CN207414405U - Engine cylinder cover top bottom surface hole machined transfer matic - Google Patents

Abstract

Engine cylinder cover top bottom surface hole machined transfer matic,The multigroup numerically-controlled machine tool arranged including cylinder cap pipeline and along cylinder cap pipeline,Two number of units control machine tooling heads in every group are oppositely arranged on the left and right sides of cylinder cap pipeline,Cylinder cap pipeline includes being arranged on automatic line back end nc sliding table,Nc sliding table includes leading screw,Servomotor is connected on leading screw,The nut of leading screw is connected on slide unit or is integrated with slide unit,Slide unit is arranged on slide,Rigid strip pawl type transfer device is fixedly connected on slide unit,Twice workpiece support rail is set at left and right sides of pawl type transfer device,Piece uploading device is additionally provided in the centre of two numerically-controlled machine tools,Lower part device and clamping device,Piece uploading device,Lower part device and clamping device are arranged in the rack between every group of two numerically-controlled machine tools,Cylinder cap positioning pin there are two being also set up on the left of rack.This transfer matic is efficient, flexible big.

Description

Engine cylinder cover top bottom surface hole machined transfer matic

Technical field

The utility model is related to be used to start mach numerically-controlled machine tool processing line, more particularly to engine cylinder cover top bottom surface Hole machined transfer matic belongs to equipment technology field.

Background technology

Engine cylinder cover is the important component of engine, is directly related to running quality and the service life of engine, hair The top bottom surface of motivation cylinder cap has many processing holes, intake and exhaust and jet of these processing holes for engine, these processing holes Position and Size Error the quality after entire engine assembly and performance are had a very big impact, engine cylinder caping at present These processing holes of bottom surface are processed by numerically-controlled machine tool, and current form processing is mainly the following：First, unit bed Processing, this is a kind of processing method the most traditional, is clipped to cylinder cap on fixture under this processing method, using numerical control drilling machine Workpiece is unloaded after to the hole machined on a face, then other face is processed again, this mode processing efficiency is low, It needs repeatedly to clamp positioning workpiece in workpiece process, is bound to cause larger error, the cylinder cap precision processed is not It is high；Second is that using Multi-axis Machining equipment, this mode processes the hole on a face using multiaxis simultaneously, and efficiency is improved, But due to the limitation of pitch of holes, the driving of Multi-axis Machining equipment and processing head are required to occupy corresponding space, each processing head The main shaft and power set of configuration are restricted, and the rotating speed of processing head is relatively low under this form processing, and processing efficiency is low, are usually added The rotating speed of foreman is in 200 turns/below min, and some more turns/min down to 30-60, and the specificity of Multi-axis Machining equipment is too strong, Basic no flexibility, each Multi-axis Machining equipment can only be directed to a kind of processing of cylinder cap and use, if converted products kind is more In the case of, the equipment of the producer and place investment will greatly increase under this mode, and engine technology is also being constantly brought forth new ideas, The design of cylinder cap also updates quickly, and the too strong equipment of this specificity is easy to be eliminated, and causes returns of investment bad；Third, it adopts With the hole machined that different faces are completed on different lathes, this needs more lathe paired runnings, and operating personnel need corresponding increase Add, while need multiple bearing, however it remains the problem of investment is big, low precision.In addition, under current any form processing Lathe is only processed a face of cylinder cap in a time, and drill bit is applied in axial direction workpiece during processing hole Power, this power needs are offset using corresponding reaction force is applied in workpiece tool, and this axial power can cause to position The generation of deviation, the quality problems for the precision aspect for causing workpiece last.

The content of the invention

The purpose of the utility model is to overcome above-mentioned present in current engine cylinder cover top bottom surface hole machined equipment Problem provides a kind of engine cylinder cover top bottom surface hole machined transfer matic.

To realize the purpose of this utility model, following technical solutions is employed：Engine cylinder cover top bottom surface hole machined is certainly Moving-wire including cylinder cap pipeline and along multigroup numerically-controlled machine tool that cylinder cap pipeline is arranged, includes processing head in numerically-controlled machine tool and exists Horizontal direction moves back and forth the mechanism moved left and right with horizontal direction, has control system, every group of numerically-controlled machine tool on numerically-controlled machine tool In comprising two numerically-controlled machine tools, two number of units control machine tooling heads in every group are oppositely arranged on the left and right sides of cylinder cap pipeline, The cylinder cap pipeline includes being arranged on automatic line back end nc sliding table, and the nc sliding table includes leading screw, connects on leading screw Servomotor is connected to, the nut of leading screw is connected on slide unit or is integrated with slide unit, and slide unit is arranged on slide, rigid strip Shape pawl type transfer device is fixedly connected on slide unit, on the pawl type transfer device it is front and rear be arranged at intervals with it is multiple Detent mechanism, the detent mechanism include pawl, and the pawl rotation is arranged on right and left on pawl type transfer device In the slot set to middle part, the lower front of pawl is provided with gag lever post in slot, and spring is provided in slot, and spring one end connects Be connected on pawl, one end is connected in slot, spring in the raw when, pawl head back, afterbody is withstood on gag lever post, spine Angle between pawl and backward directions horizontal line is acute angle, and twice work is set at left and right sides of the pawl type transfer device Part supporting rail, the upper surface of twice workpiece support rail are higher than the upper surface of pawl type transfer device, twice workpiece support rail it Between distance be less than cylinder cap thickness, piece uploading device, lower part device and clamping are additionally provided in the centre of two numerically-controlled machine tools Device, the piece uploading device, lower part device and clamping device are arranged at the rack between every group of two numerically-controlled machine tools On, the piece uploading device is the piece uploading oil cylinder on the right side of rack, and lower part device is the lower part oil cylinder on the left of rack, It is also set up on the left of rack there are two cylinder cap positioning pin, described two cylinder cap positioning pins one are straight pin, another is water chestnut Shape pin, the clamping device include two claws being located in the rack of left side, and one end of claw is connected with claw oil cylinder, claw It being rotatably connected in rack, clamping device further includes two compressed oil cylinders in the rack of right side, when this transfer matic works, cylinder Lid is from automatic line front end piece uploading, and ball-screw drives conveying item to move backward under the driving of driving motor, under the action of pawl Unidirectional to convey cylinder cap backward, when cylinder cap is transported between every group of two numerically-controlled machine tools, piece uploading oil cylinder promotes cylinder cap to make cylinder to the left Lid positioning pin enters in two on cylinder cap location holes, and clamping device clamps cylinder cap, and two in every group numerically-controlled machine tool is simultaneously Work is to being carried out at the same time processing hole operation, after cylinder cap machines on one group of lathe, lower part oil cylinder in cylinder cover bottom surface and top surface It promotes on cylinder cap to pawl type transfer device to the right, the driving motor action drives pawl type transfer device of ball-screw will Cylinder cap is delivered to be processed on next group of lathe, and further, pawl type transfer device lower part is provided with multiple idler wheels, into one Step, one or more numerically-controlled machine tool wherein on the right side of cylinder cap pipeline is obliquely installed, numerically-controlled machine tool drill bit it is axially inclined Downwards, further, eight groups of numerically-controlled machine tools are disposed with along cylinder cap pipeline, further, the detent mechanism corresponds to every Group numerically-controlled machine tool sets one, and one, further, the spine are respectively set in the front and rear of pawl type transfer device Claw workpiece transfer device is formed by connecting by more piece；Further, two cylinder cap positioning pins are arranged in positioning pin module, Positioning pin module is detachably connected in rack.

The positive advantageous effects of the utility model are：When this transfer matic processes the top bottom surface of cylinder cap, from front end Feeding, after bring out finished product, processing is once completed, divide the work between multigroup numerically-controlled machine tool operation and non-interference, one group of two machines Bed face opposite to two simultaneously is processed, and the axial force that drill bit generates can cancel out each other, and be conducive to carrying for machining accuracy Height, compared with current multiple spindle processing system, the power configuration of each lathe is unrestricted, and rotating speed is fast in process, efficient, The most important flexibility for being this transfer matic greatly, can process the cylinder cap of a variety of different models, in cylinder cap evolution Various innovations also can be good at adapting to and meeting, using one or more numerically-controlled machine tool be obliquely installed can adapt to it is some The processing of inclined hole needs on cylinder cap, and inclination can easily realize that this is automatic by increasing wedge-shaped connecting seat on sole plate mountain Pawl type transfer device is during cylinder cap is conveyed in line, when slide unit driving workpiece transfer device moves forward, due to conveyer belt Less than track surface is supported, conveyer belt does not drive cylinder cap to move forward on surface, after the detent mechanism on conveyer belt touches cylinder cap, Since the angle between pawl and backward directions horizontal line is acute angle, pawl is pressed into slot under the action of the spring, continue to Preceding detent mechanism is by the way that under the action of the spring, the head of pawl is lifted after cylinder cap, when conveyer belt moves forward, the head of pawl The rear portion that portion withstands on cylinder cap is advanced with conveyer belt on supporting rail, this transfer matic can be completed using 1 operative employee, substantially reduce Cost of labor.

Description of the drawings

Fig. 1 is the schematic top plan view of the utility model.

Fig. 2 is the schematic front view of the utility model.

Fig. 3 is the schematic diagram that one group of numerically-controlled machine tool is oppositely arranged.

Fig. 4 is the structural scheme of mechanism set in first group among two numerically-controlled machine tools.

Fig. 5 is the schematic diagram that one of them in one of which numerically-controlled machine tool is obliquely installed.

Fig. 6 is the schematic diagram that transfer matic forepart shows detent mechanism.

Fig. 7 is left and right directions diagrammatic cross-section at the pawl of pipeline.

Fig. 8 is the schematic diagram of cylinder cap positioning pin.

Specific embodiment

In order to more fully explain the implementation of the utility model, the embodiment of the utility model is provided.These implement real Example is only the elaboration to the utility model, does not limit the scope of the utility model.

With reference to attached drawing to the further details of explanation of the utility model, in attached drawing respectively mark for：1：Numerically-controlled machine tool one；2：Number Control lathe two；3：Numerically-controlled machine tool three；4：Numerically-controlled machine tool four；5：Slide；6：Nc sliding table；7：Cylinder cap pipeline；8：Rack；9：Under Part cylinder；10：Claw oil cylinder；11：Claw；12：Piece uploading oil cylinder；13：Wedge-shaped connecting seat；14：Pawl；15：Pawl axis；16：Limit Position bar；17：Spring；18：Idler wheel；19：Supporting rail；20：Workpiece transfer device；21：Slot；22：Cylinder cap；23：Cylinder cap positioning pin；24： Positioning pin module.Nc sliding table is referred to lower slide unit.

As shown in drawings, engine cylinder cover top bottom surface hole machined transfer matic, including cylinder cap pipeline 7 and along cylinder cap pipeline Multigroup numerically-controlled machine tool of arrangement includes processing head and moves back and forth in the horizontal direction to move left and right with horizontal direction in numerically-controlled machine tool Mechanism, there is on numerically-controlled machine tool control system, comprising two numerically-controlled machine tools in every group of numerically-controlled machine tool, eight groups of machines are shown in figure Bed, wherein being one group of lathe of front end shown in 1,2；3rd, 4 one group of lathe for showing rearmost end, two number of units controls in every group Machine tooling head is oppositely arranged on the left and right sides of cylinder cap pipeline, and the cylinder cap pipeline includes being arranged on automatic line back end Nc sliding table 6, the nc sliding table include leading screw, are connected with servomotor on leading screw, the nut of leading screw is connected on slide unit Or be integrated with slide unit, leading screw, servomotor are common transmission mechanism, are not shown in figure, and slide unit is arranged on slide 5, Rigid strip pawl type transfer device 7 is fixedly connected on slide unit, between front and rear on the pawl type transfer device Every being provided with multiple ratchets mechanism, the detent mechanism includes pawl 14, and the pawl rotation is arranged on pawl type workpiece In the slot set on conveyer belt in the middle part of left and right directions, 21 show slot, and 15 show pawl axis, and pawl is set by pawl axis rotation It puts in slot, the lower front of pawl is provided with gag lever post 16 in slot, and spring 17, the connection of 17 one end of spring are provided in slot On pawl 14, one end is connected in slot, spring in the raw when, pawl head back, afterbody is withstood on gag lever post 16, Angle between pawl and backward directions horizontal line is acute angle, and twice are set at left and right sides of the pawl type transfer device Workpiece support rail 19, the upper surface of twice workpiece support rail 19 are higher than the upper surface of pawl type transfer device 7, twice workpiece branch The thickness that the distance between rail is less than cylinder cap is supportted, pawl type transfer device lower part is provided with multiple idler wheels, and 18 show idler wheel, Idler wheel makes pawl type transfer device be set when moving along a straight line for rolling friction, the detent mechanism corresponding to every group of numerically-controlled machine tool One is put, respectively sets one in the front and rear of pawl type transfer device, the pawl type transfer device is by more piece It is formed by connecting, piece uploading device, lower part device and clamping device, the piece uploading is additionally provided in the centre of two numerically-controlled machine tools Device, lower part device and clamping device are arranged in the rack 8 between every group of two numerically-controlled machine tools, piece uploading dress The piece uploading oil cylinder being set on the right side of rack, 12 show piece uploading oil cylinder, and lower part device is the lower part oil cylinder on the left of rack 9, it is also set up in the left side of rack 8 there are two cylinder cap positioning pin, described two cylinder cap positioning pins one are straight pin, another For rhombus pin, described two cylinder cap positioning pins are arranged in positioning pin module, and positioning pin module is detachably connected in rack, 23 show cylinder cap positioning pin in figure；24 show positioning pin module, and being arranged on using cylinder cap positioning pin can in positioning pin module With easily adapt to transfer matic replace cylinder cap kind after the changed needs in position location, increase the flexibility of transfer matic, it is described Clamping device, including being located at two claws in the rack of left side, 11 show claw in figure, and one end of claw is connected with claw Oil cylinder 19, claw 11 are rotatably connected in rack, and clamping device further includes two compressed oil cylinders in the rack of right side, two Compressed oil cylinder is located at right side frame lower, and parallel with piece uploading oil cylinder, compressed oil cylinder is not shown in figure, when cylinder cap is clamped, Two claws compress the right flank top of cylinder cap, and two compressed oil cylinders compress the right flank lower part of cylinder cap, more optimize, wherein One or more numerically-controlled machine tool on the right side of cylinder cap pipeline is obliquely installed, numerically-controlled machine tool drill bit it is axially inclined downwards, tilt It downwards can be by the way that wedge-shaped connecting seat be set to realize under numerically-controlled machine tool, as shown in figure 5, being provided with hydraulic station in this transfer matic. For this transfer matic using PLC controls, PLC controls are control technology common at present, there is ripe answer on a variety of production line lines With the control of each numerically-controlled machine tool is also control technology commonly used in the art.

When this transfer matic works, cylinder cap 22 drives from automatic line front end piece uploading, ball-screw under the driving of driving motor Conveying item moves backward, and unidirectionally conveys cylinder cap backward under the action of pawl, cylinder cap is transported between every group of two numerically-controlled machine tools When, piece uploading oil cylinder promotes cylinder cap that cylinder cap positioning pin is made to enter in two on cylinder cap location holes to the left, and clamping device presss from both sides cylinder cap Tightly, two numerically-controlled machine tools in every group are worked at the same time to being carried out at the same time processing hole operation in cylinder cover bottom surface and top surface, and cylinder cap is one After being machined on group lathe, lower part oil cylinder promotes to the right cylinder cap to pawl type transfer device, the driving electricity of ball-screw Cylinder cap is delivered to and is processed on next group of lathe by machine action drives pawl type transfer device.This transfer matic uses servomotor Cylinder cap can be reliably accurately transported at the piece uploading of every group of lathe by the nc sliding table of driving, precision up to one.

After the embodiment of the utility model is described in detail, one of ordinary skilled in the art is clearly understood that, Above-mentioned claim is not departed from various change and modification can be carried out under spirit, it is all according to the technical essence of the utility model To any simple modification, equivalent change and modification that above example is made, the scope of technical solutions of the utility model is belonged to, And the utility model is also not only restricted to the embodiment of example in specification.

Claims (7)

1. engine cylinder cover top bottom surface hole machined transfer matic, the multigroup numerical control arranged including cylinder cap pipeline and along cylinder cap pipeline Lathe includes processing head in numerically-controlled machine tool and moves back and forth the mechanism that is moved left and right with horizontal direction, numerical control machine in the horizontal direction There is control system on bed, it is characterised in that：Comprising two numerically-controlled machine tools in every group of numerically-controlled machine tool, two numerical control machines in every group Bed processing head is oppositely arranged on the left and right sides of cylinder cap pipeline, and the cylinder cap pipeline includes being arranged on automatic line back end number Control slide unit, the nc sliding table includes leading screw, is connected with servomotor on leading screw, the nut of leading screw be connected on slide unit or with Slide unit is integrated, and slide unit is arranged on slide, and rigid strip pawl type transfer device is fixedly connected on slide unit, described Pawl type transfer device on it is front and rear be arranged at intervals with multiple ratchets mechanism, the detent mechanism includes pawl, described Pawl rotation is arranged in the slot set on pawl type transfer device in the middle part of left and right directions, and the lower front of pawl is set in slot Gag lever post is equipped with, spring is provided in slot, spring one end is connected on pawl, and one end is connected in slot, and spring is in nature During state, pawl head back, afterbody is withstood on gag lever post, and the angle between pawl and backward directions horizontal line is acute angle, Twice workpiece support rail is set at left and right sides of the pawl type transfer device, and the upper surface of twice workpiece support rail is higher than spine The distance between the upper surface of claw workpiece transfer device, twice workpiece support rail is less than the thickness of cylinder cap, in two numerically-controlled machine tools Centre be additionally provided with piece uploading device, lower part device and clamping device, the piece uploading device, lower part device and clamp dress It puts in the rack between two numerically-controlled machine tools for being arranged at every group, the piece uploading device is the piece uploading oil on the right side of rack Cylinder, lower part device are the lower part oil cylinder on the left of rack, are also set up on the left of rack there are two cylinder cap positioning pin, described Two cylinder cap positioning pins one are straight pin, another is rhombus pin, and the clamping device includes being located in the rack of left side Two claws, one end of claw are connected with claw oil cylinder, and claw is rotatably connected in rack, and clamping device is further included positioned at right side Two compressed oil cylinders in rack, when this transfer matic works, cylinder cap is from automatic line front end piece uploading, and ball-screw is in driving motor Driving is lower to drive conveying item to move backward, and unidirectionally conveys cylinder cap backward under the action of pawl, cylinder cap is transported to every group of two number of units When between control lathe, piece uploading oil cylinder promotes cylinder cap that cylinder cap positioning pin is made to enter in two on cylinder cap location holes to the left, clamps dress It puts and clamps cylinder cap, two in every group numerically-controlled machine tool is worked at the same time to be made to being carried out at the same time processing hole in cylinder cover bottom surface and top surface Industry, after cylinder cap machines on one group of lathe, lower part oil cylinder promotes to the right cylinder cap to pawl type transfer device, ball wire Cylinder cap is delivered to and is processed on next group of lathe by the driving motor action drives pawl type transfer device of thick stick.

2. engine cylinder cover top bottom surface hole machined transfer matic according to claim 1, it is characterised in that：Pawl type workpiece is defeated Band lower part is sent to be provided with multiple idler wheels.

3. engine cylinder cover top bottom surface hole machined transfer matic according to claim 1, it is characterised in that：Wherein cylinder cap conveys One or more numerically-controlled machine tool on the right side of line is obliquely installed, numerically-controlled machine tool drill bit it is axially inclined downwards.

4. engine cylinder cover top bottom surface hole machined transfer matic according to claim 1, it is characterised in that：Along cylinder cap pipeline It is disposed with eight groups of numerically-controlled machine tools.

5. engine cylinder cover top bottom surface hole machined transfer matic according to claim 1, it is characterised in that：The pawl machine Structure corresponds to every group of numerically-controlled machine tool and sets one, and one is respectively set in the front and rear of pawl type transfer device.

6. engine cylinder cover top bottom surface hole machined transfer matic according to claim 1, it is characterised in that：The pawl type Workpiece transfer device is formed by connecting by more piece.

7. engine cylinder cover top bottom surface hole machined transfer matic according to claim 1, it is characterised in that：Two cylinders Lid positioning pin is arranged in cylinder cap positioning pin module, and cylinder cap positioning pin module is detachably connected in rack.