CN204504327U - The two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency - Google Patents
The two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency Download PDFInfo
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- CN204504327U CN204504327U CN201520037192.3U CN201520037192U CN204504327U CN 204504327 U CN204504327 U CN 204504327U CN 201520037192 U CN201520037192 U CN 201520037192U CN 204504327 U CN204504327 U CN 204504327U
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Abstract
The utility model proposes the two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency, comprise supporting component, reduction-box apparatus, the first processing unit (plant), the second processing unit (plant) and tail stock device, described reduction-box apparatus, described first processing unit (plant), described second processing unit (plant) and described tail stock device are located at above described supporting component from right to left successively.The utility model, by working alone while the first milling head and the second milling head, shortens process time, improves working (machining) efficiency.And can prevent the screw rod when processing from occurring vibration, improve the precision processing screw rod.
Description
Technical field
The utility model relates to field of mechanical technique, refers to the two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency especially.
Background technology
Existing numerical-control screw rod production miller carries out work by a milling cutter, and such milling machine is consuming time long when processing screw rod, and working (machining) efficiency is low, and vibration also easily appears in screw rod when processing, thus causes the screw rod error that processes large.
Therefore, must make improvements for above-mentioned shortcoming.
Utility model content
The utility model proposes the two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency, solve working (machining) efficiency in prior art low and process the large problem of screw rod error.
The technical solution of the utility model is achieved in that
The two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency, comprise supporting component, reduction-box apparatus, the first processing unit (plant), the second processing unit (plant) and tail stock device, described reduction-box apparatus, described first processing unit (plant), described second processing unit (plant) and described tail stock device are located at above described supporting component from right to left successively, described supporting component comprises base, i-beam frame, final drive shaft bearing, long guideway and tailstock screw mandrel, described i-beam frame is located on described base, and described final drive shaft bearing, described long guideway and described tailstock screw mandrel are located at above described i-beam frame, described reduction-box apparatus comprises reduction box, C axle servomotor and scroll chuck, described reduction box is fixed on above described final drive shaft bearing, and described C axle servomotor is located at above described reduction box, and described scroll chuck is located at described reduction box left end, and described C axle servomotor is connected with described scroll chuck by described reduction box, described first processing unit (plant) comprises first planker, the first upper slide rest, the first short lead rail, the first X-axis servomotor, the first Z axis servomotor, the first X-axis reducer of turbodrill, the first Z axis reducer of turbodrill, the first Z axis screw mandrel, the first X-axis screw mandrel, the first travelling gear, the 3rd travelling gear, the 5th travelling gear, a Z final drive shaft, the first screw rod steady and the first milling head, described first planker is located on described long guideway, described first short lead rail is located on described first planker, described first planker is located in described first short lead rail, described first upper slide rest is located on described first planker, described first X-axis servomotor, described first X-axis reducer of turbodrill, described first X-axis screw mandrel, described first travelling gear, described 3rd travelling gear, described 5th travelling gear, described first screw rod steady and described first milling head are located on described first upper slide rest, described first Z axis screw mandrel is located at above described i-beam frame, a described Z final drive shaft is connected to described first Z axis screw mandrel right-hand member, described first Z axis servomotor and the first Z axis reducer of turbodrill are located on the right side of described reduction box, described first Z axis servomotor is connected with a described Z final drive shaft by described first Z axis reducer of turbodrill, described first planker and described first Z axis screw mandrel are slidably connected, described first travelling gear, the 3rd travelling gear are connected successively with the 5th travelling gear, and described first X-axis servomotor is connected with described first travelling gear by the first X-axis reducer of turbodrill, described 5th travelling gear is connected with described first upper slide rest by described first X-axis screw mandrel, described second processing unit (plant) comprises second largest planker, the second upper slide rest, the second short lead rail, the second X-axis servomotor, the second Z axis servomotor, the second X-axis reducer of turbodrill, the second Z axis reducer of turbodrill, the second Z axis screw mandrel, the second X-axis screw mandrel, the second travelling gear, the 4th travelling gear, the 6th travelling gear, the second screw rod steady and the second milling head, described second largest planker is located on described long guideway, described second short lead rail is located on described second largest planker, described second largest planker is located in described second short lead rail, described second upper slide rest is located on described second largest planker, described second X-axis servomotor, described second X-axis reducer of turbodrill, described second X-axis screw mandrel, described second travelling gear, described 4th travelling gear, described 6th travelling gear, described second screw rod steady and described second milling head are located on described second upper slide rest, described second Z axis screw mandrel is located at above described i-beam frame, described 2nd Z final drive shaft is connected to described second Z axis screw mandrel right-hand member, described second Z axis servomotor and the second Z axis reducer of turbodrill are located on the right side of described reduction box, described second Z axis servomotor is connected with described 2nd Z final drive shaft by described second Z axis reducer of turbodrill, described second largest planker and described second Z axis screw mandrel are slidably connected, described second travelling gear, the 4th travelling gear are connected successively with the 6th travelling gear, and described second X-axis servomotor is connected with described second travelling gear by the second X-axis reducer of turbodrill, described 6th travelling gear is connected with described second upper slide rest by described second X-axis screw mandrel, described tail stock device comprises slide plate, top and screw rod steady, described slide plate slides is connected on described tailstock screw mandrel, and described screw rod steady is located on described slide plate, is describedly toply located at described screw rod steady right-hand member.
Further, described tailstock screw mandrel tail end is provided with joystick.
Further, described first milling head is arranged on described first upper slide rest by the first screw.
Further, described second milling head is arranged on described second upper slide rest by the second screw.
Further, also comprise the complete machine be electrically connected with described reduction box and control switch cabinet and person-computer union.
Enforcement the beneficial effects of the utility model have:
The utility model, by working alone while the first milling head and the second milling head, shortens process time, improves working (machining) efficiency.And can prevent the screw rod when processing from occurring vibration, improve the precision processing screw rod.
Accompanying drawing explanation
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the main TV structure schematic diagram of the two milling head numerical-control screw rod production miller embodiment of a kind of intelligent and high-efficiency of the utility model;
Fig. 2 is the plan structure schematic diagram of the two milling head numerical-control screw rod production miller embodiment of a kind of intelligent and high-efficiency of the utility model;
Fig. 3 is the right TV structure schematic diagram of the two milling head numerical-control screw rod production miller embodiment of a kind of intelligent and high-efficiency of the utility model;
Fig. 4 is the perspective view of the two milling head numerical-control screw rod production miller embodiment of a kind of intelligent and high-efficiency of the utility model;
Detailed description of the invention
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
Referring to figs. 1 through Fig. 4, the two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency that the utility model provides, comprise supporting component, reduction-box apparatus, the first processing unit (plant), the second processing unit (plant) and tail stock device, reduction-box apparatus, the first processing unit (plant), the second processing unit (plant) and tail stock device are located at above supporting component from right to left successively, supporting component comprises base 101, i-beam frame 102, final drive shaft bearing 109, long guideway 110 and tailstock screw mandrel 313, i-beam frame 102 is located on base 101, and final drive shaft bearing 109, long guideway 110 and tailstock screw mandrel 313 are located at above i-beam frame 102, reduction-box apparatus comprises reduction box 301, C axle servomotor 201 and scroll chuck 402, reduction box 301 is fixed on above final drive shaft bearing 109, and C axle servomotor 201 is located at above reduction box 301, and scroll chuck 402 is located at reduction box 301 left end, and C axle servomotor 201 is connected with scroll chuck 401 by reduction box 301, first processing unit (plant) comprises first planker 103, first upper slide rest 105, first short lead rail 1111, first X-axis servomotor 202, first Z axis servomotor 204, first X-axis reducer of turbodrill 302, first Z axis reducer of turbodrill 304, first Z axis screw mandrel 306, first X-axis screw mandrel 308, first travelling gear 3101, the 3rd travelling gear 3111, the 5th travelling gear 3121, Z final drive shaft 314, first screw rod steady 4031 and first milling head 501, first planker 103 is located on long guideway 110, first short lead rail 1111 is located on first planker 103, first planker 103 is located in the first short lead rail 1111, first upper slide rest 105 is located on first planker 103, first X-axis servomotor 202, first X-axis reducer of turbodrill 302, first X-axis screw mandrel 308, first travelling gear 3101, 3rd travelling gear 3111, 5th travelling gear 3121, first screw rod steady 4031 and the first milling head 501 are located on the first upper slide rest 105, first Z axis screw mandrel 306 is located at above i-beam frame 102, one Z final drive shaft 314 is connected to the first Z axis screw mandrel 306 right-hand member, first Z axis servomotor 204 and the first Z axis reducer of turbodrill 304 are located on the right side of reduction box 301, first Z axis servomotor 204 is connected with a Z final drive shaft 314 by the first Z axis reducer of turbodrill 304, first planker 103 and the first Z axis screw mandrel 306 are slidably connected, first travelling gear 3101, the 3rd travelling gear 3111 are connected successively with the 5th travelling gear 3121, and the first X-axis servomotor 202 is connected with the first travelling gear 3101 by the first X-axis reducer of turbodrill 302, 5th travelling gear 3121 is connected with the first upper slide rest 105 by the first X-axis screw mandrel 308, second processing unit (plant) comprises second largest planker 104, second upper slide rest 106, second short lead rail 1112, second X-axis servomotor 203, second Z axis servomotor 205, second X-axis reducer of turbodrill 303, second Z axis reducer of turbodrill 305, second Z axis screw mandrel 307, second X-axis screw mandrel 309, second travelling gear 3102, the 4th travelling gear 3112, the 6th travelling gear 3122, second screw rod steady 4032 and the second milling head 502, second largest planker 104 is located on long guideway 110, second short lead rail 1112 is located on second largest planker 104, second largest planker 104 is located in the second short lead rail 1112, second upper slide rest 106 is located on second largest planker 104, second X-axis servomotor 203, second X-axis reducer of turbodrill 303, second X-axis screw mandrel 309, second travelling gear 3102, 4th travelling gear 3112, 6th travelling gear 3122, second screw rod steady 4032 and the second milling head 502 are located on the second upper slide rest 106, second Z axis screw mandrel 307 is located at above i-beam frame 102, 2nd Z final drive shaft 315 is connected to the second Z axis screw mandrel 307 right-hand member, second Z axis servomotor 205 and the second Z axis reducer of turbodrill 305 are located on the right side of reduction box 301, second Z axis servomotor 205 is connected with the 2nd Z final drive shaft 315 by the second Z axis reducer of turbodrill 305, second largest planker 104 and the second Z axis screw mandrel 307 are slidably connected, second travelling gear 3102, the 4th travelling gear 3112 are connected successively with the 6th travelling gear 3122, and the second X-axis servomotor 203 is connected with the second travelling gear 3102 by the second X-axis reducer of turbodrill 303, 6th travelling gear 3122 is connected with the second upper slide rest 106 by the second X-axis screw mandrel 309, tail stock device comprises slide plate 107, top 401 and screw rod steady 403, slide plate 107 is slidably connected on tailstock screw mandrel 313, and screw rod steady 403 is located on slide plate 107, and top 401 are located at screw rod steady 403 right-hand member.
Long guideway 110 is at least parallel two of being located at above i-beam frame 102; 5th travelling gear 3121 is set on the first X-axis screw mandrel 308, and the 6th travelling gear 3122 is set on the second X-axis screw mandrel 309; Three grab chuck 402 is arranged on reduction box 301 main output shaft, three grab chuck 402 coordinates with top 401 and is held out against by screw rod, carry out screw milling again by the first milling head 501 and the second milling head 502 simultaneously, top 401, first milling head 501 and the second milling head 50 can move left and right on i-beam frame 102, such design works alone while can making the first milling head and the second milling head, shorten process time, improve working (machining) efficiency.And can prevent the screw rod when processing from occurring vibration, improve the precision processing screw rod.
Tailstock screw mandrel 313 tail end is provided with joystick 208, by joystick 208 standing screw, certainly, electronic rocking bar also can be adopted to replace joystick 208.
First milling head 501 is arranged on the first upper slide rest 105 by the first screw, first milling head 501 is provided with the first milling head motor 206 of driving first milling head 501, second milling head 502 is arranged on the second upper slide rest 106 by the second screw, second milling head 502 is provided with the first milling head motor 207 of driving second milling head 502, is facilitated the installation and removal of the first milling head 501 and the second milling head 502 by the first screw and the second screw.
The two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency also comprises the complete machine be electrically connected with reduction box 301 and controls switch cabinet and person-computer union.The technical program adopts virtual instrument of LabVIEW and motion module and motion control card thereof to be Control Component, and devise system of processing man machine operation interface, therefore whole process, simple, convenient, time saving and energy saving, meet the design concept of modern product.
The technical program is by the first upper slide rest 105 and first planker 103 and the cooperation between the first upper slide rest 106 and first planker 104, and enhance the vibration proof measure of screw milling machine, therefore, screw rod machining accuracy is guaranteed.
In sum, the utility model, by working alone while the first milling head and the second milling head, shortens process time, improves working (machining) efficiency.And can prevent the screw rod when processing from occurring vibration, improve the precision processing screw rod.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (5)
1. the two milling head numerical-control screw rod production miller of intelligent and high-efficiency, it is characterized in that, comprise supporting component, reduction-box apparatus, the first processing unit (plant), the second processing unit (plant) and tail stock device, described reduction-box apparatus, described first processing unit (plant), described second processing unit (plant) and described tail stock device are located at above described supporting component from right to left successively, described supporting component comprises base (101), i-beam frame (102), final drive shaft bearing (109), long guideway (110) and tailstock screw mandrel (313), described i-beam frame (102) is located on described base (101), and described final drive shaft bearing (109), described long guideway (110) and described tailstock screw mandrel (313) are located at above described i-beam frame (102), described reduction-box apparatus comprises reduction box (301), C axle servomotor (201) and scroll chuck (402), described reduction box (301) is fixed on above described final drive shaft bearing (109), described C axle servomotor (201) is located at above described reduction box (301), described scroll chuck (402) is located at described reduction box (301) left end, and described C axle servomotor (201) is connected with described scroll chuck (401) by described reduction box (301), described first processing unit (plant) comprises first planker (103), first upper slide rest (105), first short lead rail (1111), first X-axis servomotor (202), first Z axis servomotor (204), first X-axis reducer of turbodrill (302), first Z axis reducer of turbodrill (304), first Z axis screw mandrel (306), first X-axis screw mandrel (308), first travelling gear (3101), 3rd travelling gear (3111), 5th travelling gear (3121), one Z final drive shaft (314), first screw rod steady (4031) and the first milling head (501), described first planker (103) is located on described long guideway (110), described first short lead rail (1111) is located on described first planker (103), described first planker (103) is located on described first short lead rail (1111), described first upper slide rest (105) is located on described first planker (103), described first X-axis servomotor (202), described first X-axis reducer of turbodrill (302), described first X-axis screw mandrel (308), described first travelling gear (3101), described 3rd travelling gear (3111), described 5th travelling gear (3121), described first screw rod steady (4031) and described first milling head (501) are located on described first upper slide rest (105), described first Z axis screw mandrel (306) is located at above described i-beam frame (102), a described Z final drive shaft (314) is connected to described first Z axis screw mandrel (306) right-hand member, described first Z axis servomotor (204) and the first Z axis reducer of turbodrill (304) are located at described reduction box (301) right side, described first Z axis servomotor (204) is connected with a described Z final drive shaft (314) by described first Z axis reducer of turbodrill (304), described first planker (103) and described first Z axis screw mandrel (306) are slidably connected, described first travelling gear (3101), the 3rd travelling gear (3111) are connected successively with the 5th travelling gear (3121), and described first X-axis servomotor (202) is connected with described first travelling gear (3101) by the first X-axis reducer of turbodrill (302), described 5th travelling gear (3121) is connected with described first upper slide rest (105) by described first X-axis screw mandrel (308), described second processing unit (plant) comprises second largest planker (104), second upper slide rest (106), second short lead rail (1112), second X-axis servomotor (203), second Z axis servomotor (205), second X-axis reducer of turbodrill (303), second Z axis reducer of turbodrill (305), second Z axis screw mandrel (307), second X-axis screw mandrel (309), second travelling gear (3102), 4th travelling gear (3112), 6th travelling gear (3122), second screw rod steady (4032) and the second milling head (502), described second largest planker (104) is located on described long guideway (110), described second short lead rail (1112) is located on described second largest planker (104), described second largest planker (104) is located on described second short lead rail (1112), described second upper slide rest (106) is located on described second largest planker (104), described second X-axis servomotor (203), described second X-axis reducer of turbodrill (303), described second X-axis screw mandrel (309), described second travelling gear (3102), described 4th travelling gear (3112), described 6th travelling gear (3122), described second screw rod steady (4032) and described second milling head (502) are located on described second upper slide rest (106), described second Z axis screw mandrel (307) is located at above described i-beam frame (102), described 2nd Z final drive shaft (315) is connected to described second Z axis screw mandrel (307) right-hand member, described second Z axis servomotor (205) and the second Z axis reducer of turbodrill (305) are located at described reduction box (301) right side, described second Z axis servomotor (205) is connected with described 2nd Z final drive shaft (315) by described second Z axis reducer of turbodrill (305), described second largest planker (104) and described second Z axis screw mandrel (307) are slidably connected, described second travelling gear (3102), the 4th travelling gear (3112) are connected successively with the 6th travelling gear (3122), and described second X-axis servomotor (203) is connected with described second travelling gear (3102) by the second X-axis reducer of turbodrill (303), described 6th travelling gear (3122) is connected with described second upper slide rest (106) by described second X-axis screw mandrel (309), described tail stock device comprises slide plate (107), top (401) and screw rod steady (403), described slide plate (107) is slidably connected on described tailstock screw mandrel (313), described screw rod steady (403) is located on described slide plate (107), and described top (401) are located at described screw rod steady (403) right-hand member.
2. the two milling head numerical-control screw rod production miller of intelligent and high-efficiency according to claim 1, it is characterized in that, described tailstock screw mandrel (313) tail end is provided with joystick (208).
3. the two milling head numerical-control screw rod production miller of intelligent and high-efficiency according to claim 1, it is characterized in that, described first milling head (501) is arranged on described first upper slide rest (105) by the first screw.
4. the two milling head numerical-control screw rod production miller of intelligent and high-efficiency according to claim 1, it is characterized in that, described second milling head (502) is arranged on described second upper slide rest (106) by the second screw.
5. the two milling head numerical-control screw rod production miller of intelligent and high-efficiency according to claim 1, is characterized in that, also comprise the complete machine be electrically connected with described reduction box (301) and control switch cabinet and person-computer union.
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CN201520037192.3U CN204504327U (en) | 2015-01-19 | 2015-01-19 | The two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency |
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CN201520037192.3U CN204504327U (en) | 2015-01-19 | 2015-01-19 | The two milling head numerical-control screw rod production miller of a kind of intelligent and high-efficiency |
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CN105618790A (en) * | 2016-03-31 | 2016-06-01 | 湖北昌耀新材料股份有限公司 | Maintenance lathe for electric pole molds |
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