CN207139251U - The full-automatic turn-mill composite machining device of four main - Google Patents

Abstract

The utility model discloses a kind of full-automatic turn-mill composite machining device of four main, it includes feeding vibrating disk, blanking device, feeding device, first blade row, two axle Vertical Dynamic heads, three axle horizontal steps unit heads, the horizontal movable ladder unit head of six axles, upper left main shaft, lathe bed, upper right main shaft, right blanking device, bottom right main shaft, lower-left main shaft, second blade row, feeding horizontal air cylinder, feeding lifts jaw, feeding lift cylinder, expect jaw in lower-left, part positioning seat, nozzle group valve blank, feeding horizontal air cylinder, expect jaw in bottom right, bottom right material is horizontal, tool-post structure, milling cutter, drill bit, first lathe tool, tool rest, second lathe tool, feeding vibrating disk is located at the side of lathe bed and is connected with blanking device.The utility model the utility model realizes automation processing and various ways processing, enables to the overall purchase cost of lathe and reduces 50%, saves more than 80% worker's work, improves the processing flexibility of lathe, save part transfer and loading and unloading non-cutting time.

Description

The full-automatic turn-mill composite machining device of four main

Technical field

A kind of turning-milling complex processing is the utility model is related to, more particularly to a kind of full-automatic turning-milling complex processing of four main Device.

Background technology

At present, side is with holes and the oil spout seat part of groove is processed, typically first using two chassis beds difference processing excircles face Both ends, because the hole of oil spout seat side and the species of groove are more, typically need to use more than two milling machine process axle upper side Hole and groove, the processing of oil spout seat part, i.e., at least need the lathe of more than four, four workers are processed, made simultaneously It is more into the lathe of processing and the man-hour of worker, the problem of the purchase cost and big production cost of lathe, and due to traditional lathe and Milling is both needed to worker's craft loading and unloading, therefore it is strong to generate worker's work without special oil spout seat handling equipment per a machine tool Spend the problem of big.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of full-automatic turn-mill composite machining device of four main, its Enabling to the overall purchase cost of lathe reduces 50%, saves more than 80% worker's work, and the processing for improving lathe is soft Property, save part transfer and loading and unloading non-cutting time so that the machining period of part saves more than 40%.

The utility model is that solve above-mentioned technical problem by following technical proposals：A kind of full-automatic turnning and milling of four main Complex machining device, it includes feeding vibrating disk, blanking device, feeding device, the first blade row, two axle Vertical Dynamic heads, three axles The horizontal movable ladder unit head of horizontal steps unit head, six axles, upper left main shaft, lathe bed, upper right main shaft, right blanking device, the right side Lower main axis, lower-left main shaft, the second blade row, feeding horizontal air cylinder, feeding lifting jaw, feeding lift cylinder, lower-left material jaw, zero Part positioning seat, nozzle group valve blank, feeding horizontal air cylinder, bottom right material jaw, bottom right material level, tool-post structure, milling cutter, drill bit, first Lathe tool, tool rest, the second lathe tool, feeding vibrating disk are located at the side of lathe bed and are connected with blanking device, and feeding device is located at blanking The top of device, the first blade row are located at the right side of blanking device, and two axle Vertical Dynamic heads are located at three axle horizontal steps unit heads The right side of first blade row, the horizontal movable ladder unit head of six axles are located at the right side of three axle horizontal steps unit heads, upper left main shaft Among three axle horizontal steps unit heads and the horizontal movable ladder unit head of six axles, upper right main shaft is located at the right side of upper left main shaft Side, right blanking device are located at upper right main shaft and are connected with lathe bed, and bottom right main shaft is located at upper left main shaft and upper right master with lower-left main shaft The lower section of axle, the second blade row are located at lathe bed opposite side, and feeding horizontal air cylinder is located at the right side of feeding vibrating disk, feeding lifting jaw It is located at the right side of feeding horizontal air cylinder with feeding lift cylinder and is connected with feeding horizontal air cylinder, lower-left material jaw is determined positioned at part The left side of position seat and nozzle group valve blank, feeding horizontal air cylinder are located at the lower section of part positioning seat and nozzle group valve blank, bottom right material gas Pawl is located at the horizontal top of bottom right material, and tool-post structure is located at the right side of milling cutter, and milling cutter is located at the right side positioned at drill bit and the first lathe tool, Tool rest is located at the lower section of the first lathe tool, and the second lathe tool is located at the left side of tool rest.

Preferably, first blade row is shaped as rectangle.

Preferably, the feeding horizontal air cylinder is shaped as cylinder.

Preferably, the drill bit is shaped as cylinder.

Positive effect of the present utility model is：The present invention realizes automation processing and various ways processing so that The overall purchase cost of lathe reduces 50%, saves more than 80% worker's work, improves the processing flexibility of lathe, save zero Part transfer and loading and unloading non-cutting time so that the machining period of part saves more than 40%.

Brief description of the drawings

Fig. 1 is lathe general assembly plane structure chart of the present utility model.

Fig. 2 is lathe general assembly overlooking structure figure of the present utility model.

Fig. 3 is loading and unloading general assembly plan of the present utility model.

Fig. 4 is loading and unloading general assembly left hand view of the present utility model.

Fig. 5 is loading and unloading general assembly right part of flg of the present utility model.

Fig. 6 is new tool rest fitting plane structure chart of the present utility model.

Fig. 7 assembles overlooking structure figure for new tool rest 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 Figures 1 to 7, the full-automatic turn-mill composite machining device of the utility model four main include feeding vibrating disk 1, First 5, the three axle horizontal steps unit head 6 of blanking device 2, feeding device 3, the first blade row 4, two axle Vertical Dynamics, six axle levels can Mobile ladder unit head 7, upper left main shaft 8, lathe bed 9, upper right main shaft 10, right blanking device 11, bottom right main shaft 12, lower-left main shaft 13rd, the second blade row 14, feeding horizontal air cylinder 15, feeding lifting jaw 16, feeding lift cylinder 17, lower-left material jaw 18, part Positioning seat 19, nozzle group valve blank 20, feeding horizontal air cylinder 21, bottom right material jaw 22, bottom right material level 23, tool-post structure 24, milling cutter 25th, drill bit 26, the first lathe tool 27, tool rest 28, the second lathe tool 29, feeding vibrating disk 1 are located at the side of lathe bed 9 and and blanking device 2 connections, feeding device 3 are located at the top of blanking device 2, and the first blade row 4 is located at the right side of blanking device 2, two axle Vertical Dynamics First 5 and three axle horizontal steps unit head 6 be located at the right side of the first blade row 4, the horizontal movable ladder unit head 7 of six axles is located at three axles The right side of horizontal steps unit head 6, upper left main shaft 8 are located at three axle horizontal steps unit heads 6 and moved with the horizontal movable ladder of six axles Among power first 7, upper right main shaft 10 is located at the right side of upper left main shaft 8, and right blanking device 11 is located at upper right main shaft and connected with lathe bed 9 Connect, bottom right main shaft 12 is located at the lower section of upper left main shaft 8 and upper right main shaft 10 with lower-left main shaft 13, and the second blade row 14 is located at lathe bed 9 Opposite side, feeding horizontal air cylinder 15 are located at the right side of feeding vibrating disk 1, and feeding lifting jaw 16 is located at feeding lift cylinder 17 The right side of feeding horizontal air cylinder 15 and it is connected with feeding horizontal air cylinder 15, lower-left material jaw 18 is located at part positioning seat 19 and nozzle The left side of valve blank 20, feeding horizontal air cylinder 21 are located at the lower section of part positioning seat 19 and nozzle group valve blank 20, bottom right material jaw 22 are located at the right side of milling cutter 25 positioned at the top of bottom right material level 23, tool-post structure 24, and milling cutter 25 is located at drill bit 26 and first The right side of lathe tool 27, tool rest 28 are located at the lower section of the first lathe tool 27, and the second lathe tool 29 is located at the left side of tool rest 28.

Feeding device 3 is located at the top of blanking device 2, part is automatically delivered to the main shaft of lathe by feeding device, Oil spout seat part can be by power spindle above, and change parts is docked in the position between upper lower main axis, thus in part In process, the processing of full-automatic unmannedization is realized.

First blade row 4 is shaped as rectangle, and blade row can assemble lathe tool, milling cutter or drill bit up and down.

Feeding horizontal air cylinder 21 is shaped as cylinder, so convenient to accelerate feeding time and doses.

The work process for being shaped as cylinder, can so completing part of drill bit 26.

Operation principle of the present utility model is as follows：First blade row and the second blade row are used for turnning and milling.It is first in machine tooling First, the vibrating disk on the left of lathe first goes out a blank material, is risen after feeding lifting jaw head crawl part blank straight again into lathe bed Portion direction is advanced, and part blank is delivered into part positioning seat, positioning seat moves to the middle part of lathe again, gives the master of left upper portion After axle carries out the processing of the lower end of part, then give the main shaft crawl part of left lower and the car of part upper end is carried out on blade row Processing is cut, is then drilled again at three axle ladder unit heads, the milling half slot at a twin shaft Vertical Dynamic head, to six axles Moveable unit head groove milling, part machine, and then two following main shafts move to the left and right sides of lathe respectively, will Parts feeding blanking jaw blanking.

In summary, the utility model present invention realizes automation processing and various ways processing, enables to lathe Overall purchase cost reduces 50%, saves more than 80% worker's work, improves the processing flexibility of lathe, save part transfer With loading and unloading non-cutting time so that the machining period of part saves more than 40%.

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 (4)

1. A kind of 1. full-automatic turn-mill composite machining device of four main, it is characterised in that it include feeding vibrating disk, blanking device, Feeding device, the first blade row, two axle Vertical Dynamic heads, three axle horizontal steps unit heads, six axles move horizontally ladder unit head, a left side Upper main shaft, lathe bed, upper right main shaft, right blanking device, bottom right main shaft, lower-left main shaft, the second blade row, feeding horizontal air cylinder, feeding Lift jaw, feeding lift cylinder, lower-left material jaw, part positioning seat, nozzle group valve blank, feeding horizontal air cylinder, bottom right material gas Pawl, bottom right material level, tool-post structure, milling cutter, drill bit, the first lathe tool, tool rest, the second lathe tool, feeding vibrating disk are located at the one of lathe bed Side and it is connected with blanking device, feeding device is located at the top of blanking device, and the first blade row is located at the right side of blanking device, two axles Vertical Dynamic head and three axle horizontal steps unit heads are located at the right side of the first blade row, and six axles move horizontally ladder unit head positioned at three The right side of axle horizontal steps unit head, upper left main shaft is located at three axle horizontal steps unit heads and six axles move horizontally ladder unit head Centre, upper right main shaft are located at the right side of upper left main shaft, and right blanking device is located at upper right main shaft and is connected with lathe bed, bottom right main shaft with Lower-left main shaft is located at the lower section of upper left main shaft and upper right main shaft, and the second blade row is located at lathe bed opposite side, and feeding horizontal air cylinder is located at The right side of feeding vibrating disk, feeding lifting jaw and feeding lift cylinder be located at the right side of feeding horizontal air cylinder and with feeding level Cylinder connects, and lower-left material jaw is located at the left side of part positioning seat and nozzle group valve blank, and feeding horizontal air cylinder is located at part positioning The lower section of seat and nozzle group valve blank, bottom right material jaw are located at the horizontal top of bottom right material, and tool-post structure is located at the right side of milling cutter, milling cutter It is located at the lower section of the first lathe tool positioned at positioned at the right side of drill bit and the first lathe tool, tool rest, the second lathe tool is located at the left side of tool rest.
2. 2. the full-automatic turn-mill composite machining device of four main as claimed in claim 1, it is characterised in that first blade row It is shaped as rectangle.
3. 3. the full-automatic turn-mill composite machining device of four main as claimed in claim 1, it is characterised in that the feeding horizontal gas Cylinder is shaped as cylinder.
4. 4. the full-automatic turn-mill composite machining device of four main as claimed in claim 1, it is characterised in that the shape of the drill bit For cylinder.