CN2686805Y - Multi-dimensional digital control working machine - Google Patents
Multi-dimensional digital control working machine Download PDFInfo
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- CN2686805Y CN2686805Y CN 200420021591 CN200420021591U CN2686805Y CN 2686805 Y CN2686805 Y CN 2686805Y CN 200420021591 CN200420021591 CN 200420021591 CN 200420021591 U CN200420021591 U CN 200420021591U CN 2686805 Y CN2686805 Y CN 2686805Y
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Abstract
The utility model relates to a processing machine tool controlled by multidimensional digitization, which is characterized in that the processing machine tool is composed of a machine tool body, lower guiding rails, a Y-direction driving mechanism, a working table, a portal frame, a Z-direction driving mechanism, upper guiding rails, a cutter frame mechanism, an X-direction driving mechanism and an electric control box, wherein the two lower guiding rails are arranged at both sides of the machine tool body; the portal frame is arranged on the two lower guiding rails; the Y-direction driving mechanism arranged in the machine tool body is connected with the portal frame to drive the portal frame to move on the lower guiding rails forwards and backwards along a Y direction; the working table is arranged on the machine tool body; the Z-direction driving mechanism is arranged above the portal frame; the two upper guiding rails are arranged at both sides of a box body of the Z-direction driving mechanism; the cutter frame mechanism is arranged on the two upper guiding rails, and the Z-direction driving mechanism is connected with the cutter frame mechanism to drive the cutter frame mechanism to move on the upper guiding rails upwards and downwards along a Z direction; the X-direction driving mechanism arranged at one side of the portal frame is connected with the Z-direction driving mechanism, and the X-direction driving mechanism can drive the Z-direction driving mechanism to move on the portal frame leftwards and rightwards along an X direction; the electric control box is arranged at one side of the machine tool body, and is respectively connected with the Y-direction driving mechanism, the Z-direction driving mechanism and the X-direction driving mechanism. The utility model has the advantages of convenient operation, low cost and high producing efficiency, and the cost of the utility model is 1/3 of that of a numerical control machine tool for processing metal.
Description
Technical field
The utility model relates to a kind of multidimensional Digital Control machining tool, can be used for processing automobile vehicle body mould foamed plastic model, aluminium matter and engineering plastics vehicle body model, and nonmetal model etc., belong to the machining tool technical field.
Background technology
Present processing automobile vehicle body mould foamed plastic model, aluminium matter and engineering plastics vehicle body model, and nonmetal model etc., manufacturing process all adopts craft, Digit Control Machine Tool or machining center, and manual processing labour intensity is big and labour cost is big, and precision is not high; And digital control processing and Cutter Body Processing with Machining Center, the processing cost height, and take the efficient of the high-end lathe of enterprise in a large number, so the production cost height, machine tool utilization rate is unreasonable.
Summary of the invention
The purpose of this utility model is to invent a kind of guarantee machining accuracy, the multidimensional Digital Control machining tool that improves automation, enhances productivity, reduces production costs, reduces labor intensity.
For realizing above purpose, the technical solution of the utility model provides a kind of multidimensional Digital Control machining tool, it is characterized in that, by lathe bed, lower guideway, Y direction transmission mechanism, workbench, portal frame, Z direction transmission mechanism, upper rail, cutter frame mechanism, the directions X transmission mechanism, electric cabinet is formed, two lower guideways place the both sides of lathe bed, portal frame places on two lower guideways, Y direction transmission mechanism places in the lathe bed, be connected with portal frame and can drive portal frame and move forward and backward in lower guideway upper edge Y direction, workbench places above the lathe bed, Z direction transmission mechanism places the portal frame top, two upper rails place the both sides of Z direction transmission mechanism casing, cutter frame mechanism places on two upper rails, Z direction transmission mechanism is connected with cutter frame mechanism and can drives cutter frame mechanism and move up and down in upper rail upper edge Z direction, the directions X transmission mechanism places a side of portal frame, be connected with Z direction transmission mechanism, can drive Z direction transmission mechanism along portal frame top directions X move left and right, electric cabinet places a side of lathe bed, respectively with Y direction transmission mechanism, Z direction transmission mechanism, the directions X transmission mechanism connects.
The utility model adopts the integrated control of digitlization, the three-dimensional that transmission mechanism adopts threaded screw rod and rail structure to control cutter frame mechanism moves, adopt the frequency conversion servomotor directly to drive cutter simultaneously and cut, can reach the effect of the Digit Control Machine Tool of general processing metal.
The utility model has the advantages that easy to operate, low cost of manufacture, be processing metal Digit Control Machine Tool 1/3, and production cost is low, production efficiency is high.
Description of drawings
Fig. 1 is a multidimensional Digital Control machining tool structural representation;
Fig. 2 is a multidimensional Digital Control machining tool left view;
Fig. 3 is the transmission mechanism structural representation.
The specific embodiment
The utility model is described in further detail below in conjunction with drawings and Examples.
Embodiment
As shown in Figure 1, 2, be multidimensional Digital Control machining tool structural representation, form by lathe bed 1, lower guideway 2, Y direction transmission mechanism 3, workbench 4, portal frame 5, Z direction transmission mechanism 6, upper rail 7, cutter frame mechanism 20, directions X transmission mechanism 12, electric cabinet 13.
Cutter frame mechanism 20 is made up of servomotor 8, bearing block 9, screw mandrel 10, knife rest 11, servomotor 8 is installed in the casing of cutter frame mechanism 20, is connected with screw mandrel 10, can drive screw mandrel 10 rotations, two bearing blocks 9 are contained in the two ends of screw mandrel 10, and knife rest 11 is equipped with in the lower end of screw mandrel 10.
As shown in Figure 3, be the transmission mechanism structural representation, be Y direction transmission mechanism 3C-C section, Z direction transmission mechanism 6B-B section, directions X transmission mechanism 12A-A cross-sectional view, by belt 14, belt pulley 15, servomotor 16, removable guide 17, ball screw 18, supporting seat 19 is formed, two supporting seats 19 are loaded on the two ends of ball screw 18, removable guide 17 is installed on the ball screw 18, belt pulley 15 is loaded on an end of ball screw 18, be connected with servomotor 16 by belt 14,18 rotations of servomotor 16 drive ball screws can drive guide plate 17 and move along ball screw 18 directions.
Two lower guideways 2 are installed in the both sides of lathe bed 1, portal frame 5 is contained on two lower guideways 2, Y direction transmission mechanism 3 is installed in 1 li of lathe bed, be connected with portal frame 5 and can drive portal frame 5 and move forward and backward in lower guideway 2 upper edge Y directions, workbench 4 is contained in above the lathe bed 1, Z direction transmission mechanism 6 is contained in portal frame 5 tops, two upper rails 7 are loaded on the both sides of Z direction transmission mechanism 6 casings, cutter frame mechanism 20 places on two upper rails 7, the removable guide 17 of Z direction transmission mechanism 6 is connected with cutter frame mechanism 20 casings and can drives cutter frame mechanism 20 and move up and down in upper rail 7 upper edge Z directions, directions X transmission mechanism 12 is installed in a side of portal frame 5, be connected with Z direction transmission mechanism 6, can drive Z direction transmission mechanism 6 along portal frame 5 top directions X move left and right, outsourcing electric cabinet 13, and it is installed on a side of lathe bed 1, respectively with servomotor 8, Y direction transmission mechanism 3, Z direction transmission mechanism 6, the servomotor 16 of directions X transmission mechanism 12 connects.
During work, can be according to the size of the foamed plastic of processing, the shape of processing, press the button on electric cabinet 13 panels, control the servomotor 16 of Y direction transmission mechanism 3, Z direction transmission mechanism 6, directions X transmission mechanism 12 respectively, the three-dimensional that can realize cutter frame mechanism 20 moves, Deng moving to the position that will process, press startup servomotor 8 buttons of electric cabinet 13, cutter frame mechanism 20 rotations are started working, can adorn various cutters on the knife rest 11, change 500-1500 rev/min of scooter, the depth of cut can reach 2-900cm/min, finishes various processing.
Claims (3)
1. multidimensional Digital Control machining tool, it is characterized in that, by lathe bed (1), lower guideway (2), Y direction transmission mechanism (3), workbench (4), portal frame (5), Z direction transmission mechanism (6), upper rail (7), cutter frame mechanism (20), directions X transmission mechanism (12), electric cabinet (13) is formed, two lower guideways (2) place the both sides of lathe bed (1), portal frame (5) places on two lower guideways (2), Y direction transmission mechanism (3) places lathe bed (1) lining, be connected with portal frame (5) and can drive portal frame (5) and move forward and backward in lower guideway (2) upper edge Y direction, workbench (4) places above the lathe bed (1), Z direction transmission mechanism (6) places portal frame (5) top, two upper rails (7) place the both sides of Z direction transmission mechanism (6) casing, cutter frame mechanism (20) places on two upper rails (7), Z direction transmission mechanism (6) is connected with cutter frame mechanism (20) and can drives cutter frame mechanism (20) and move up and down in upper rail (7) upper edge Z direction, directions X transmission mechanism (12) places a side of portal frame (5), be connected with Z direction transmission mechanism (6), can drive Z direction transmission mechanism (6) along portal frame (5) top directions X move left and right, electric cabinet (13) places a side of lathe bed (1), respectively with Y direction transmission mechanism (3), Z direction transmission mechanism (6), directions X transmission mechanism (12) connects.
2. multidimensional Digital Control machining tool according to claim 1, it is characterized in that, described cutter frame mechanism (20) is made up of servomotor (8), bearing block (9), screw mandrel (10), knife rest (11), servomotor (8) places in the casing of cutter frame mechanism (20), be connected with screw mandrel (10), can drive screw mandrel (10) rotation, two bearing blocks (9) place the two ends of screw mandrel (10), and the lower end of screw mandrel (10) is equipped with knife rest (11).
3. multidimensional Digital Control machining tool according to claim 1, it is characterized in that, described Y direction transmission mechanism (3), Z direction transmission mechanism (6), directions X transmission mechanism (12) is by belt (14), belt pulley (15), servomotor (16), removable guide (17), ball screw (18), supporting seat (19) is formed, two supporting seats (19) place the two ends of ball screw (18), removable guide (17) places on the ball screw (18), belt pulley (15) places an end of ball screw (18), be connected with servomotor (16) by belt (14), servomotor (16) drive ball screw (18) rotation can drive removable guide (17) and move along ball screw (18).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200420021591 CN2686805Y (en) | 2004-04-05 | 2004-04-05 | Multi-dimensional digital control working machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200420021591 CN2686805Y (en) | 2004-04-05 | 2004-04-05 | Multi-dimensional digital control working machine |
Publications (1)
Publication Number | Publication Date |
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CN2686805Y true CN2686805Y (en) | 2005-03-23 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 200420021591 Expired - Fee Related CN2686805Y (en) | 2004-04-05 | 2004-04-05 | Multi-dimensional digital control working machine |
Country Status (1)
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CN (1) | CN2686805Y (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104070369A (en) * | 2014-06-22 | 2014-10-01 | 济南星辉数控机械科技有限公司 | Gantry type computer numerical control (CNC) machining center |
CN107127367A (en) * | 2017-05-18 | 2017-09-05 | 佛山职业技术学院 | A kind of automatic counterbore machine |
-
2004
- 2004-04-05 CN CN 200420021591 patent/CN2686805Y/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104070369A (en) * | 2014-06-22 | 2014-10-01 | 济南星辉数控机械科技有限公司 | Gantry type computer numerical control (CNC) machining center |
CN107127367A (en) * | 2017-05-18 | 2017-09-05 | 佛山职业技术学院 | A kind of automatic counterbore machine |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20050323 Termination date: 20130405 |