CN202571787U - Four traverse table three station machining structure for machine tool - Google Patents
Four traverse table three station machining structure for machine tool Download PDFInfo
- Publication number
- CN202571787U CN202571787U CN 201120562194 CN201120562194U CN202571787U CN 202571787 U CN202571787 U CN 202571787U CN 201120562194 CN201120562194 CN 201120562194 CN 201120562194 U CN201120562194 U CN 201120562194U CN 202571787 U CN202571787 U CN 202571787U
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- process equipment
- machining
- clamping workbench
- clamping
- planer
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Abstract
The utility model discloses a four traverse table three station machining structure for a machine tool. The four traverse table three station machining structure comprises a first machining device, a second machining device and a third machining device. Conveying devices are arranged among the first machining device, the second machining device and the third machining device. The four traverse table three station machining structure further comprises a plurality of clamping operating platforms which are conveyed through the conveying devices to the first machining device, the second machining device and the third machining device to be machined. The four traverse table three station machining structure for the machine tool has the advantages that machining of all working procedures can be completed through one-shot clamping, so a large amount of clamping time and labor hours are saved, machining efficiency is improved; and high-speed machining devices and low-speed machining devices are matched with each other, so the possibility that one to-be-machined workpiece is accumulated on a certain working procedure is reduced.
Description
Technical field
The utility model relates to a kind of machine tool structure, and especially a kind of lathe is with four travelling tables, three station processing structures.
Background technology
Machine components processing often needs multiple working procedure, and inter process is owing to the variation of process equipment, and every cover operation all need be equipped with a cover frock clamp; And workpiece to be processed carried out again clamping to adapt to the needs of different process equipments; Not only need huge parking space depositing nipper, and need dispose available manpower and safeguard, and the duplication of labour that need constantly dismantle and clamp in use; Waste time and energy, influence operating efficiency.
Because the employed process equipment of each operation characteristic and processing request separately in the whole machining process process; The speed that causes some operation to carry out is fast; The speed that some operation is carried out is slower; Can cause workpiece to be processed produce to pile up like this, make the slower operation of execution speed become the bottleneck of whole machining process process, influence the efficient of whole machining process process at slow operation place.
The utility model content
Add the problems referred to above of depositing the place man-hour to existing machinery part multiple working procedure, the utility model provides a kind of lathe with four travelling tables, three station processing structures.
The technological means that the utility model technical solution problem is adopted is:
A kind of lathe wherein, comprises first process equipment, second process equipment and the 3rd process equipment with four travelling tables, three station processing structures, is provided with conveyer between said first process equipment and said second process equipment and said the 3rd process equipment;
Also comprise a plurality of clamping workbench, a plurality of said clamping workbench are sent to said first process equipment, second process equipment and said the 3rd process equipment by said conveyer and process;
Said first process equipment is a rapid processing equipment;
Said second process equipment is identical with said the 3rd process equipment, and to be the process of process equipment at a slow speed and execution identical, and a plurality of said clamping workbench are assigned to said second process equipment with preordering method or said the 3rd process equipment is processed.
Above-mentioned lathe is with four travelling tables, three station processing structures, and wherein, said first process equipment is correct boring machine, and said second process equipment and said the 3rd process equipment are planer-type milling machine.
Above-mentioned lathe is with four travelling tables, three station processing structures, and wherein, said clamping workbench has 4.
Above-mentioned lathe is with four travelling tables, three station processing structures, and wherein, said second process equipment becomes symmetrical structure distribution in the said first process equipment both sides with said the 3rd process equipment.
Above-mentioned lathe is with four travelling tables, three station processing structures, and wherein, said a plurality of clamping workbench are uniformly distributed in the said first process equipment both sides.
The beneficial effect of the utility model is:
Can realize that clamping promptly accomplishes the processing content of all process steps; A large amount of clamping time and labor hour have been saved; Improved working (machining) efficiency, and High-speed machining equipment and low speed process equipment cooperatively interact, that has reduced that workpiece to be processed piles up in certain procedure place maybe.
Description of drawings
Fig. 1 is the plan structure figure of a kind of lathe of the utility model with four travelling tables, three station processing structures.
The specific embodiment
Below in conjunction with accompanying drawing and specific embodiment the utility model is described further, but not as the qualification of the utility model.
A kind of lathe of the utility model comprises first process equipment, second process equipment and the 3rd process equipment with four travelling tables, three station processing structures, is provided with conveyer between first process equipment and second process equipment and the 3rd process equipment; Also comprise a plurality of clamping workbench, a plurality of clamping workbench are sent to first process equipment, second process equipment and the 3rd process equipment by conveyer and process; First process equipment is a rapid processing equipment; Second process equipment is identical with the 3rd process equipment, and to be the process of process equipment at a slow speed and execution identical, and a plurality of clamping workbench are assigned to second process equipment with preordering method or the 3rd process equipment is processed.
The principle of the utility model is; Adopt unified clamping workbench that workpiece to be processed is carried out clamping, avoided inter process clamping again, improved working (machining) efficiency; A rapid processing equipment and two process equipments at a slow speed of carrying out same processes are set simultaneously; The workpiece to be processed that the rapid processing apparatus processing is finished is assigned to two process equipments at a slow speed by predetermined policy, and the speed of process equipment is cooperatively interacted, and avoids workpiece to be processed and certain procedure place to pile up.
The speed actual according to equipment; Rapid processing equipment can be that 1:2 also can be other ratios with the ratio of process equipment at a slow speed; The quantity of clamping workbench also can confirm that the quantity of preferred clamping workbench can be that the twice of process equipment quantity at a slow speed is so that process equipment is better with cooperating of rapid processing equipment at a slow speed according to the quantity of process equipment at a slow speed.
Come the utility model is further described with a concrete embodiment below, as shown in Figure 1, wherein, first process equipment can be that correct boring machine 1, the second process equipment can be that planer-type milling machine 2, the three process equipments can be planer-type milling machines 3; The clamping workbench has 4, is respectively clamping workbench 51, clamping workbench 52, clamping workbench 53 and clamping workbench 54.3 one-tenth symmetrical structure distribution of planer-type milling machine 2 and planer-type milling machine are in the both sides of correct boring machine 1; Conveyer 6 connects planer-type milling machine 2, correct boring machine 1 and planer-type milling machine 3, and clamping workbench 51, clamping workbench 52, clamping workbench 53 and clamping workbench 54 are uniformly distributed in the both sides of correct boring machine 1.
Planer-type milling machine 2 and planer-type milling machine 3 and correct boring machine 1 be symmetrically distributed make workpiece to be processed from correct boring machine 1 to planer-type milling machine 2 distance and equate to the distance of planer-type milling machine 3; Workpiece to be processed was equated with the time that arrives planer-type milling machine 3 by correct boring machine 1 by the time that correct boring machine 1 arrival planer-type milling machine 2 is consumed under the situation that transfer rate equates; Make the working (machining) efficiency of two planer-type milling machines identical; Can not cause working (machining) efficiency not wait the unmatched situation of process velocity that occurs because of the relation of transmitting range, it is identical therewith that clamping workbench 51, clamping workbench 52, clamping workbench 53 and clamping workbench 54 are uniformly distributed in the effect of both sides of correct boring machine 1.
Its concrete control method is:
Step 1,4 workpieces to be processed are clamped in respectively on clamping workbench 51, clamping workbench 52, clamping workbench 53 and the clamping workbench 54;
Step 2, the Working position 11 that clamping workbench 51 is passed to correct boring machine 1 are processed;
Step 3, treat correct boring machine 1 completion of processing, the Working position 21 that clamping workbench 51 is sent to planer-type milling machine 2 is processed;
Step 4, the Working position 11 that clamping workbench 52 is passed to correct boring machine 1 are processed;
Step 5, treat correct boring machine 1 completion of processing, the Working position 31 that clamping workbench 52 is sent to planer-type milling machine 3 is processed;
Step 7, treat planer-type milling machine 2 completion of processing, clamping workbench 51 is sent back the home position, and the workpiece on the clamping workbench 51 is unloaded, simultaneously with on the new workpiece to be processed clamping;
Step 8, treat correct boring machine 1 completion of processing, the Working position 21 that clamping workbench 53 is sent to planer-type milling machine 2 is processed;
Step 9, the Working position 11 that clamping workbench 54 is passed to correct boring machine 1 are processed;
Step 10, treat planer-type milling machine 3 completion of processing, clamping workbench 52 is sent back the home position, and the workpiece on the clamping workbench 52 is unloaded, simultaneously with on the new workpiece to be processed clamping;
Step 12, the Working position 11 that clamping workbench 51 is passed to correct boring machine 1 are processed;
Step 13, treat planer-type milling machine 2 completion of processing, clamping workbench 53 is sent back the home position, and the workpiece on the clamping workbench 53 is unloaded, simultaneously with on the new workpiece to be processed clamping;
Step 14, treat correct boring machine 1 completion of processing, clamping workbench 51 is sent to planer-type milling machine 2 processes;
Step 15, the Working position 11 that clamping workbench 52 is passed to correct boring machine 1 are processed;
Step 16, treat planer-type milling machine 3 completion of processing, clamping workbench 54 is sent back the home position, and the workpiece on the clamping workbench 54 is unloaded, simultaneously with on the new workpiece to be processed clamping;
Repeating step 5 is to step 16, until all workpiece to be processed completion of processing.
Be transferred back to the home position when wherein, each clamping workbench is transferred into planer-type milling machine 2 or planer-type milling machine 3 by correct boring machine 1 earlier.So that observe the processing effect of correct boring machine 1, when going wrong, can in time stop the whole machining process process, avoid loss to enlarge.
Because the process velocity of correct boring machine 1 approximately is one times of planer-type milling machine 2 and planer-type milling machine 3; So can make you be assigned in planer-type milling machine 2 and the planer-type milling machine 3 of workpiece of correct boring machine 1 completion of processing by above-mentioned control method, making at a slow speed, process equipment and rapid processing equipment cooperatively interact to improve whole working (machining) efficiency.Said method is the description that is directed against in a kind of refinement of preceding embodiment; Its purport is to realize average being assigned in a plurality of process equipments at a slow speed of workpiece that quick apparatus processing is finished, when process equipment is not the structure according to previous embodiment, also needn't adhere rigidly to said method in each details.
The above is merely the utility model preferred embodiment; Be not thus the restriction the utility model claim; So the equivalent structure that all utilization the utility model specifications and diagramatic content have been done changes, and all is included in the protection domain of the utility model.
Claims (5)
1. a lathe is with four travelling tables, three station processing structures; It is characterized in that; Comprise first process equipment, second process equipment and the 3rd process equipment, be provided with conveyer between said first process equipment and said second process equipment and said the 3rd process equipment;
Also comprise a plurality of clamping workbench, a plurality of said clamping workbench are sent to said first process equipment, second process equipment and said the 3rd process equipment by said conveyer and process;
Said first process equipment is a rapid processing equipment;
Said second process equipment is identical with said the 3rd process equipment, and to be the process of process equipment at a slow speed and execution identical, and a plurality of said clamping workbench are assigned to said second process equipment with preordering method or said the 3rd process equipment is processed.
2. lathe is characterized in that with four travelling tables, three station processing structures said first process equipment is correct boring machine according to claim 1, and said second process equipment and said the 3rd process equipment are planer-type milling machine.
Like the said lathe of claim 2 with four travelling tables, three station processing structures, it is characterized in that said clamping workbench has 4.
Like arbitrary said lathe among the claim 1-3 with four travelling tables, three station processing structures, it is characterized in that said second process equipment becomes symmetrical structure distribution in the said first process equipment both sides with said the 3rd process equipment.
Like the said lathe of claim 4 with four travelling tables, three station processing structures, it is characterized in that said a plurality of clamping workbench are uniformly distributed in the said first process equipment both sides.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201120562194 CN202571787U (en) | 2011-12-29 | 2011-12-29 | Four traverse table three station machining structure for machine tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201120562194 CN202571787U (en) | 2011-12-29 | 2011-12-29 | Four traverse table three station machining structure for machine tool |
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CN202571787U true CN202571787U (en) | 2012-12-05 |
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CN 201120562194 Expired - Fee Related CN202571787U (en) | 2011-12-29 | 2011-12-29 | Four traverse table three station machining structure for machine tool |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102554621A (en) * | 2011-12-29 | 2012-07-11 | 上海三一精机有限公司 | Machining structure of four movable working tables and three stations for machine tool and control method |
CN104002138A (en) * | 2014-06-03 | 2014-08-27 | 台州三锦工业机器有限公司 | Numerically controlled machine tool |
-
2011
- 2011-12-29 CN CN 201120562194 patent/CN202571787U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102554621A (en) * | 2011-12-29 | 2012-07-11 | 上海三一精机有限公司 | Machining structure of four movable working tables and three stations for machine tool and control method |
CN104002138A (en) * | 2014-06-03 | 2014-08-27 | 台州三锦工业机器有限公司 | Numerically controlled machine tool |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C41 | Transfer of patent application or patent right or utility model | ||
TR01 | Transfer of patent right |
Effective date of registration: 20150922 Address after: 201400, Shanghai, Fengxian District, 19 Lang Road, No. 3 Patentee after: SHANGHAI BRANCH OF SANY GROUP CO., LTD. Address before: 201306, No. two, 318 Avenue, Lingang Industrial Park, Shanghai, Fengxian District, A Patentee before: Seiki Co., Ltd. Shanghai Sany |
|
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121205 Termination date: 20171229 |