CN206795235U - Multisystem combines turning milling center - Google Patents
Multisystem combines turning milling center Download PDFInfo
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- CN206795235U CN206795235U CN201720692212.XU CN201720692212U CN206795235U CN 206795235 U CN206795235 U CN 206795235U CN 201720692212 U CN201720692212 U CN 201720692212U CN 206795235 U CN206795235 U CN 206795235U
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- main shaft
- feeding
- blade row
- direct acting
- acting cylinder
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Abstract
The utility model discloses a kind of multisystem to combine turning milling center, it includes vibrating disk, feeding direct acting cylinder, feeding rotary cylinder, feeding cleft hand, first main shaft, second main shaft, first blade row, lathe tool, carriage arbor, milling cutter, second blade row, cutting knife, 3rd main shaft, drilling machine, blanking cleft hand, blanking direct acting cylinder, lathe bed, guide rail, vibrating disk is located at the left side of lathe bed, feeding direct acting cylinder is located at the top of vibrating disk, feeding rotary cylinder is located at the right side of feeding direct acting cylinder, feeding cleft hand is connected with feeding rotary cylinder, guide rail is located on lathe bed, first main shaft, second main shaft, 3rd main shaft, drilling machine is all located on guide rail, first main shaft is located at the left side of the 3rd main shaft, second main shaft is located at left side of drilling machine etc..The utility model can complete whole manufacturing procedures of valve rod part by a machine tool, save the operation of feeding and discharging time of multiple inter processes, save process time;Simultaneously by vibrating disk feeding, automation feeding is realized, is saved artificial.
Description
Technical field
A kind of turning milling center is the utility model is related to, turning milling center is combined more particularly to a kind of multisystem.
Background technology
At present, metallic valve stem blank material belongs to thin and long shafts blank material, with fluted on the blank material face of cylinder, typically makes
It is processed with lathe and milling machine, because lathe only has a main shaft, in working shaft-like blank material, main shaft must clamp valve rod
One end of blank material, therefore, valve rod manufacturer must arrange two chassis beds, wherein one end of a lathe process valve rod,
The other end of valve rod is processed on another chassis bed, then reuses the processing that milling machine one by one carries out groove to blank material, i.e.,
At least three lathes, three workers are processed simultaneously, cause the man-hour of the lathe and worker processed more, the purchase cost of lathe
With production cost it is big the problem of, and because traditional lathe and milling machine are without special valve rod handling equipment, be both needed to per a machine tool
Worker's craft loading and unloading, therefore generate the problem of labor strength is big.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of multisystem combination turning milling center, which saves lathe
Process time, reduce artificial intensity.
The utility model is that solve above-mentioned technical problem by following technical proposals:In a kind of multisystem combination turnning and milling
The heart, it includes vibrating disk, feeding direct acting cylinder, feeding rotary cylinder, feeding cleft hand, the first main shaft, the second main shaft, the first knife
Row, lathe tool, carriage arbor, milling cutter, the second blade row, cutting knife, the 3rd main shaft, drilling machine, blanking cleft hand, blanking direct acting cylinder, lathe bed, lead
Rail, vibrating disk are located at the left side of lathe bed, and feeding direct acting cylinder is located at the top of vibrating disk, and feeding rotary cylinder is located at feeding direct acting
The right side of cylinder, feeding cleft hand are connected with feeding rotary cylinder, and guide rail is located on lathe bed, the first main shaft, the second main shaft, the 3rd master
Axle, drilling machine are all located on guide rail, and the first main shaft is located at the left side of the 3rd main shaft, and the second main shaft is located at the left side of drilling machine, the first knife
Rank between the first main shaft and the second main shaft, lathe tool is located on the first blade row, and carriage arbor is located at the right of the first blade row, milling cutter
On carriage arbor, the second blade row is located at the right of carriage arbor, and cutting knife is located on the second blade row, and blanking handgrip is located at the second blade row
The right, blanking direct acting cylinder is connected with blanking handgrip.
Preferably, the vibrating disk is furnished with a conveyer belt.
Preferably, first blade row is furnished with four lathe tools.
Preferably, first main shaft, the second main shaft, the 3rd main shaft are equipped with a direct acting cylinder.
Preferably, there are four blocks on the guide rail.
Positive effect of the present utility model is:The process equipment of traditional three lathes can just machine zero
Part, the utility model a machine tool can complete valve rod part whole manufacturing procedure so that the overall purchase cost of lathe reduces
40%.Because this lathe has used full-automatic handling equipment, artificial loading and unloading work and the unit behaviour of high intensity are eliminated
Make.One worker can safeguard the operation of more than six lathes simultaneously, in valve rod part process, worker be timing to
Blank material is dosed in feeding vibrating disk, and processed finished products piece packaging is put in storage into work, thus saves 80% to 90% work
People works.Due to being worked while four main shafts, and the full-automatic processing of lathe, part is greatlyd save between more lathes
Transfer and loading and unloading non-cutting time so that the machining period of part saves more than 30%.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Embodiment
The utility model preferred embodiment is provided below in conjunction with the accompanying drawings, to describe the technical solution of the utility model in detail.
As shown in figure 1, the utility model multisystem combination turning milling center includes vibrating disk 1, feeding direct acting cylinder 2, feeding
Rotary cylinder 3, feeding cleft hand 4, the first main shaft 5, the second main shaft 6, the first blade row 7, lathe tool 8, carriage arbor 9, milling cutter 10, the second knife
Row 11, cutting knife 12, the 3rd main shaft 13, drilling machine 14, blanking cleft hand 15, blanking direct acting cylinder 16, lathe bed 17, guide rail 18, vibrating disk 1
Positioned at the left side of lathe bed 17, feeding direct acting cylinder 2 is located at the top of vibrating disk 1, and feeding rotary cylinder 3 is located at feeding direct acting cylinder
2 right side, feeding cleft hand 4 are connected with feeding rotary cylinder 3, and guide rail is located on lathe bed 17, the first main shaft 5, the second main shaft 6,
Three main shafts 13, drilling machine 14 are all located on guide rail 18, and the first main shaft 5 is located at the left side of the 3rd main shaft 13, and the second main shaft 6 is located at drilling machine
14 left side, the first blade row 7 is between the first main shaft 5 and the second main shaft 6, and lathe tool 8 is located on the first blade row, carriage arbor 9
In the right of the first blade row 7, milling cutter 10 is located on carriage arbor 9, and the second blade row 11 is located at the right of carriage arbor 9, and cutting knife 12 is located at
On second blade row 11, blanking handgrip 15 is located at the right of the second blade row, and blanking direct acting cylinder 16 is connected with blanking handgrip 15.
Vibrating disk 1 is furnished with a conveyer belt, and blank material comes out communicated band from vibrating disk 1 and enters region to be taken, realizes
The automation of feeding, saves manpower.
First blade row 7 is furnished with four lathe tools, can meet the need of work of the first main shaft and the second main shaft simultaneously, if any one
Lathe tool, which is broken, to use another lathe tool, do not interfere with normal process.
First main shaft 5, the second main shaft 6, the 3rd main shaft 13 are equipped with a direct acting cylinder, can make its in the vertical direction
It is mobile, add moving range.
There are four blocks on guide rail 18, prevent the first main shaft 5 from being collided with the 3rd main shaft 6 in movement.
Operation principle of the present utility model is as follows:Vibrating disk gives feeding handgrip for orderly feeding, and feeding direct acting cylinder is used
In promoting the movement of feeding cleft hand horizontal direction, feeding rotary cylinder is used to rotate feeding cleft hand, and feeding cleft hand is used to capture material
Into workspace, the first main shaft, the second main shaft, the 3rd main shaft all are allowed to rotate for clamping material, the first blade row, the second blade row
It is a knife rest for being used for arrangement of tool, lathe tool is used for turnery processing, and carriage arbor is used to place milling cutter, and milling cutter is used for Milling Process
Going out plane, cutting knife is used to cut off material, and drilling machine is used to drill to material, and blanking cleft hand takes material to leave workspace for pawl, under
Material direct acting cylinder moves horizontally offer power to blanking cleft hand, and lathe bed is used to place main shaft and blade row, and guide rail is used to guide master
Axle moves horizontally.
In machine tooling, first, the vibrating disk on the left of lathe bed first goes out a blank material, and feeding pawl head passes through feeding direct acting
Cylinder and feeding rotary cylinder are driven to crawl seat crawl blank material, rotated ninety degrees after crawl, then mobile to lathe bed middle part,
The first main shaft is reached, the second main shaft clamping blank material is processed on the lathe tool of the first blade row to the upper end of blank material, then
First main shaft grip blank material, the bottom of blank material is processed, arrive again afterwards at milling cutter carry out Milling Process, then again to
Move right, give blank material to the 3rd main shaft, cut off by the 3rd main shaft clamping blank material in the cutter of the second blade row, then
It is sent at drilling machine and is drilled, the material that completion of processing is finally captured by blanking cleft hand sends out processing district.
Automatic loading and unloading mechanism (including feeding direct acting cylinder, feeding rotary cylinder, the feeding pawl that part is equipped with upper
Hand, blanking cleft hand, blanking direct acting cylinder), part is automatically delivered to the main shaft of lathe, valve rod zero by automatic loading and unloading mechanism
Part can be by power spindle above, and change parts is docked in the position between upper lower main axis, thus in the process of part
In, realize the processing of full-automatic unmannedization.The utility model can complete the whole of valve rod part by a machine tool and process
Process, the operation of feeding and discharging time of multiple inter processes is saved, saves process time;Simultaneously by vibrating disk feeding, realize
Automation feeding, saves artificial, reduces artificial intensity.
Particular embodiments described above, to the technical problem, technical scheme and beneficial effect of solution of the present utility model
It is further described, should be understood that and the foregoing is only specific embodiment of the utility model, not
It is all within the spirit and principles of the utility model for limiting the utility model, any modification for being made, equivalent substitution, change
Enter, should be included within the scope of protection of the utility model.
Claims (5)
1. a kind of multisystem combines turning milling center, it is characterised in that it includes vibrating disk, feeding direct acting cylinder, feeding rotary pneumatic
Cylinder, feeding cleft hand, the first main shaft, the second main shaft, the first blade row, lathe tool, carriage arbor, milling cutter, the second blade row, cutting knife, the 3rd master
Axle, drilling machine, blanking cleft hand, blanking direct acting cylinder, lathe bed, guide rail, vibrating disk are located at the left side of lathe bed, and feeding direct acting cylinder is located at
The top of vibrating disk, feeding rotary cylinder are located at the right side of feeding direct acting cylinder, and feeding cleft hand is connected with feeding rotary cylinder, led
Rail is located on lathe bed, and the first main shaft, the second main shaft, the 3rd main shaft, drilling machine are all located on guide rail, and the first main shaft is located at the 3rd main shaft
Left side, the second main shaft is located at the left side of drilling machine, and for the first blade row between the first main shaft and the second main shaft, lathe tool is located at first
On blade row, carriage arbor is located at the right of the first blade row, and milling cutter is located on carriage arbor, and the second blade row is located at the right of carriage arbor, cuts
For cutter spacing on the second blade row, blanking handgrip is located at the right of the second blade row, and blanking direct acting cylinder is connected with blanking handgrip.
2. multisystem as claimed in claim 1 combines turning milling center, it is characterised in that the vibrating disk is equipped with a transmission
Band.
3. multisystem as claimed in claim 1 combines turning milling center, it is characterised in that first blade row is furnished with four cars
Knife.
4. multisystem as claimed in claim 1 combines turning milling center, it is characterised in that first main shaft, the second main shaft, the
Three main shafts are equipped with a direct acting cylinder.
5. multisystem as claimed in claim 1 combines turning milling center, it is characterised in that has four blocks on the guide rail.
Priority Applications (1)
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CN201720692212.XU CN206795235U (en) | 2017-06-14 | 2017-06-14 | Multisystem combines turning milling center |
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CN201720692212.XU CN206795235U (en) | 2017-06-14 | 2017-06-14 | Multisystem combines turning milling center |
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CN206795235U true CN206795235U (en) | 2017-12-26 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107052803A (en) * | 2017-06-14 | 2017-08-18 | 朗快智能科技(杭州)有限公司 | Multisystem combines turning milling center and its application method |
CN109926629A (en) * | 2019-03-01 | 2019-06-25 | 朗快智能科技(杭州)有限公司 | The eight dedicated processing milling machines of station Waterwheel-type copper ball valve |
-
2017
- 2017-06-14 CN CN201720692212.XU patent/CN206795235U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107052803A (en) * | 2017-06-14 | 2017-08-18 | 朗快智能科技(杭州)有限公司 | Multisystem combines turning milling center and its application method |
CN109926629A (en) * | 2019-03-01 | 2019-06-25 | 朗快智能科技(杭州)有限公司 | The eight dedicated processing milling machines of station Waterwheel-type copper ball valve |
CN109926629B (en) * | 2019-03-01 | 2024-03-26 | 朗快智能科技(杭州)有限公司 | Eight-station waterwheel type special processing milling machine for copper ball valve |
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