CN213470237U - Double-spindle double-turret CNC turning and milling composite device - Google Patents
Double-spindle double-turret CNC turning and milling composite device Download PDFInfo
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- CN213470237U CN213470237U CN202021620894.1U CN202021620894U CN213470237U CN 213470237 U CN213470237 U CN 213470237U CN 202021620894 U CN202021620894 U CN 202021620894U CN 213470237 U CN213470237 U CN 213470237U
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Abstract
The utility model discloses a two main shaft double knives tower CNC turnning and milling set composite, including the lathe bed, the main shaft has been installed through the main shaft mount pad in the lathe bed left side, and the main shaft passes through the hold-in range and is connected at the main shaft servo motor of lathe bed lower part with the dress, and lathe bed upper portion is located main shaft one side and is equipped with the last traversing mechanism parallel with the main shaft, goes up to be equipped with on the traversing mechanism with the main shaft symmetry and with the vice main shaft servo motor of axle center distribution, and vice main shaft passes through the hold-in range and is connected at the vice main shaft servo motor of last traversing mechanism with the dress, upward be equipped with the processing agency in the traversing mechanism, the lathe bed lower part is located. The utility model discloses a two main shaft double knives tower structures have improved machining efficiency.
Description
Technical Field
The utility model belongs to the technical field of a turnning and milling device and specifically relates to a two main shaft two sword tower CNC turnning and milling set composite.
Background
Although the existing turning composite equipment can complete most of procedures such as turning, drilling and tapping after one-time clamping, the other end needs to be replaced for clamping and processing.
In order to solve the problem of repeated clamping and processing, the conventional double-spindle turning compound equipment is additionally provided with the opposite spindle on the conventional equipment, so that secondary clamping for processing the other end is avoided, but the spindle and the opposite spindle cannot be processed simultaneously, and the processing efficiency is unsatisfactory.
Disclosure of Invention
The invention aims to solve the technical problem of providing a double-spindle double-turret CNC turning and milling composite device with high machining efficiency.
In order to solve the technical problems, the invention adopts the following technical scheme:
the utility model provides a two main shaft double knives tower CNC turnning and milling set composite, includes the lathe bed, the main shaft has been installed through the main shaft mount pad in the lathe bed left side, the main shaft passes through the hold-in range to be connected with the main shaft servo motor who adorns in the lathe bed lower part, lathe bed upper portion is located main shaft one side and is equipped with the horizontal migration mechanism parallel with the main shaft, upward be equipped with the vice main shaft that distributes with the main shaft symmetry and with the axle center on the horizontal migration mechanism, vice main shaft passes through the hold-in range and is connected with the vice main shaft servo motor who adorns at the horizontal migration mechanism, upward be equipped with the processing agency on the horizontal migration mechanism, the lathe bed lower.
The upper transverse moving mechanism comprises an upper guide rail, a first upper screw rod, a second upper screw rod, a first upper motor and a second upper motor, the first upper screw rod and the second upper screw rod are installed in a mirror image mode, the first upper motor is connected with the first upper screw rod, the second upper motor is connected with the second upper screw rod, the upper machining mechanism is installed on the first upper screw rod, an upper sliding plate is installed on the second screw rod, and an auxiliary main shaft servo motor are installed on the upper sliding plate.
The upper guide rails are provided with two upper guide rails, the upper sliding plate is arranged on the two upper guide rails, the first upper screw rod and the second upper screw rod are positioned between the two upper guide rails, and the upper processing mechanism is arranged on the upper guide rails.
The lower transverse moving mechanism comprises a lower guide rail, a lower screw rod and a lower motor, the lower motor is connected with the lower screw rod, and the lower processing mechanism is arranged on the lower screw rod.
The lower guide rails are provided with two lower screw rods, the lower screw rods are located between the two lower guide rails, and the lower processing mechanism is arranged on the lower guide rails.
The upper machining mechanism comprises an upper machining sliding plate, an upper Y-axis moving mechanism and an upper tool turret, the upper tool turret is mounted on the upper Y-axis moving mechanism, the upper machining sliding plate is mounted on a first upper screw rod, the upper Y-axis moving mechanism is mounted on the upper machining sliding plate, an upper driving motor is arranged on the upper machining sliding plate, and the upper driving motor is connected with the upper tool turret and used for driving the upper tool turret to rotate.
The lower machining mechanism comprises a lower machining sliding plate, a lower Y-axis moving mechanism and a lower cutter tower, the lower cutter tower is arranged on the lower Y-axis moving mechanism, the lower machining sliding plate is arranged on the lower lead screw, the lower Y-axis moving mechanism is arranged on the lower machining sliding plate, a lower driving motor is arranged on the lower machining sliding plate, and the lower driving motor is connected with the lower cutter tower and used for driving the lower cutter tower to rotate.
The utility model discloses a two main shaft double knives tower structures utilize main shaft and vice main shaft to process, save the assembly number of times, improve machining efficiency.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
fig. 2 is a side view schematic diagram of the present invention.
Fig. 3 is an exploded view of the present invention.
Detailed Description
For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.
As shown in attached figures 1, 2 and 3, the utility model discloses a two main shaft double knives tower CNC turnning and milling set composite, including lathe bed 1, main shaft 2 has been installed through the main shaft mount pad in lathe bed 1 left side, and main shaft 2 passes through the hold-in range and is connected at the main shaft servo motor 16 of lathe bed lower part with the dress, and 1 upper portion of lathe bed is located 2 one sides of main shaft and is equipped with the last traverse mechanism parallel with the main shaft, goes up to be equipped with on the traverse mechanism with 2 symmetry of main shaft and the vice main shaft servo motor that distributes with the axle center, and vice main shaft 3 passes through the hold-in range and is connected at the vice main shaft servo motor of going up traverse mechanism, goes up to be equipped with on the traverse mechanism and processes the mechanism, and the lathe bed lower part is. The principal axis direction may be defined as the X-axis direction.
The upper transverse moving mechanism comprises an upper guide rail 11, a first upper screw rod 12, a second upper screw rod 13, a first upper motor 17 and a second upper motor 18, the first upper screw rod 12 and the second upper screw rod 13 are installed in a mirror image mode, the first upper motor 17 is connected with the first upper screw rod 12, the second upper motor 18 is connected with the second upper screw rod 13, the upper processing mechanism is installed on the first upper screw rod, an upper sliding plate 31 is installed on the second screw rod 13, an auxiliary main shaft 3 and an auxiliary main shaft servo motor 32 are installed on the upper sliding plate 31, and the upper processing mechanism is installed on the first upper screw rod. The number of the upper guide rails is two, the upper sliding plate 31 is arranged on the two upper guide rails 11, the first upper screw rod and the second upper screw rod are positioned between the two upper guide rails, and the upper processing mechanism is arranged on the upper guide rails. The second upper motor drives the second upper screw rod to rotate, so that the upper sliding plate is driven to move axially, the moving direction is the X-axis direction, and the auxiliary main shaft can be driven to be close to or far away from the main shaft.
The lower transverse moving mechanism comprises a lower guide rail 14, a lower screw rod 15 and a lower motor 19, the lower motor 19 is connected with the lower screw rod 15, and the lower processing mechanism is arranged on the lower screw rod. The lower guide rails are provided with two lower screw rods, the lower screw rods are positioned between the two lower guide rails, and the lower processing mechanism is arranged on the lower guide rails. The lower motor is used for driving the lower screw rod to rotate, and the lower machining mechanism is driven to move in the X-axis direction.
The upper machining mechanism comprises an upper machining sliding plate 41, an upper Y-axis moving mechanism 4 and an upper tool turret 42, the upper tool turret 42 is mounted on the upper Y-axis moving mechanism 4, the upper machining sliding plate 41 is mounted on the first upper screw rod 12, the upper Y-axis moving mechanism is mounted on the upper machining sliding plate, an upper driving motor is arranged on the upper machining sliding plate, and the upper driving motor is connected with the upper tool turret and used for driving the upper tool turret to rotate. The upper Y-axis moving mechanism can be a combination of a motor and a screw rod, and drives the upper tool turret to move in the Y-axis direction, namely the direction vertical to the upper machining sliding plate relatively. The upper driving motor drives the first upper screw rod to rotate, and can drive the upper tool turret to move along the direction of the main shaft.
The lower machining mechanism comprises a lower machining sliding plate 51, a lower Y-axis moving mechanism 5 and a lower tool turret 52, the lower tool turret 52 is installed on the lower Y-axis moving mechanism 5, the lower machining sliding plate 51 is installed on the lower lead screw 14, the lower Y-axis moving mechanism 5 is installed on the lower machining sliding plate 51, a lower driving motor is arranged on the lower machining sliding plate 51, and the lower driving motor is connected with the lower tool turret and used for driving the lower tool turret to rotate.
The main shaft and the auxiliary main shaft are both provided with clamps for clamping workpieces, and the clamps can adopt the existing known clamps and meet the requirement of clamping the workpieces.
The main shaft is used for bearing the workpiece fixture, and the main shaft is driven by the main shaft servo motor to rotate, so that the workpiece arranged on the main shaft makes rotary motion.
And the auxiliary main shaft is symmetrical to the main shaft and is arranged coaxially, is driven by the auxiliary main shaft servo motor to rotate, and can be used for assembling workpieces. After the parts on the main shaft 2 are machined, the parts can be moved to the front of the main shaft 2 to clamp the parts, and then the parts are returned to the original position to machine the other end of the parts. Therefore, the parts do not need to be disassembled for secondary clamping, and the clamping time is saved.
The first upper motor drives the first upper screw rod to rotate, and drives the upper tool turret to move, the upper tool turret is used for assembling various machining tools, and the upper tool turret is driven to rotate by the upper driving motor. And utilize last Y axle moving mechanism, can drive the upper cutter tower and remove in the direction of Y axle perpendicular to main shaft promptly, conveniently adjust the distance between the processing part, mainly provide the function of turning and milling and attacking the brill carving gong, the part of workable main shaft department also can process the part of vice main shaft department.
The lower driving motor drives the lower screw rod to rotate so as to drive the lower tool turret to move, the lower Y-axis moving mechanism drives the lower tool turret to move in the direction perpendicular to the Y axis, the lower driving motor drives the lower tool turret to rotate, and the corresponding tool is assembled on the lower tool turret. The parts on the auxiliary main shaft 3 can be machined, i.e. when the auxiliary main shaft is in a machining state, the main shaft can be machined simultaneously. Or may support spindle machining when needed. The upper tool turret and the lower tool turret are respectively arranged on two sides of the main shaft, so that the machining can be carried out simultaneously or independently, and the machining is more flexible.
In addition, a Y-axis moving mechanism can be arranged on the upper sliding plate, and the auxiliary main shaft servo motor are both arranged on the Y-axis moving mechanism, so that the position of the auxiliary main shaft in the Y-axis direction can be adjusted.
Although the present invention has been described in detail with reference to the embodiments, it will be apparent to those skilled in the art that modifications, equivalents, improvements, and the like can be made in the technical solutions of the foregoing embodiments or in some of the technical features of the foregoing embodiments, but those modifications, equivalents, improvements, and the like are all within the spirit and principle of the present invention.
Claims (7)
1. The utility model provides a two main shaft two sword tower CNC turnning and milling set composite, includes the lathe bed, its characterized in that, the main shaft has been installed through the main shaft mount pad in the lathe bed left side, the main shaft passes through the hold-in range to be connected with the main shaft servo motor who adorns in the lathe bed lower part, lathe bed upper portion is located main shaft one side and is equipped with the horizontal migration mechanism parallel with the main shaft, upward be equipped with the vice main shaft with the main shaft symmetry on the horizontal migration mechanism and with the axle center distribution, vice main shaft passes through the hold-in range and is connected with the vice main shaft servo motor who adorns at the horizontal migration mechanism, upward be equipped with processing mechanism on the shifting mechanism, the lathe bed lower part is.
2. The dual spindle dual turret CNC turning and milling complex apparatus of claim 1, wherein the upper traverse mechanism includes an upper guide rail, a first upper screw, a second upper screw, a first upper motor, a second upper motor, the first upper screw and the second upper screw are installed in a mirror image, the first upper motor is connected with the first upper screw, the second upper motor is connected with the second upper screw, the upper processing mechanism is installed on the first upper screw, the second screw is installed with an upper slide plate, the sub spindle and the sub spindle servo motor are installed on the upper slide plate.
3. The dual spindle dual turret CNC turning and milling compound device of claim 2 wherein there are two upper rails, the upper slide is mounted on the two upper rails, the first upper screw and the second upper screw are located between the two upper rails, and the upper processing mechanism is mounted on the upper rails.
4. The dual spindle dual turret CNC turning and milling compound device of claim 3 wherein the lower traversing mechanism includes a lower guide, a lower lead screw and a lower motor, the lower motor is connected to the lower lead screw, and the lower processing mechanism is mounted on the lower lead screw.
5. The dual spindle dual turret CNC turning and milling compound device of claim 4 wherein there are two lower rails, the lower lead screw is located between the two lower rails, and the lower processing means is mounted on the lower rails.
6. The dual spindle dual turret CNC turning and milling compound device of claim 5, wherein the upper machining mechanism includes an upper machining slide, an upper Y-axis moving mechanism and an upper turret, the upper turret is mounted on the upper Y-axis moving mechanism, the upper machining slide is mounted on the first upper lead screw, the upper Y-axis moving mechanism is mounted on the upper machining slide, an upper driving motor is provided on the upper machining slide, and the upper driving motor is connected with the upper turret for driving the upper turret to rotate.
7. The dual spindle dual turret CNC turning and milling compound device of claim 6, wherein the lower processing mechanism comprises a lower processing slide, a lower Y-axis moving mechanism and a lower turret, the lower turret is mounted on the lower Y-axis moving mechanism, the lower processing slide is mounted on the lower lead screw, the lower Y-axis moving mechanism is mounted on the lower processing slide, a lower driving motor is provided on the lower processing slide, and the lower driving motor is connected with the lower turret for driving the lower turret to rotate.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021620894.1U CN213470237U (en) | 2020-08-06 | 2020-08-06 | Double-spindle double-turret CNC turning and milling composite device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021620894.1U CN213470237U (en) | 2020-08-06 | 2020-08-06 | Double-spindle double-turret CNC turning and milling composite device |
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| CN213470237U true CN213470237U (en) | 2021-06-18 |
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| CN202021620894.1U Active CN213470237U (en) | 2020-08-06 | 2020-08-06 | Double-spindle double-turret CNC turning and milling composite device |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113695615A (en) * | 2021-09-27 | 2021-11-26 | 焦作市万方集团精密制造有限公司 | Metal mirror surface precision finishing device |
| CN113829069A (en) * | 2021-10-25 | 2021-12-24 | 安徽博尚工业装备有限公司 | Double-spindle double-tool-tower turning and milling composite machine tool |
-
2020
- 2020-08-06 CN CN202021620894.1U patent/CN213470237U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113695615A (en) * | 2021-09-27 | 2021-11-26 | 焦作市万方集团精密制造有限公司 | Metal mirror surface precision finishing device |
| CN113829069A (en) * | 2021-10-25 | 2021-12-24 | 安徽博尚工业装备有限公司 | Double-spindle double-tool-tower turning and milling composite machine tool |
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