in base support portion, and motor installation gap is from the recessed square breach in the upper surface of base support portion; Motor installation gap in the rear end of driving mechanism installation portion, between the left side of the rear end of the right side of left rail installation portion rear end and right guide rails assembling portion.
Further scheme also has: the left installation portion integral body of crossbeam of above-mentioned lathe bed is cuboid; The middle part of the left installation portion of crossbeam is provided with the left installation fixing hole that upward and downward connects; The front side of the upper surface of the left installation portion of crossbeam and rear side are respectively equipped with the left fixed mount installing hole of crossbeam; The left surface of the left installation portion of crossbeam is provided with the second hole for hoist; The leading flank of the left installation portion of crossbeam and basic connecting portion joint is curved;
The right installation portion integral body of crossbeam is cuboid; The middle part of the right installation portion of crossbeam is provided with the right installation fixing hole that upward and downward connects; The front side of the upper surface of the right installation portion of crossbeam and rear side are respectively equipped with the right fixed mount installing hole of crossbeam; The right flank of the right installation portion of crossbeam is provided with the 3rd hole for hoist; The leading flank of the left surface of the right installation portion of crossbeam and basic connecting portion joint is curved;
The rear end face of the left installation portion of crossbeam and the right installation portion of crossbeam and the rear end face of base support portion are in the same plane; The lower surface of the left installation portion of crossbeam and the right installation portion of crossbeam and the lower surface of base support portion are in the same plane; The upper surface of the upper surface of the left installation portion of crossbeam and the right installation portion of crossbeam and the upper surface of left rail installation portion and right guide rails assembling portion is in the same plane.
The utlity model has positive effect: (1) high ray machine pedestal of the present utility model, adopt base and lathe bed Split type structure, by inner bolt, be fixedly connected with, compared to prior art the pedestal of cast iron integral piece or granite integral piece, carrying, easy for installation, time saving and energy saving.(2) high ray machine pedestal of the present utility model, its lathe bed adopts natural granite particle to add casting integrated of epoxy resin, and its price is lower than cast iron, and at aspect of performance, its heat-shrinkable is little and do not have a local contraction; Have good shock absorption, shock absorption is higher 10 times than traditional ironcasting; Have good heat endurance, insensitive to the variation of temperature, thermal conductivity is more much lower than cast iron, and the physical dimension error that can effectively lathe be caused because being heated is controlled at minimum; Corrosion resistance is strong, and the liquid such as the cutting fluid producing during high ray machine is used, cooling fluid have very strong corrosion resistance, thereby can promote significantly the precision of high ray machine.(3) high ray machine pedestal of the present utility model, respectively arranges respectively 4 holes for hoist on its base and lathe bed, be convenient to lift easy for installationly, improves assembly work efficiency.(4) high ray machine pedestal of the present utility model, by 3 Damping cushion installing holes are set, is convenient to install additional the parallels that damping is used on its base during use, the vibrations of high ray machine while using to reduce, thus improve the machining accuracy of high ray machine.(5) high ray machine pedestal of the present utility model, on its base by the porus excretorius of collecting tank, back taper is set and by porus excretorius design in front portion, when high ray machine is used, waste liquid and scrap flow out from anterior porus excretorius quickly and easily, thereby keep clean and can effectively prevent that the rearward motor of waste liquor stream from causing equipment fault.(6) high ray machine pedestal of the present utility model, by stop part is set, can effectively prevent that waste liquid and scrap are excessive and leak from base upper end surrounding on its base; Left breach and right breach are set and can place easily the bucket of accepting of collecting waste liquid and scrap, can effectively keep the clean of job shop.(7) high ray machine pedestal of the present utility model, the upward and downward height upward and downward height design identical with the height of front installation portion, middle interconnecting piece of the rear installation portion of its base becomes to be less than the height of front installation portion, the lathe bed of being convenient to its top is installed, when high ray machine work, can effectively reduce the vibrations of lathe bed 2 simultaneously, thereby improve the machining accuracy of high ray machine.(8) high ray machine pedestal of the present utility model, the bottom of its base is provided with reinforcement, is improved the rigidity of base.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model;
Fig. 2 is the perspective view of base in Fig. 1;
Fig. 3 is the front view of base in Fig. 1;
Fig. 4 is the left view of Fig. 3;
Fig. 5 is the right view of Fig. 3;
Fig. 6 is the top view of Fig. 3;
Fig. 7 is the upward view of Fig. 3;
Fig. 8 is the perspective view of the lathe bed in Fig. 1;
Fig. 9 is the front view of the lathe bed in Fig. 1;
Figure 10 is the left view of Fig. 9;
Figure 11 is the right view of Fig. 9;
Figure 12 is the rearview of Fig. 9;
Figure 13 is the top view of Fig. 9;
Figure 14 is the upward view of Fig. 9.
Reference numeral in above-mentioned accompanying drawing is as follows:
Base 1, front support portion 11, hole for hoist 11-1, Damping cushion installing hole 11-2; Rear support portion 12, left Damping cushion installing hole 12-1, left hole for hoist 12-2, right Damping cushion installing hole 12-3, right hole for hoist 12-4; Right breach 14; Discharge opeing portion 15, left porus excretorius 15-1, left collecting tank 15-2, right porus excretorius 15-3; Right collecting tank 15-4, stop part 16, installation portion 17, front installation portion 17-1, front installing hole 17-1-1, rear installation portion 17-2, rear installing hole 17-2-1, middle interconnecting piece 17-3; Bottom reinforcement 18;
Lathe bed 2, base support portion 21, installs fixing hole 21-1, the first hole for hoist 21-2, dustcloth guide plate installing hole 21-3, dustcloth installing plate installing hole 21-4; Left rail installation portion 22, left compression leg installing hole 22-1, left rail fixing hole 22-2, left rail backer 22-3; Driving mechanism installation portion 23, motor cabinet installing hole 23-1, leading screw supporting seat installing hole 23-2; Right guide rails assembling portion 24, right compression leg installing hole 24-1, right guide rail fixing hole 24-2, right guide rail backer 24-3; Motor installation gap 25; First row liquid bath 26; The left installation portion 27 of crossbeam, left installation fixing hole 27-1, the left fixed mount installing hole of crossbeam 27-2, the second hole for hoist 27-3; The right installation portion 28 of crossbeam, right installation fixing hole 28-1, the right fixed mount installing hole of crossbeam 28-2, the 3rd hole for hoist 28-3; Second row liquid bath 29.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
(embodiment 1)
See Fig. 1, the high ray machine pedestal of the present embodiment, is mainly comprised of base 1 and lathe bed 2.
See Fig. 2 to Fig. 8, base 1 is cast iron integral piece.Base 1 is mainly comprised of front support portion 11, rear support portion 12, discharge opeing portion 15, stop part 16, installation portion 17 and bottom reinforcement 18.
Front support portion 11 integral body of base 1 are cuboid.The front upper lateral part of the left surface of front support portion 11 and right flank is respectively provided with respectively 1 blind hole as hole for hoist 11-1; The middle, bottom of the leading flank of front support portion 11 is provided with 1 Damping cushion installing hole 11-2, Damping cushion installing hole 11-2 by 1 in the past the leading flank of support portion 11 recessed square groove and the bolt hole that connects the lower surface of front support portion 11 from the lower surface of square groove downwards form backward.
Rear support portion 12 integral body are cuboid, and the middle, bottom of the left surface of rear support portion 12 is provided with the left Damping cushion installing hole 12-1 identical with the Damping cushion installing hole 11-2 structure of front support portion 11; The middle, top of the left surface of rear support portion 12 is provided with 1 blind hole as left hole for hoist 12-2, on the right flank of rear support portion 12 with left surface on left Damping cushion installing hole 12-1 and left hole for hoist 12-2 the mirror image right Damping cushion installing hole 12-3 and the right hole for hoist 12-4 that arrange.The height of rear support portion 12 is identical with front support portion 11, the left and right of rear support portion 12 to width be greater than front support portion 11, front support portion 11 is connected with the integral middle of the front end face of rear support portion 12 by end face thereafter, thereby front portion, left side and front portion, right side at base 1 form respectively 1 breach, are respectively left breach and right breach 14.
Discharge opeing portion 15 integral body are flat cuboid, and the left and right of discharge opeing portion 15 is identical to width with the left and right of rear support portion 12 to width; The front and back that the sagittal length of discharge opeing portion 15 is greater than front support portion 11 are to the front and back of length and rear support portion 12 to length sum; The rear end face of discharge opeing portion 15 is concordant with the rear end face of rear support portion 12, and the front portion of discharge opeing portion 15 protrudes from forward the front end face of front support sector 11; Discharge opeing portion 15 is connected with the upper surface of front support portion 11 and the upper surface one of rear support portion 12 by its lower surface; The top that the anterior left side of discharge opeing portion 15 is positioned at left breach is provided with left porus excretorius 15-1, and left porus excretorius 15-1 is back taper through hole, and its underpart protrudes from the lower surface of discharge opeing portion downwards; The left and right sides at the upper end open place of left porus excretorius 15-1 is provided with left collecting tank 15-2; The top that the anterior right side of discharge opeing portion 15 is positioned at right breach 14 is arranged with right porus excretorius 15-3 and the right collecting tank 15-4 that structure is identical.
Stop part 16 is square frame-shaped, and stop part 16 consists of 4 that the are positioned at front, rear, left and right mutual vertical connections of rectangular plate body part; Stop part 16 is connected with the upper surface one of discharge opeing portion 15 surroundings by its lower surface.
Installation portion 17 is located in stop part 16; Installation portion 17 is mainly by front installation portion 17-1, rear installation portion 17-2 and middle interconnecting piece 17-3 with form.The front installation portion 17-1 plate body shape that is rectangle, the left and right of front installation portion 17-1 to width identical with the distance between the right-hand member of the left collecting tank 15-2 of discharge opeing portion 15 and the left end of right collecting tank 15-4; Front installation portion 17-1 is arranged on the front side, upper end of discharge opeing portion 15; The anteriomedial position of front installation portion 17-1 divides left and right to be respectively provided with 1 downward blind hole as front installing hole 17-1-1, in front installing hole 17-1-1, is provided with internal thread; The rear installation portion 17-2 plate body shape that is rectangle, the left and right that the left and right of rear installation portion 17-2 is greater than front installation portion 17-1 to width, to width, is less than the left and right of discharge opeing portion 15 to width; The upward and downward height of rear installation portion 17-2 is identical with the upward and downward height of front installation portion 17-1; Rear installation portion 17-2 is arranged on the upper end rear side of discharge opeing portion 15; The rear side of rear installation portion 17-2 divides left and right to be respectively provided with 1 downward blind hole as rear installing hole 17-2-1, in rear installing hole 17-2-1, is provided with internal thread; The middle interconnecting piece 17-3 plate body shape that is rectangle, the left and right of middle interconnecting piece 17-3 is identical with front installation portion 17-1 to width; The upward and downward height of middle interconnecting piece 17-3 is less than the upward and downward height of front installation portion 17-1; Middle interconnecting piece 17-3 is connected with the rear end face one of front installation portion 17-1 by its front end face; Middle interconnecting piece 17-3 is connected with the front end face one of rear installation portion 17-2 by end face thereafter; The front installation portion 17-1 of installation portion 17, rear installation portion 17-2 are connected with the upper surface one of discharge opeing portion 15 by its lower surface with middle interconnecting piece 17-3.
Bottom reinforcement 18 is intersecting parallels reinforcement; Bottom reinforcement 18 is arranged on the lower surface of front support portion 11 and rear support portion 12 (as shown in Figure 8).
The effect of each associated components of aforementioned base 1 is summarized as follows:
2 hole for hoist 11-1 of front support portion 11, the left hole for hoist 12-2 of rear support portion 12, together with right hole for hoist 12-4, hang bolt by insertion while installing for base 1 and lift quickly and easily with hoisting machinery; The Damping cushion installing hole 11-2 of front support portion 11, the left Damping cushion installing hole 12-1 of rear support portion 12 and right Damping cushion installing hole 12-3 are used for installing the parallels that damping is used, the vibrations of high ray machine while using to reduce, thus improve precision; When left breach and right breach 14 are used after installing for high ray machine, convenient placement accepted bucket, waste liquid and scrap that processing produces for accepting, that by left porus excretorius 15-1 and the right porus excretorius 15-3 of discharge opeing portion 15, flowed down; Left porus excretorius 15-1 and right porus excretorius 15-3 design are in front portion, and in the time of can effectively preventing high ray machine use, the rearward motor of waste liquor stream causes equipment fault; Left porus excretorius 15-1 and right porus excretorius 15-3 are designed to back taper and left collecting tank 15-2 are set and right collecting tank 15-4, can play the effect of better drainage, are convenient to waste liquid and scrap is discharged in time, keep clean; Stop part 16 is excessive and leak from upper end surrounding for preventing waste liquid and scrap; The upward and downward height design of the rear installation portion 17-2 of installation portion 17 is identical with the upward and downward height of front installation portion 17-1, the upward and downward height design of middle interconnecting piece 17-3 is less than the upward and downward height of front installation portion 17-1, object is the installation of being convenient to upper end lathe bed 2, while using, can effectively reduce the vibrations of lathe bed 2 simultaneously, improve the precision of high ray machine; The setting of bottom reinforcement 18, for improving the rigidity of base 1.
Lathe bed 2 is that major ingredient, epoxy resin are casting integrated that auxiliary material is made through mix and blend, vibratory compaction for adopting natural granite particle.
See Fig. 8 to Figure 14, lathe bed 2 is mainly comprised of base support portion 21, left rail installation portion 22, driving mechanism installation portion 23, right guide rails assembling portion 24, the left installation portion 27 of crossbeam and the right installation portion 28 of crossbeam.
Base support portion 21 integral body are cuboid; Base support portion 21 is provided with 4 installation fixing hole 21-1 that upward and downward connects, and installs in fixing hole 21-1 and is provided with internal thread; These 42 left and right sides in the rear end of base support portion 21 of installing in fixing hole 21-1 respectively arrange 1 respectively; These 4 other 2 front end centre positions in base support portion 21 of installing in fixing hole 21-1 divide left and right respectively to arrange 1; The front portion of the left surface of base support portion 21 and the front portion of right flank be respectively provided with respectively 1 left and right to blind hole, as the first hole for hoist 21-2; Before and after being respectively provided with respectively, the left side of the upper surface of base support portion 21 and right side arrange blind hole to one of arrangement, as dustcloth guide plate installing hole 21-3, the top of the front end face of base support portion 21 and the top of rear end face are respectively provided with respectively left and right to row's blind hole of arranging, as dustcloth installing plate installing hole 21-4.
Left rail installation portion 22 integral body are cuboid; Left rail installation portion 22 front and back are to the middle that is arranged on the left side of base support portion 21, and are positioned at the right side of left side one row's dustcloth guide plate installing hole 21-3 of base support portion 21; Left rail installation portion 22 is connected with the upper surface one of base support portion 21 by its lower surface; The front end face of the front end face of left rail installation portion 22 and base support portion 21 is in the same plane; The rear end face of the rear end face of left rail installation portion 22 and base support portion 21 is in the same plane; The front and back, left side of the upper surface of left rail installation portion 22 are to being provided with the left compression leg installing hole of row 22-1; In the middle of the upper surface of left rail installation portion 22, front and back are to being provided with row's left rail fixing hole 22-2; The right part of the upper surface of left rail installation portion 22, to upper process, forms a sagittal flat cuboid, as left rail backer 22-3.
Driving mechanism installation portion 23 integral body are flat cuboid; Driving mechanism installation portion 23 front and back are to the middle that is arranged on base support portion 21, and the front end face of the front end face of driving mechanism installation portion 23 and base support portion 21 is in the same plane; Install between fixing hole 21-12 2 of the front end of aforesaid base support portion 21 front portion of driving mechanism installation portion 23; Before the rear end face of driving mechanism installation portion 23 is positioned at 2 installation fixing hole 21-1 of rear side of base support portion 21; The rear end of driving mechanism installation portion 23 is provided with motor cabinet installing hole 23-1; The front portion of driving mechanism installation portion 23 is provided with leading screw supporting seat installing hole 23-2.
Right guide rails assembling portion 24 integral body are cuboid; Right guide rails assembling portion 24 front and back are to the middle that is arranged on the right-hand part of base support portion 21, and are positioned at the left side of right side one row's dustcloth guide plate installing hole 21-3 of base support portion 21; Right guide rails assembling portion 24 is connected with the upper surface one of base support portion 21 by its lower surface; The front end face of right guide rails assembling portion 24 and the front end face of base support portion 21 are in the same plane; The rear end face of right guide rails assembling portion 24 and the rear end face of base support portion 21 are in the same plane; Before and after the right side of the upper surface of right guide rails assembling portion 24 to being provided with the right compression leg installing hole of row 24-1; Before and after in the middle of the upper surface of right guide rails assembling portion 24 to being provided with the right guide rail fixing hole of row 24-2; The left part of the upper surface of right guide rails assembling portion 24, to upper process, forms a sagittal flat cuboid, as right guide rail backer 24-3.Right guide rails assembling portion 24 and left rail installation portion 22 are mirror image setting in the both sides of driving mechanism installation portion 23.
Motor installation gap 25 is arranged in base support portion 21, motor installation gap 25 is from the recessed square breach in the upper surface of base support portion 21, motor installation gap 25 in the rear end of driving mechanism installation portion 23, between the left side of the rear end of the right side of left rail installation portion 22 rear ends and right guide rails assembling portion 24.
Between left rail installation portion 22 and driving mechanism installation portion 23, between right guide rails assembling portion 24 and driving mechanism installation portion 23, respectively form respectively a sagittal rectangular slot, as first row liquid bath 26.
Left installation portion 27 integral body of crossbeam are cuboid; The middle part of the left installation portion 27 of crossbeam is provided with the left installation fixing hole 27-1 that upward and downward connects; Front side and the rear side of the upper surface of the left installation portion 27 of crossbeam are respectively equipped with downward blind hole, as the left fixed mount installing hole of crossbeam 27-2; The left surface of the left installation portion 27 of crossbeam is provided with blind hole to the right, as the second hole for hoist 27-3; The right flank of the left installation portion 27 of crossbeam is connected with the rear portion left surface one of basic connecting portion 21; The left installation portion 27 of crossbeam is curved with the leading flank of basic connecting portion 21 joints.
Right installation portion 28 integral body of crossbeam are cuboid; The middle part of the right installation portion 28 of crossbeam is provided with the right installation fixing hole 28-1 that upward and downward connects; Front side and the rear side of the upper surface of the right installation portion 28 of crossbeam are respectively equipped with downward blind hole, as the right fixed mount installing hole of crossbeam 28-2; The right flank of the right installation portion 28 of crossbeam is provided with blind hole left, as the 3rd hole for hoist 28-3; The left surface of the right installation portion 28 of crossbeam is connected with the rear portion right flank one of basic connecting portion 21; The right installation portion 28 of crossbeam is curved with the leading flank of basic connecting portion 21 joints.
The left installation portion 27 of crossbeam and basic connecting portion 21 joints are provided with 1 recessed rectangular slot; The right installation portion of crossbeam 28 and basic connecting portion 21 joints are provided with 1 recessed rectangular slot equally, and these 2 rectangular slots are all as the second row liquid bath 29 of lathe bed 2.
The left installation portion 27 of crossbeam and the rear end face of the right installation portion 28 of crossbeam and the rear end face of base support portion 21 are in the same plane; The left installation portion 27 of crossbeam and the lower surface of the right installation portion 28 of crossbeam and the lower surface of base support portion 21 are in the same plane; The upper surface of the left installation portion 27 of crossbeam and the upper surface of the right installation portion 28 of crossbeam and the upper surface of left rail installation portion 22 and right guide rails assembling portion 24 is in the same plane.
Aforesaid lathe bed 2 adopts natural granite particles to add casting integrated of epoxy resin, and its price is lower than cast iron, and at aspect of performance, its heat-shrinkable is little and do not have a local contraction; Have good shock absorption, shock absorption is higher 10 times than traditional ironcasting; Have good heat endurance, insensitive to the variation of temperature, thermal conductivity is more much lower than cast iron, and the physical dimension error that can effectively lathe be caused because being heated is controlled at minimum; Corrosion resistance is strong, and the liquid such as the cutting fluid producing during high ray machine is used, cooling fluid have very strong corrosion resistance.Thereby adopt the lathe bed 2 of the present embodiment, than traditional ironcasting, can promote significantly the precision of high ray machine.
The effect of each associated components of aforesaid lathe bed 2 is summarized as follows:
2 the first hole for hoist 21-2 of base support portion 21, the second hole for hoist 27-3 of the left installation portion 27 of crossbeam and the 3rd hole for hoist 28-3 of the right installation portion 28 of crossbeam together, the lifting while installing for lathe bed 2; 4 of base support portion 21 coordinate with installing hole 17-2-1 after 2 front installing hole 17-1-1 of aforesaid base 1 and 2 when fixing hole 21-1 being installed installing, by 4 inner bolts, lathe bed 2 are fixedly connected with base 1; The dustcloth guide plate installing hole 21-3 of base support portion 21 and dustcloth installing plate installing hole 21-4 are all for installing corresponding pressing plate so that corresponding dustcloth to be installed.
Left rail installation portion 22 is for installing the left rail of high ray machine, during installation, the right side of the left rail of high ray machine is tight against to left rail backer 22-3, opposite side is by squeeze into compression leg jam-packed in left compression leg installing hole 22-1, thereby then by inner bolt, match left rail fixedly secured on the upper surface of left rail installation portion 22 with left rail fixing hole 22-2; The right guide rail of high ray machine installation method in right guide rails assembling portion 24 is identical.
Driving mechanism installation portion 23 is for installing the motor of high ray machine and driving leading screw.The motor cabinet installing hole 23-1 of driving mechanism installation portion 23 is used for by the mount pad of bolt mounted motor, thereby drive motors is installed, and the motor installation gap 25 that its rear portion arranges is simultaneously conveniently installing for drive motors in the lump; The leading screw supporting seat installing hole 23-2 of driving mechanism installation portion 23 drives the supporting seat of leading screw to drive leading screw to install for installing by bolt.
The left installation portion 27 of crossbeam and the right installation portion 28 of crossbeam are for fixedly mounting the crossbeam of high ray machine; The left installation fixing hole 27-1 of the left installation portion 27 of crossbeam is for being bolted the left part of the crossbeam of high ray machine; Before and after the upper surface of the left installation portion 27 of crossbeam, the left fixed mount installing hole of the crossbeam 27-2 of both sides is for the securing member (as angle bar) for fastening high ray machine crossbeam is installed by bolt, so that the crossbeam of high ray machine is installed firmly; The right installation portion 28 of crossbeam in like manner.
Chip removal and discharge opeing when first row liquid bath 26 and second row liquid bath 29 are used high ray machine to use.
In sum, the present embodiment high ray machine pedestal, adopt base and lathe bed Split type structure, by inner bolt, be fixedly connected with the pedestal of cast iron integral piece or granite integral piece compared to prior art, carrying, easy for installation, time saving and energy saving; Its lathe bed adopts natural granite particle to add casting integrated of epoxy resin, and its price is lower than cast iron, and at aspect of performance, its heat-shrinkable is little and do not have a local contraction; Have good shock absorption, shock absorption is higher 10 times than traditional ironcasting; Have good heat endurance, insensitive to the variation of temperature, thermal conductivity is more much lower than cast iron, and the physical dimension error that can effectively lathe be caused because being heated is controlled at minimum; Corrosion resistance is strong, and the liquid such as the cutting fluid producing during high ray machine is used, cooling fluid have very strong corrosion resistance, thereby can promote significantly the precision of high ray machine; 4 holes for hoist are respectively set respectively on its base and lathe bed, are convenient to lift easy for installationly, improve assembly work efficiency; On its base, by 3 Damping cushion installing holes are set, during use, be convenient to install additional the parallels that damping is used, the vibrations of high ray machine while using to reduce, thus improve the machining accuracy of high ray machine; On its base by the porus excretorius of collecting tank, back taper is set and by porus excretorius design in front portion, when high ray machine is used, waste liquid and scrap flow out from anterior porus excretorius quickly and easily, thereby keep clean and can effectively prevent that the rearward motor of waste liquor stream from causing equipment fault; On its base, by stop part is set, can effectively prevent that waste liquid and scrap are excessive and leak from base upper end surrounding; Left breach and right breach are set and can place easily the bucket of accepting of collecting waste liquid and scrap, can effectively keep the clean of job shop; The upward and downward height upward and downward height design identical with the height of front installation portion, middle interconnecting piece of the rear installation portion of its base becomes to be less than the height of front installation portion, the lathe bed of being convenient to its top is installed, when high ray machine work, can effectively reduce the vibrations of lathe bed 2 simultaneously, thereby improve the machining accuracy of high ray machine; The bottom of its base is provided with reinforcement, is improved the rigidity of base.
Above embodiment is the explanation to the specific embodiment of the present utility model; but not to restriction of the present utility model; person skilled in the relevant technique is not in the situation that departing from spirit and scope of the present utility model; can also make various conversion and variation and obtain the corresponding technical scheme being equal to, therefore all technical schemes that are equal to all should be included into scope of patent protection of the present utility model.

Claims (9)

1. a high ray machine pedestal, is characterized in that: comprise base (1) and lathe bed (2); Described lathe bed (2) is fixedly mounted on the top of base (1) by inner bolt; Base (1) comprises front support portion (11), rear support portion (12), discharge opeing portion (15), stop part (16) and installation portion (17);
Described front support portion (11) integral body is cuboid; On the left surface of front support portion (11) and right flank, be respectively provided with respectively 1 hole for hoist (11-1); Rear support portion (12) integral body is cuboid; The left surface of rear support portion (12) is provided with left hole for hoist (12-2); The right flank of rear support portion (12) is provided with right hole for hoist (12-4); The height of rear support portion (12) is identical with front support portion (11), the left and right of rear support portion (12) to width be greater than front support portion (11); Front support portion (11) is connected with the integral middle of the front end face of rear support portion (12) by end face thereafter, thereby in the left side of base (1), anterior and front portion, right side forms respectively 1 breach, is respectively left breach and right breach (14);
(15 integral body are flat cuboid in discharge opeing portion; The left and right of discharge opeing portion (15) is identical to width with the left and right of rear support portion (12) to width; The front and back that the sagittal length of discharge opeing portion (15) is greater than front support portion (11) are to the front and back of length and rear support portion (12) to length sum; The rear end face of discharge opeing portion (15) is concordant with the rear end face of rear support portion (12), and the front portion of discharge opeing portion (15) protrudes from forward the front end face of front support sector (11); Discharge opeing portion (15) is connected with the upper surface of front support portion (11) and the upper surface one of rear support portion (12) by its lower surface; The top that the anterior left side of discharge opeing portion (15) is positioned at left breach is provided with left porus excretorius (15-1); The top that the anterior right side of discharge opeing portion (15) is positioned at right breach (14) is provided with right porus excretorius (15-3);
Stop part (16) is square frame-shaped; Stop part (16) consists of 4 that the are positioned at front, rear, left and right mutual vertical connections of rectangular plate body part; Stop part (16) is connected with the upper surface one of discharge opeing portion (15) surrounding by its lower surface;
Installation portion (17) is located in stop part (16); Installation portion (17) is connected with the upper surface one of discharge opeing portion (15) by its lower surface; The front side of installation portion (17) and rear side divide left and right to be respectively provided with respectively 2 tapped installing holes.
2. high ray machine pedestal according to claim 1, is characterized in that: described base (1) also comprises bottom reinforcement (18); Bottom reinforcement (18) is intersecting parallels reinforcement; Bottom reinforcement (18) is arranged on the lower surface of front support portion (11) and rear support portion (12).
3. high ray machine pedestal according to claim 1, is characterized in that: the middle, bottom of the leading flank of the front support portion (11) of described base (1) is provided with 1 Damping cushion installing hole (11-2); The left Damping cushion installing hole in middle, left surface bottom (12-1) of rear support portion (12); The middle, right flank bottom of rear support portion (12) is provided with right Damping cushion installing hole (12-3).
4. high ray machine pedestal according to claim 1, it is characterized in that: left porus excretorius (15-1) and the right porus excretorius (15-3) of the discharge opeing portion (15) of described base (1) are back taper through hole, and its underpart protrudes from the lower surface of discharge opeing portion (15) downwards; The left and right sides at the upper end open place of left porus excretorius (15-1) is provided with left collecting tank (15-2); The left and right sides at the upper end open place of right porus excretorius (15-3) is provided with right collecting tank (15-4).
5. high ray machine pedestal according to claim 1, is characterized in that: described installation portion (17) comprises front installation portion (17-1), middle interconnecting piece (17-3) and rear installation portion (17-2); Front installation portion (17-1) the plate body shape that is rectangle, the left and right of front installation portion (17-1) to width identical with the distance between the right-hand member of the left collecting tank (15-2) of discharge opeing portion (15) and the left end of right collecting tank (15-4); Front installation portion (17-1) is arranged on the front side, upper end of discharge opeing portion (15); 2 tapped installing holes of the front side of described installation portion (17) are 2 front installing holes (17-1-1) that the anteriomedial position that is arranged on front installation portion (17-1) divides left and right to arrange; Rear installation portion (17-2) the plate body shape that is rectangle, the left and right that the left and right of rear installation portion (17-2) is greater than front installation portion (17-1) to width, to width, is less than the left and right of discharge opeing portion (15) to width; The upward and downward height of rear installation portion (17-2) is identical with the upward and downward height of front installation portion (17-1); Rear installation portion (17-2) is arranged on the upper end rear side of discharge opeing portion (15); Installing hole (17-2-1) after 2 tapped installing holes of the rear side of described installation portion (17) are the rear side that is arranged on rear installation portion (17-2) and divide 2 that left and right arranges; Middle interconnecting piece (17-3) the plate body shape that is rectangle; The left and right of middle interconnecting piece (17-3) is identical with front installation portion (17-1) to width; The upward and downward height of middle interconnecting piece (17-3) is less than the upward and downward height of front installation portion (17-1); Middle interconnecting piece (17-3) is connected with the rear end face one of front installation portion (17-1) by its front end face; Middle interconnecting piece (17-3) is connected with the front end face one of rear installation portion (17-2) by end face thereafter.
6. high ray machine pedestal according to claim 1, is characterized in that: described lathe bed (2) comprises base support portion (21), left rail installation portion (22), driving mechanism installation portion (23), right guide rails assembling portion (24), the left installation portion of crossbeam (27) and the right installation portion of crossbeam (28);
Described left rail installation portion (22), driving mechanism installation portion (23) and right guide rails assembling portion (24) be in the from left to right precedence setting of the top of base support portion (21), and left rail installation portion (22) and right guide rails assembling portion (24) are mirror image setting in the both sides of driving mechanism installation portion (23); Left rail installation portion (22), driving mechanism installation portion (23) and right guide rails assembling portion (24) are all connected with the upper surface one of base support portion (21) with its lower surface; Between left rail installation portion (22) and driving mechanism installation portion (23) and between right guide rails assembling portion (24) and driving mechanism installation portion (23), form respectively a first row liquid bath (26);
The left installation portion of crossbeam (27) is arranged on the left side, rear portion of basic connecting portion (21) and is connected with basic connecting portion (21) one; The right installation portion of crossbeam (28) is arranged on the right side, rear portion of basic connecting portion (21) and is connected with basic connecting portion (21) one; The left installation portion of crossbeam (27) and the right installation portion of crossbeam (28) are respectively provided with respectively 1 second row liquid bath (29) with basic connecting portion (21) joint.
7. high ray machine pedestal according to claim 6, is characterized in that: base support portion (21) integral body of described lathe bed (2) is cuboid; Base support portion (21) is provided with 4 installation fixing holes (21-1) that upward and downward connects, and installs in fixing hole (21-1) and is provided with internal thread; These 42 left and right sides in the rear end of base support portion (21) of installing in fixing hole (21-1) respectively arrange 1 respectively; These 4 other 2 front end centre positions in base support portion (21) of installing in fixing holes (21-1) divide left and right respectively to arrange 1; The front portion of left surface of base support portion (21) and the front portion of right flank are respectively provided with respectively 1 the first hole for hoist (21-2); Before and after the left side of the upper surface of base support portion (21) and right side are respectively provided with respectively, to row's dustcloth guide plate installing hole (21-3) of arranging, the top of front end face of base support portion (21) and the top of rear end face are respectively provided with respectively left and right to row's dustcloth installing plate installing hole (21-4) of arranging;
Left rail installation portion (22) integral body is cuboid; To the middle that is arranged on the left side of base support portion (21), and be positioned at the right side of left side one row's dustcloth guide plate installing hole (21-3) of base support portion (21) before and after left rail installation portion (22); The front end face of the front end face of left rail installation portion (22) and base support portion (21) is in the same plane; The rear end face of the rear end face of left rail installation portion (22) and base support portion (21) is in the same plane; The front and back, left side of the upper surface of left rail installation portion (22) are to being provided with a left compression leg installing hole of row (22-1); In the middle of the upper surface of left rail installation portion (22), front and back are to being provided with row's left rail fixing hole (22-2); The right part of the upper surface of left rail installation portion (22), to upper process, forms a sagittal flat cuboid, as left rail backer (22-3); The structure of right guide rails assembling portion (24) is identical with the structure of left rail installation portion (22);
Driving mechanism installation portion (23) integral body is flat cuboid; Before and after driving mechanism installation portion (23), to the middle that is arranged on base support portion (21), the front end face of the front end face of driving mechanism installation portion (23) and base support portion (21) is in the same plane; Before the rear end face of driving mechanism installation portion (23) is positioned at the rear end face of base support portion (21); The rear end of driving mechanism installation portion (23) is provided with motor cabinet installing hole (23-1); The front portion of driving mechanism installation portion (23) is provided with leading screw supporting seat installing hole (23-2).
8. high ray machine pedestal according to claim 6, is characterized in that: described lathe bed (2) also comprises motor installation gap (25); It is upper that described motor installation gap (25) is arranged on base support portion (21), and motor installation gap (25) is from the recessed square breach in the upper surface of base support portion (21); Motor installation gap (25) is positioned between the left side of rear end, the right side of left rail installation portion (22) rear end and the rear end of right guide rails assembling portion (24) of driving mechanism installation portion (23).
9. high ray machine pedestal according to claim 6, is characterized in that: the left installation portion of crossbeam (27) integral body of described lathe bed (2) is cuboid; The middle part of the left installation portion of crossbeam (27) is provided with the left installation fixing hole (27-1) that upward and downward connects; The front side of the upper surface of the left installation portion of crossbeam (27) and rear side are respectively equipped with the left fixed mount installing hole of crossbeam (27-2); The left surface of the left installation portion of crossbeam (27) is provided with the second hole for hoist (27-3); The left installation portion of crossbeam (27) is curved with the leading flank of basic connecting portion (21) joint;
The right installation portion of crossbeam (28) integral body is cuboid; The middle part of the right installation portion of crossbeam (28) is provided with the right installation fixing hole (28-1) that upward and downward connects; The front side of the upper surface of the right installation portion of crossbeam (28) and rear side are respectively equipped with the right fixed mount installing hole of crossbeam (28-2); The right flank of the right installation portion of crossbeam (28) is provided with the 3rd hole for hoist (28-3); The leading flank of the left surface of the right installation portion of crossbeam (28) and basic connecting portion (21) joint is curved;
The rear end face of the rear end face of the left installation portion of crossbeam (27) and the right installation portion of crossbeam (28) and base support portion (21) is in the same plane; The lower surface of the lower surface of the left installation portion of crossbeam (27) and the right installation portion of crossbeam (28) and base support portion (21) is in the same plane; The upper surface of the upper surface of the upper surface of the left installation portion of crossbeam (27) and the right installation portion of crossbeam (28) and left rail installation portion (22) and right guide rails assembling portion (24) is in the same plane.
CN201420257409.7U 2014-05-19 2014-05-19 Highlight machine base Expired - Fee Related CN203887527U (en)

Priority Applications (1)

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Application Number Priority Date Filing Date Title
CN201420257409.7U CN203887527U (en) 2014-05-19 2014-05-19 Highlight machine base

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104369926A (en) * 2014-10-23 2015-02-25 苏州思莱特电子科技有限公司 Fixing base of electronic product packing machine
CN108500644A (en) * 2018-07-11 2018-09-07 张明明 A kind of numerically-controlled machine tool pedestal

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104369926A (en) * 2014-10-23 2015-02-25 苏州思莱特电子科技有限公司 Fixing base of electronic product packing machine
CN108500644A (en) * 2018-07-11 2018-09-07 张明明 A kind of numerically-controlled machine tool pedestal
CN108500644B (en) * 2018-07-11 2021-07-16 江门市力盈精密机械有限公司 Base for digit control machine tool

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Granted publication date: 20141022

Termination date: 20190519