CN203304613U - Feed loop die extrusion hole double-drill-bit machining device - Google Patents
Feed loop die extrusion hole double-drill-bit machining device Download PDFInfo
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- CN203304613U CN203304613U CN2013202459770U CN201320245977U CN203304613U CN 203304613 U CN203304613 U CN 203304613U CN 2013202459770 U CN2013202459770 U CN 2013202459770U CN 201320245977 U CN201320245977 U CN 201320245977U CN 203304613 U CN203304613 U CN 203304613U
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- axis
- drill bit
- displacement component
- feed ring
- direction displacement
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Abstract
The utility model discloses a feed loop die extrusion hole double-drill-bit machining device. The feed loop die extrusion hole double-drill-bit machining device comprises a machine frame and is characterized in that an X-axis-direction displacement assembly, a Z-axis-direction displacement assembly and a machining assembly are arranged on the machine frame, the X-axis-direction displacement assembly is fixedly connected with the machine frame, the Z-axis-direction displacement assembly is arranged on the X-axis-direction displacement assembly, the Z-axis-direction displacement assembly is fixedly connected with the X-axis-direction displacement assembly through a support base, the machining assembly is arranged on the Z-axis-direction displacement assembly, the machining assembly is provided with two drilling machine stations with the adjustable positions, a clamping tool is further arranged on the machine frame, the clamping tool is correspondingly arranged below the machining assembly, a die-filling disc is arranged on the end portion of the clamping tool, and the position of the die-filling disc corresponds to the positions of drill bits. The displacement assemblies are driven through a program to conduct accurate positioning on hole sites on a loop die, the core turning method is controlled in a driving mode so that accurate corner turning of the loop die can be achieved, the two drilling machine stations can simultaneously machine two holes in the loop die, so that production efficiency is improved.
Description
Technical field
The utility model relates to a kind of machining equipment, the two drill bit processing machines of especially a kind of feed ring mould extrusion cavities.
Background technology
The ring mould is the vital part of granulator; needs due to feed granulating; a large amount of nibs of extruding is distributing on the surface of ring mould; single ring mould nib does not wait at several thousand to several ten thousand; because ring mould nib is many; drilling partly expends the plenty of time, has a strong impact on the ring mould production cycle, how to improve drilling efficiency and becomes the key that the ring mould improves ring mould production efficiency.
The utility model content
The purpose of this utility model is to provide that a kind of automaticity is high, accurate positioning, two drill bit processing machines of feed ring mould extrusion cavities that production efficiency is high.
For achieving the above object, the technical scheme that the utility model adopts is: the two drill bit processing machines of feed ring mould extrusion cavities, comprise: frame, it is characterized in that: frame is provided with X axis displacement component, Z-axis direction displacement component and processing assembly, the X axis displacement component is fixedly connected with frame, the Z-axis direction displacement component is arranged on the X axis displacement component, by carrier base, is connected and fixed between Z-axis direction displacement component and X axis displacement component; Described processing assembly is arranged on the Z-axis direction displacement component, and this processing assembly is provided with the brill of two adjustable positions to station; On frame, also be provided with clamping tooling, this clamping tooling is located at the corresponding below of processing assembly, and the end of clamping tooling is provided with the dress mould, and this dress mould position is corresponding with bit location.
Preferably, described X axis displacement component consists of X-axis drive motors, X-axis linear guides and X-axis drive screw, the X-axis linear guides is parallel to each other and is connected and synchronous shift with the X-axis drive screw, the X-axis drive motors is located at the afterbody of X-axis drive screw, by shaft coupling, be fixedly connected with the X-axis drive screw, the direction of displacement of described X-axis linear guides and X-axis drive screw is parallel with the axis of clamping tooling.
Preferably, described Z-axis direction displacement component consists of Z axis drive motors, z axis guide rail and Z-axis transmission screw rod, the z axis guide rail is parallel to each other and is connected and synchronous shift with the Z-axis transmission screw rod, the Z axis drive motors is located at the afterbody of Z-axis transmission screw rod, by shaft coupling, be fixedly connected with the Z-axis transmission screw rod, the direction of displacement of described z axis guide rail and Z-axis transmission screw rod is vertical with the axis of clamping tooling.
Preferably, described processing assembly is arranged on the z axis guide rail, and this processing assembly consists of to station hold-down arm, brill, and hold-down arm is arranged on the z axis guide rail, and hold-down arm and z axis rail axis are perpendicular, and parallel with the clamping tooling axis; Brill is to station and hold-down arm pivot bush unit, and fixes and the hold-down arm fixed installation by screw, and bore and parallel with the z axis rail axis to station, and vertical with the clamping tooling axis.
Preferably, described brill consists of mount pad, drill bit fixed cover and drill bit to station, and described mount pad socket is arranged on hold-down arm, and the drill bit fixed cover is fixedly connected with mount pad by screw, and the drill bit socket is fixed on the drill bit fixed cover.
Preferably, described clamping tooling consists of worm gear case, power transmission shaft and dress mould, and power transmission shaft is fixedly connected with worm gear case, and the dress mould is fixed on end part of driving shaft.
Preferably, described dress mould end is provided with several installation screws and locating piece, this installation screw and locating piece regular distribution, and its position is corresponding with the planform of feed ring mould.
Preferably, described each brill is to motor of the independent corresponding configuration of station.
Preferably, described motor passes through the driving-belt transferring power with brill to station.
Preferably, on described frame, also be provided with control system, this control system is sent control signal all drive motors is controlled.
The utility model owing to having adopted control system to control each drive motors, drives each displacement component by pre-set programs and is displaced to assigned address after adopting said structure, realizes the position, hole on the ring mould is processed; Clamping tooling adopts worm gear case to drive the mode of control loop mould corner, realizes the accurate corner to the ring mould; Two brills can process the utility model to station simultaneously to two holes on the ring mould, improved the production efficiency of ring mould extrusion cavities.The utility model is simple in structure, automaticity is high, process velocity is fast, machining hole accurate positioning, stable performance.
The accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Fig. 2 is dress mould structural representation of the present utility model.
In figure: 1, frame, 2, the X axis displacement component, 21, the X-axis drive motors, 22, the X-axis linear guides, 23, the X-axis drive screw, 24, shaft coupling, 3, the Z-axis direction displacement component, 31, the Z axis drive motors, 32, the z axis guide rail, 33, the Z-axis transmission screw rod, 4, processing assembly, 41, brill is to station, 42, drill bit, 43, hold-down arm, 44, mount pad, 45, , the drill bit fixed cover, 46, motor, 5, carrier base, 6, clamping tooling, 61, the dress mould, 62, worm gear case, 63, power transmission shaft, 64, installation screw, 65, locating piece, 7, control system.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:
As shown in the figure, the two drill bit processing machines of feed ring mould extrusion cavities, comprise: frame 1, it is characterized in that: frame 1 is provided with X axis displacement component 2, Z-axis direction displacement component 3 and processing assembly 4, X axis displacement component 2 is fixedly connected with frame 1, Z-axis direction displacement component 3 is arranged on X axis displacement component 2, by carrier base 5, is connected and fixed between Z-axis direction displacement component 3 and X axis displacement component 2; Described processing assembly 4 is arranged on Z-axis direction displacement component 3, and this processing assembly 4 is provided with the brill of two adjustable positions to station 41; On frame 1, also be provided with clamping tooling 6, this clamping tooling 6 is located at the corresponding below of processing assembly 4, and the end of clamping tooling 6 is provided with dress mould 61, and these dress mould 61 positions are corresponding with drill bit 42 positions.
Preferably, described X axis displacement component 2 consists of X-axis drive motors 21, X-axis linear guides 22 and X-axis drive screw 23, X-axis linear guides 22 is parallel to each other and is connected and synchronous shift with X-axis drive screw 23, X-axis drive motors 21 is located at the afterbody of X-axis drive screw 23, by shaft coupling 24, be fixedly connected with X-axis drive screw 23, the direction of displacement of described X-axis linear guides 22 and X-axis drive screw 23 is parallel with the axis of clamping tooling 6.
Preferably, described Z-axis direction displacement component 3 consists of Z axis drive motors 31, z axis guide rail 32 and Z-axis transmission screw rod 33, z axis guide rail 32 is parallel to each other and is connected and synchronous shift with Z-axis transmission screw rod 33, Z axis drive motors 31 is located at the afterbody of Z-axis transmission screw rod 33, by shaft coupling 24, be fixedly connected with Z-axis transmission screw rod 33, the direction of displacement of described z axis guide rail 32 and Z-axis transmission screw rod 33 is vertical with the axis of clamping tooling 6.
Preferably, described processing assembly 4 is arranged on z axis guide rail 32, and this processing assembly 4 consists of to station 41 hold-down arm 43, brill, and hold-down arm 43 is arranged on z axis guide rail 32, hold-down arm 43 is perpendicular with z axis guide rail 32 axis, and parallel with clamping tooling 6 axis; Brill is to station 41 and hold-down arm 43 pivot bush units, and fix and hold-down arm 43 fixed installations by screw, and brill parallels with z axis guide rail 32 axis to station 41, and vertical with clamping tooling 6 axis.
Preferably, described brill consists of mount pad 44, drill bit fixed cover 45 and drill bit 42 to station 41, described mount pad 44 sockets are arranged on hold-down arm 43, and drill bit fixed cover 45 is fixedly connected with mount pad 44 by screw, and drill bit 42 is fixed by socket on drill bit fixed cover 45.
Preferably, described clamping tooling 6 consists of worm gear case 62, power transmission shaft 63 and dress mould 61, and power transmission shaft 63 is fixedly connected with worm gear case 62, and dress mould 61 is fixed on power transmission shaft 63 ends.
Preferably, described dress mould 61 ends are provided with several installation screws 64 and locating piece 65, this installation screw 64 and locating piece 65 regular distribution, and its position is corresponding with the planform of feed ring mould.
Preferably, described each brill is to motor 46 of station 41 independent corresponding configurations.
Preferably, described motor 46 passes through the driving-belt transferring power with brill to station 41.
Preferably, also be provided with control system 7 on described frame 1, this control system 7 is sent control signal all drive motors is controlled.
Operation principle: operating personnel are to the machined parameters of control system 7 input extrusion cavities positions, control system 7 is controlled each displacement component drive displacement according to default machined parameters and is carried out processing action to assigned address, thereby realizes automatically the extrusion cavities on feed ring mould being processed.
In actual applications, operating personnel at first by feed ring mould clamping to be processed to clamping tooling 6, the position correspondence of feed ring mould is positioned on dress mould 61, and locate and lay on the installation screw 64 be complementary with feed ring mould and locating piece 65, after feed ring mould is laid accurate positioning, by screw, feed ring mould is fixed on dress mould 61, checks whether installation is firm, complete into the patrix installation procedure of feed ring mould.
Operating personnel are according to the extrusion cavities status requirement of each the feed ring mould machined parameters to control system 7 input hole positions, check errorlessly respectively X axis displacement component 2 and Z-axis direction displacement component 3 to be carried out to the position check and correction afterwards, determine the position of drill bit 42.
After everything in readiness, start operation, control system 7 drives processing assembly 4 operations, motor 46 drives drill bit 42 and rotates, according to default control program, control system 7 drives 21 runnings of X-axis drive motors, under the driving of X-axis drive motors 21, X-axis drive screw 23 promotes X-axis linear guides 22 slider displacements, and Z-axis direction displacement component 3 is displaced to assigned address.Now, be arranged on the top that drill bit 42 on Z-axis direction displacement component 3 has navigated to position, hole to be processed.Control system 7 drives 31 runnings of Z axis drive motors, the same with the operation workflow of X-axis, z axis guide rail 32 slide blocks drive processing assembly 4 displacements, 42 pairs of feed ring moulds of drill bit carry out the drilling processing of extrusion cavities, after an extrusion cavities drilling reaches control system 7 predetermined depth, drill bit 42 rises to preset height, and, in the next another position, hole to be processed that moves on to of the driving of control system 7, repeats an extrusion cavities manufacturing procedure.
When one squeeze and portal and machine after, control system 7 drives worm gear case 62 output torques, the feed ring mould that drive is arranged on dress mould 61 rotates a default angle, processing assembly 4 continues the extrusion cavities on the new anglec of rotation is processed, so circulation constantly, until the extrusion cavities on feed ring mould all machines
The above is preferred embodiment of the present utility model; certainly can not limit with this interest field of the utility model; should be understood that; for those skilled in the art; the technical solution of the utility model is modified or is equal to replacement, do not break away from the protection domain of technical solutions of the utility model.
Claims (10)
1. two drill bit processing machines of feed ring mould extrusion cavities, comprise: frame (1), it is characterized in that: frame (1) is provided with X axis displacement component (2), Z-axis direction displacement component (3) and processing assembly (4), X axis displacement component (2) is fixedly connected with frame (1), it is upper that Z-axis direction displacement component (3) is arranged on X axis displacement component (2), by carrier base (5), is connected and fixed between Z-axis direction displacement component (3) and X axis displacement component (2); It is upper that described processing assembly (4) is arranged on Z-axis direction displacement component (3), and this processing assembly (4) is provided with the brill of two adjustable positions to station (41); On frame (1), also be provided with clamping tooling (6), this clamping tooling (6) is located at the corresponding below of processing assembly (4), and the end of clamping tooling (6) is provided with dress mould (61), and this dress mould (61) position is corresponding with drill bit (42) position.
2. two drill bit processing machines of feed ring mould extrusion cavities according to claim 1, it is characterized in that: described X axis displacement component (2) is by X-axis drive motors (21), X-axis linear guides (22) and X-axis drive screw (23) form, X-axis linear guides (22) is parallel to each other and is connected and synchronous shift with X-axis drive screw (23), X-axis drive motors (21) is located at the afterbody of X-axis drive screw (23), by shaft coupling (24), be fixedly connected with X-axis drive screw (23), the direction of displacement of described X-axis linear guides (22) and X-axis drive screw (23) is parallel with the axis of clamping tooling (6).
3. two drill bit processing machines of feed ring mould extrusion cavities according to claim 1, it is characterized in that: described Z-axis direction displacement component (3) is by Z axis drive motors (31), z axis guide rail (32) and Z-axis transmission screw rod (33) form, z axis guide rail (32) is parallel to each other and is connected and synchronous shift with Z-axis transmission screw rod (33), Z axis drive motors (31) is located at the afterbody of Z-axis transmission screw rod (33), by shaft coupling (24), be fixedly connected with Z-axis transmission screw rod (33), the direction of displacement of described z axis guide rail (32) and Z-axis transmission screw rod (33) is vertical with the axis of clamping tooling (6).
4. two drill bit processing machines of feed ring mould extrusion cavities according to claim 1, it is characterized in that: described processing assembly (4) is arranged on z axis guide rail (32), this processing assembly (4) consists of to station (41) hold-down arm (43), brill, hold-down arm (43) is arranged on z axis guide rail (32), hold-down arm (43) is perpendicular with z axis guide rail (32) axis, and parallel with clamping tooling (6) axis; Brill is to station (41) and hold-down arm (43) pivot bush unit, and fix and hold-down arm (43) fixed installation by screw, and brill parallels with z axis guide rail (32) axis to station (41), and vertical with clamping tooling (6) axis.
5. according to claim 1 or the two drill bit processing machines of the described feed ring of 4 any one mould extrusion cavities, it is characterized in that: described brill consists of mount pad (44), drill bit fixed cover (45) and drill bit (42) to station (41), described mount pad (44) socket is arranged on hold-down arm (43), drill bit fixed cover (45) is fixedly connected with mount pad (44) by screw, and drill bit (42) is fixed by socket on drill bit fixed cover (45).
6. two drill bit processing machines of feed ring mould extrusion cavities according to claim 1, it is characterized in that: described clamping tooling (6) consists of worm gear case (62), power transmission shaft (63) and dress mould (61), power transmission shaft (63) is fixedly connected with worm gear case (62), and dress mould (61) is fixed on power transmission shaft (63) end.
7. two drill bit processing machines of feed ring mould extrusion cavities according to claim 6, it is characterized in that: described dress mould (61) end is provided with several installation screws (64) and locating piece (65), this installation screw (64) and locating piece (65) regular distribution, its position is corresponding with the planform of feed ring mould.
8. two drill bit processing machines of feed ring mould extrusion cavities according to claim 1 is characterized in that: described each bore to the independent corresponding configuration motor (46) of station (41).
9. two drill bit processing machines of feed ring mould extrusion cavities according to claim 8 is characterized in that: described motor (46) with bore to station (41) by the driving-belt transferring power.
10. two drill bit processing machines of feed ring mould extrusion cavities according to claim 1, it is characterized in that: on described frame (1), also be provided with control system (7), this control system (7) is sent control signal all drive motors is controlled.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2013202459770U CN203304613U (en) | 2013-05-09 | 2013-05-09 | Feed loop die extrusion hole double-drill-bit machining device |
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CN2013202459770U CN203304613U (en) | 2013-05-09 | 2013-05-09 | Feed loop die extrusion hole double-drill-bit machining device |
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CN2013202459770U Expired - Fee Related CN203304613U (en) | 2013-05-09 | 2013-05-09 | Feed loop die extrusion hole double-drill-bit machining device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106694947A (en) * | 2017-02-09 | 2017-05-24 | 中山迈雷特数控技术有限公司 | Numerical control annular die drilling machine |
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2013
- 2013-05-09 CN CN2013202459770U patent/CN203304613U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106694947A (en) * | 2017-02-09 | 2017-05-24 | 中山迈雷特数控技术有限公司 | Numerical control annular die drilling machine |
CN106694947B (en) * | 2017-02-09 | 2019-11-26 | 中山迈雷特数控技术有限公司 | A kind of numerical control ring die drilling machine |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20131127 Termination date: 20140509 |
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EXPY | Termination of patent right or utility model |