CN105665750A - Special equipment for machining head of air intake welding manifold of automobile - Google Patents

Abstract

The invention discloses special equipment for machining a head of an air intake welding manifold of an automobile, and belongs to the field of automobile accessory machining. The special equipment comprises a machine body, wherein a cutter head, a workpiece fixing seat for fixing the head of the manifold and a sliding rail are arranged on the machine body; the workpiece fixing seat is connected to the sliding rail in a sliding manner and faces the cutter head; an inner cavity for letting the head of the manifold extend is formed in the cutter head; cutters for machining the head of the manifold are uniformly arrayed at the edge of an opening, which faces the workpiece fixing seat, of the inner cavity; and the cutter head is arranged at one end of the sliding rail, and a driving device for driving the workpiece fixing seat to move along the sliding rail is arranged at the other end of the sliding rail. The special equipment is high in manifold head machining speed and high in production processing efficiency.

Description

Automotive air intake welding manifold head special processing equipment

Technical field

The present invention relates to auto parts machinery manufacture field, particularly to a kind of automotive air intake welding manifold head special processing equipment.

Background technology

For automobile engine, outlet manifold is the outlet pipe before cylinder head gas off-take, for engine high-temperature burning final vacuum, blend air flue, mainly high temperature, it requires good welding performance, when producing high temperature and altofrequency vibration, welding can not be ftractureed, the flange seamless link can crossed with machining after simultaneously requiring welding, guarantee is given vent to anger, existing processing mode processing gas inlet manifold head spended time is long, affect production and processing efficiency, and existing processing mode, workpiece is in rotary course, owing to automobile manifold nose shape is irregular, strenuous vibration can be there is during rotation, affect machining accuracy, so workpiece rotational frequency is slow, Cutter wear is big, process velocity is slow, and existing processing mode, the processing often carrying out a subjob needs to restart a motor, the waste plenty of time.

Summary of the invention

It is an object of the invention to provide a kind of automotive air intake welding manifold head special processing equipment, processing manifold head speed is fast, and production and processing efficiency is high.

The above-mentioned purpose of the present invention has the technical scheme that a kind of automotive air intake welding manifold head special processing equipment, including lathe bed, lathe bed is provided with cutterhead, workpiece fixing seat and slide rail for secure manifold head, workpiece fixing seat is slidably connected on slide rail and places towards cutterhead, cutterhead is provided with mean for the inner chamber that manifold head stretches into, inner chamber is towards the evenly distributed cutter having for processing manifold head of edge of opening of workpiece fixing seat, one end of slide rail is cutterhead, the other end is the driving device for driving workpiece fixing seat to move along slide rail.

By adopting technique scheme, in prior art, it is all that manifold is fixed on chuck, manifold is allowed to rotate, feed motion is provided by cutter, then manifold head is carried out machining, owing to manifold shapes is irregular, it is fixed up cumbersome, the waste plenty of time, and special holding clamp manufacturing process is loaded down with trivial details, production cost is high, when being installed manifold, easily cause that manifold deformation cannot use because being installed tension, the dynamics that is installed pine, the concentric rate that manifold head and main shaft rotate is made to reduce, make that manifold head is in irregular shape cannot be installed and used, therefore, the difficulty that is installed of manifold is big, in this programme, cutterhead is provided with mean for the inner chamber that manifold head stretches into, inner chamber is towards the evenly distributed cutter having for processing manifold head of edge of opening of workpiece fixing seat, one end of slide rail is cutterhead, the other end is the driving device for driving workpiece fixing seat to move along slide rail, for manifold, manifold is fixed in workpiece fixing seat, cutter is positioned on cutterhead, cutterhead rotates to be main motion, manifold is driven by workpiece fixing seat and does feed motion on slide rail, in this processing mode, manifold need not rotate, therefore the work of secure manifold becomes more easily simple, the making of workpiece fixing seat also becomes simple, adopt this automotive air intake welding manifold head special processing equipment that manifold head is processed, do not need the complicated operation that is installed, also without to cutter, only need to manifold be fixed in workpiece fixing seat, starting device, cutterhead is high speed rotating all the time, and utilize driving device to push workpiece fixing seat to cutterhead along guide rail, until manifold head stretches out the interior intracavity of cutterhead, manifold head just can be processed by the cutter of luminal border, then driving device is recycled, the manifold pull-out inner chamber that will process, and pull down manifold and change next manifold and be processed, whole process is consuming time short, and it is higher to process the manifold head dimensional accuracy obtained, substantially increase the working (machining) efficiency of manifold head, and manifold head is stretched into the inner chamber of cutterhead carries out machining, the cutting formed is when sputtering to surrounding, can be stopped, working environment is made more safely and more easily to clean, improve work efficiency, cutter is evenly distributed on lumen openings edge, so can manifold head be processed with much knives tool simultaneously, improve the speed of machining, decrease the time of processing manifold head, improve work efficiency,

And existing processing mode, when utilizing workpiece to rotate, owing to workpiece shapes is irregular, if rotating speed is excessive, workpiece can drive rotating shaft strenuous vibration, make to process the automobile manifold head obtained cannot use, so workpiece must be made to slowly run, and after work pieces process, needing to close motor makes workpiece stop the rotation, electric motor starting, shut-in time is long, delay the plenty of time, cause that working (machining) efficiency is low, fixed cutting tool in this programme, only need to start a motor during use and motor of cut out is just passable, cutter can be always maintained at rotating, and cutter is evenly distributed on cutterhead, cutter quality is little, can when keeping rotating concentric rate, high-speed rotation, and automobile manifold head is processed cutting by three cutters with high-speed rotation simultaneously, cutting speed is fast, the abrasion of cutter is little, substantially increase working (machining) efficiency.

Preferably, workpiece fixing seat is provided with the fixed block for secure manifold, and for workpiece is fixed on the fixture on fixed block, fixed block is provided with the fixing groove matched with manifold, and fixing groove bottom land is the curved surface fitted with manifold surface.

By adopting technique scheme, matched with fixture by fixed block, complete the fixing work that is installed to manifold, in the process placing manifold, owing to manifold surface is in irregular shape, so fixing groove bottom land in this programme is the curved surface fitted with manifold surface, can well match with manifold and when manifold is applied pressure by fixture, manifold surface and fixing groove bottom land fit, so manifold surface subjected to stress is identical, between manifold and fixed block, contact area is big, the pressure that stress produces is little, the shape of manifold will not be destroyed, may also help in manifold and be rapidly completed location, save the time needed for the manifold that is installed further, improve the working (machining) efficiency of manifold head.

Preferably, the fixing groove cell wall of formation is dug at fixing groove bottom land edge, and fits with manifold in parcel shape.

By adopting technique scheme, when hitting card manifold, only manifold need to be put into fixing groove, manifold just can be automatically performed location, and this programme is fixed groove cell wall and fits with manifold in parcel shape, so that the chip produced in the process of machining at manifold head will not splash in fixing groove, if being cut in fixing groove, then can affect the smooth of fixing groove bottom land, make manifold fixing built on the sand, the course of processing produces vibrations, make manifold head machining accuracy step-down, also make the face that manifold and fixing groove bottom land fit uneven, this programme not only increases the speed that is installed of manifold, and avoid chip and be splashed in fixing groove, improve the machining accuracy of manifold head.

Preferably, fixed block stretches out workpiece fixing seat near one end of cutterhead and called after is external part, and external part is provided with for stopping the block that manifold slides, and external part and block all can stretch in the inner chamber of cutterhead.

By adopting technique scheme, because fixing groove bottom land shape is closed with manifold surface matching form, so fixing groove bottom land that to be external part relatively low is domatic, for preventing manifold in the course of processing from sliding to cutterhead, so external part is provided with for stopping the block that manifold slides in this programme, because cutter be evenly distributed on the inner chamber edge of opening towards workpiece fixing seat to head part, so needing the position that workpiece is pushed to cutter head just can carry out machining, so in this programme, external part and block all can stretch in the inner chamber of cutterhead.

Preferably, interior intracavity is provided with locating piece.

By adopting technique scheme, because the scope that manifold head needs processing is little, when manifold head is sent in inner chamber by control brake unit, easily because overexerting, cause that manifold head stretches into depth of inner cavity excessive, so that working position mistake, affect working (machining) efficiency, this programme is provided with in annular cavity locating piece, move to cutterhead gradually at manifold, until when arriving Working position, now it is arranged on the locating piece in annular cavity just to conflict on block, the locating and machining problem of manifold head need not be worried, only fixed block need to be pushed to cutterhead by driving device man-hour adding, until block contacts with locating piece, now process the tram of manifold head exactly, substantially reduce process time.

Preferably, fixture includes Holding seat, Holding seat is hinged with clamping limb, clamping limb is fixed with the supporting rod for coordinating with fixed block, conflict on manifold to be processed in supporting rod one end, the other end is fixed on clamping limb by nut, and fixture also includes the holding handle being hinged respectively with clamping limb and Holding seat.

By adopting technique scheme, can pass through to accommodate handle easily to control the clamping of supporting rod and loosen, workman is very time saving and energy saving when operation, and conflict on manifold in supporting rod one end in this programme, the other end is fixed on clamping limb by nut, holding handle can be first passed through and control supporting rod conflict on manifold, and manifold is fixed, owing to the course of processing existing unavoidable error, so different manifolds is when being fixed on fixed block, supporting rod can be occurred cannot to clamp the situation of manifold, or supporting rod accommodates the situation of tension, in this programme, supporting rod is connected with clamping limb by nut, adjusting nut can be passed through, thus realizing the elasticity of supporting rod clamping manifold, improve crudy.

Preferably, between Holding seat and workpiece fixing seat, it is provided with cushion block, cushion block one end that to be positioned in workpiece fixing seat relative with fixed block external part.

By adopting technique scheme, because fixed block needs to coordinate the height of cutterhead, so that after manifold is fixed on fixed block, the central shaft that the central shaft of manifold head rotates with cutterhead overlaps, so the height of fixed block is higher, in order to ensure that supporting rod can be fixedly clamped block, so this programme is provided with between Holding seat and workpiece fixing seat cushion block, raise the height of grip slipper, facilitate clamp manifold, and cushion block one end that to be positioned in workpiece fixing seat relative with fixed block external part, help the weight of balance workpiece fixing seat, because fixed block is positioned in workpiece fixing seat near the side of cutterhead, and fixed block part stretches out workpiece fixing seat, workpiece is also secured in workpiece fixing seat, the chucking power that manifold applies is acted also in workpiece fixing seat by fixture, so, workpiece fixing seat is big near the side stress of cutterhead, so that the pressure that slide rail is applied by workpiece fixing seat is different everywhere, cause that workpiece fixing seat is near the side run-off the straight of cutterhead, workpiece fixing seat is made to slide on slide rail not smooth, affect process velocity, the central shaft making the manifold head being fixed on fixed block offsets, cause manifold head machining accuracy step-down, affect crudy, in this programme, cushion block also acts as the effect of balance workpiece fixing seat, the central shaft of manifold head is made to keep overlapping with the central shaft of cutterhead inner chamber, improve machining accuracy and working (machining) efficiency.

Preferably, the fixing groove bottom land on fixed block is provided with through the screwed hole of fixed block, and the bolt being through screwed hole is detachably secured in workpiece fixing seat.

By adopting technique scheme, because fixed block is detachably secured in workpiece fixing seat, so, can pass through to change difformity, the fixed block of size, thus realizing the manifold head of different model is processed, expand the range of application of the present invention, and the screwed hole being connected between fixed block with workpiece fixing seat is positioned at fixing groove bottom land, make in the course of processing, the chip that cutting produces will not be built in screwed hole, so that there is no the obstruction of chip when changing fixed block, rapidly bolt can be screwed out and the fixing seat of quick-replaceable, improve working (machining) efficiency.

Preferably, driving device is linkage.

By adopting technique scheme, linkage is low counter gear, and kinematic pair is face contact, and the pressure operationally produced is little, so bearing capacity is big, shock-resistant, it is possible to driving device to be applied bigger power, thus obtaining bigger speed, manifold head is made to arrive Working position faster, improve working (machining) efficiency, and linkage is easy to processing and manufacturing, production cost is low.

Preferably, lathe bed is additionally provided with the main spindle box for transmitting power, main spindle box one end is connected with cutterhead, the other end is extended with power transmission shaft, lathe bed is arranged on support body, being additionally provided with on support body for providing equipment to run the motor of power, motor is positioned at immediately below main spindle box, and motor output end is connected by transmission band with power transmission shaft.

By adopting technique scheme, make automotive air intake welding manifold head special processing equipment compact conformation, saving takes up room, motor is connected with power transmission shaft by transmission band, thus power transmission shaft imparts power to cutterhead, cutterhead is made to rotate with motor work, thus carry its tools rotates and realizes the machining to manifold head, and motor is positioned at immediately below main spindle box, the length making transmission band is little, and the energy loss in transmission process reduces, and improves the transmission efficiency of kinetic energy, reduce energy consumption, reduce production cost.

In sum, the method have the advantages that the present invention adopts fixing manifold to be processed, make cutterhead rotate the processing mode that manifold head is processed, decrease the step accommodating secure manifold with consuming time, substantially reduce the processing duration of every manifold head, improve working (machining) efficiency; Rotating cutterhead in the present invention so that can use much knives tool that manifold head is processed simultaneously, improve cutting speed, improve working (machining) efficiency; Manifold head is stretched in inner chamber by the present invention and is processed so that cutting sputtering scope is little, also facilitates cleaning to process, shorten the working time, improve working (machining) efficiency while improve work safety degree;

Fixed cutting tool in the present invention, only need to start a motor during use and motor of cut out is just passable, cutter can be always maintained at rotating, and cutter is evenly distributed on cutterhead, and cutter quality is little, can when keeping rotating concentric rate, high-speed rotation, and automobile manifold head is processed cutting with high-speed rotation by three cutters simultaneously, and cutting speed is fast, the abrasion of cutter is little, substantially increase working (machining) efficiency;

In the present invention, the fixing seat for secure manifold is provided with fixing groove, fixing groove bottom land is curved surface and fits with manifold surface, fixing groove bottom land edge turns over the fixing groove cell wall of formation, and it is fitted in fixing rooved face in parcel shape so that manifold to be processed is put into and fixing groove just can be automatically performed fixing, then match with fixture, manifold to be processed is made to be firmly fixed on fixed block, and fixing simple to operate, save the plenty of time, improve working (machining) efficiency;

In the present invention, fixed block stretches out workpiece fixing seat near one end of cutterhead, and the one end stretching out workpiece fixing seat is provided with the block for stopping workpiece, block and external part all can extend in the inner chamber on cutterhead, because fixing groove bottom land is the curved surface that can fit with manifold surface to be processed, this curved surface tilts to hand of cutter, cause manifold to be processed easy landing in the course of processing, block in this programme is possible to prevent manifold generation landing to be processed, and when fixing manifold to be processed, only the head of manifold to be processed need to be contacted with block in fixing groove, complete location, further simplify clamping steps, improve working (machining) efficiency, and when promoting manifold to be processed to do feed motion along guide rail phase hand of cutter, only need to manifold head to be processed be pushed in inner chamber, until block is inconsistent with the locating piece in inner chamber, the location to manifold head can be automatically performed, save the plenty of time, further increase working (machining) efficiency,

In the present invention, the fixing groove bottom land on fixed block is provided with through the screwed hole of fixed block, and the bolt being through screwed hole is detachably secured in workpiece fixing seat to make in the course of processing, the chip that cutting produces will not be built in screwed hole, so that there is no the obstruction of chip when changing fixed block, rapidly bolt can be screwed out and the fixing seat of quick-replaceable, improve working (machining) efficiency;

The present invention is provided with between Holding seat and workpiece fixing seat cushion block, cushion block one end that to be positioned in workpiece fixing seat relative with fixed block external part, the length of clamping limb can be shortened, make compact overall structure, and increase the pressure that workpiece fixing seat is produced by fixed block with fixture self gravitation, and mutually balance between the pressure that workpiece fixing seat is produced by fixed block, workpiece cannot course feed to prevent run-off the straight between workpiece fixing seat and slide rail from causing, prevent the manifold head central shaft tilted and cutter head center axle from offseting, this programme also improves working (machining) efficiency while improve machining accuracy.

Accompanying drawing explanation

Fig. 1 is present configuration figure;

Fig. 2 is top view of the present invention;

Fig. 3 is cutter head structure figure;

Fig. 4 is fixed-block-architecture (FBA) figure;

Fig. 5 is clamp structure figure;

Fig. 6 is driving device structure figure;

Accompanying drawing labelling: 1, cutterhead; 2, manifold to be processed; 3, fixture; 4, cushion block; 5, workpiece fixing seat; 6, driving device; 7, support body; 8, fixed block; 9, motor; 10, slide rail; 11, lathe bed; 12, main spindle box; 13, locating piece; 14, inner chamber; 15, cutter; 16, fixing groove cell wall; 17, block; 18, external part; 19, screwed hole; 20, fixing groove cell wall; 21, holding handle; 22, clamping limb; 23, cramping body; 24, Holding seat; 25, drive block; 26, brake handle; 27, drive link.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described in further detail.

As shown in Figure 1, a kind of automotive air intake welding manifold head special processing equipment, including support body 7, support body 7 is provided with lathe bed 11, lathe bed 11 is provided with slide rail 10, it is positioned at the cutterhead 1 of slide rail 10 one end and is positioned at the driving device 6 of slide rail 10 other end, slide rail 10 slidably connects workpiece fixing seat 5, workpiece fixing seat 5 is provided with the fixed block 8 for fixing manifold 2 to be processed, it is additionally provided with the fixture 3 for coordinating and fasten manifold 2 to be processed with workpiece fixed block 8, cutterhead 1 has the inner chamber 14 stretched into for manifold head on the face of workpiece fixing seat 5, inner chamber 14 edge of opening is evenly distributed with for processing the cutter 15 cutting manifold 2 to be processed, manifold 2 to be processed is fixed on fixed block 8, under the effect of drive end, workpiece fixed block 8 slides along slide rail 10 direction, and make manifold to be processed 2 head being fixed on fixed block 8 go deep into inner chamber 14 gradually, cutterhead 1 rotates and makes cutter 15 that manifold head is carried out machining, again with driving device 6, workpiece fixing seat 5 is pulled along slide rail 10 and away from cutterhead 1 after machining, complete processing.

Wherein, lathe bed 11 is additionally provided with the main spindle box 12 for transmitting power, main spindle box 12 one end is connected with cutterhead 1, the other end is extended with power transmission shaft, support body 7 is additionally provided with for providing equipment to run the motor 9 of power, motor 9 is positioned at immediately below main spindle box 12, and motor 9 outfan is connected by transmission band with power transmission shaft, thus providing stable power for rotating of cutterhead 1.

As in figure 2 it is shown, fixed block 8 is fixed in workpiece fixing seat 5, and stretching out workpiece fixing seat 5 near one end of cutterhead 1, it is external part 18 that fixed block 8 stretches out one end of workpiece fixing seat 5, and external part 18 can be deep in the inner chamber 14 of cutterhead 1.

As shown in Figure 3, fixed block 8 is provided with the fixing groove 28 for fixing manifold 2 to be processed, fixing groove 28 bottom land 16 is shaped as curved surface and can fit with manifold 2 to be processed, fixing groove 28 cell wall 20 of formation is upwards dug at fixing groove 28 bottom land 16 edge, and it is fitted on manifold 2 to be processed in parcel shape, fixing groove 28 external part 18 is provided with the block 17 for preventing manifold 2 to be processed landing, block 17 can be deep in the inner chamber 14 of cutterhead 1, fixing groove 28 bottom land 16 is provided with the screwed hole 19 for connection fixing block 8 with workpiece fixing seat 5, fixed block 8 is made to be detachably connected in workpiece fixing seat 5.

As shown in Figure 4, inner chamber 14 is provided with locating piece 13, promote at workpiece fixing seat 5 driven device 6 and move along slide rail 10 phase cutterhead 1 direction, until locating piece 13 contacts with the block 17 on fixed block 8, now manifold 2 head to be processed is just corresponding with stage property, reduce error, improve production and processing efficiency.

As shown in Figure 5, fixture 3 includes Holding seat 24, Holding seat 24 is hinged with clamping limb 22, clamping limb 22 is fixed with the supporting rod 23 for coordinating with fixed block 8, conflict on manifold 2 to be processed in supporting rod 23 one end, the other end is fixed on clamping limb 22 by nut, fixture 3 also includes the holding handle 21 being hinged respectively with clamping limb 22 and Holding seat 24, cushion block 4 it is provided with, cushion block 4 one end that to be positioned in workpiece fixing seat 5 relative with fixed block 8 external part 18 between Holding seat 24 and workpiece fixing seat 5.

As shown in Figure 6, driving device 6 is linkage, linkage includes the drive block 25 being hinged on lathe bed 11, drive block 25 is hinged with drive link 27, drive link 27 one end is hinged on drive block 25, the other end is hinged in workpiece fixing seat 5, and drive block 25 is additionally provided with the brake handle 26 for driving drive block 25 to rotate.

This specific embodiment is only explanation of the invention; it is not limitation of the present invention; the present embodiment can be made the amendment not having creative contribution as required by those skilled in the art after reading this specification, but as long as being affected by the protection of Patent Law in scope of the presently claimed invention.

Claims (10)

1. an automotive air intake welding manifold head special processing equipment, including lathe bed (11), described lathe bed (11) is provided with cutterhead (1), workpiece fixing seat (5) and slide rail (10) for secure manifold head, described workpiece fixing seat (5) is slidably connected at slide rail (10) and above and places towards cutterhead (1), it is characterized in that: described cutterhead (1) is provided with mean for the inner chamber (14) that described manifold head stretches into, described inner chamber (14) is towards the evenly distributed cutter (15) having for processing manifold head of edge of opening of workpiece fixing seat (5), one end of slide rail (10) is cutterhead (1), the other end is for being used for the driving device (6) driving workpiece fixing seat (5) to move along slide rail (10).

2. automotive air intake according to claim 1 welding manifold head special processing equipment, it is characterized in that: described workpiece fixing seat (5) is provided with the fixed block (8) for secure manifold, with be used for the fixture (3) that is fixed on by workpiece on described fixed block (8), described fixed block (8) is provided with the fixing groove (28) matched with manifold, and described fixing groove bottom land (16) is the curved surface fitted with manifold surface.

3. automotive air intake according to claim 2 welding manifold head special processing equipment, is characterized in that: the described fixing groove cell wall (20) of formation is dug at described fixing groove bottom land (16) edge, and fits with manifold in parcel shape.

4. automotive air intake according to claim 3 welding manifold head special processing equipment, it is characterized in that: described fixed block (8) stretches out described workpiece fixing seat (5) near one end of cutterhead (1) and called after is external part (18), described external part (18) is provided with for stopping the block (17) that manifold slides, and described external part (18) and described block (17) all can stretch in the inner chamber (14) of cutterhead (1).

5. automotive air intake according to claim 4 welding manifold head special processing equipment, is characterized in that: be provided with the locating piece (13) for block of conflicting (17) in described inner chamber (14).

6. automotive air intake according to claim 2 welding manifold head special processing equipment, it is characterized in that: described fixture (3) includes Holding seat (24), described Holding seat (24) is hinged with clamping limb (22), described clamping limb (22) is fixed with the supporting rod (23) for coordinating with described fixed block (8), conflict on manifold to be processed (2) in described supporting rod (23) one end, the other end is fixed on clamping limb (22) by nut, described fixture (3) also includes the holding handle (21) being hinged respectively with described clamping limb (22) and Holding seat (24).

7. automotive air intake according to claim 6 welding manifold head special processing equipment, it is characterized in that: be provided with cushion block (4) between described Holding seat (24) and described workpiece fixing seat (5), described cushion block (4) is positioned at the upper one end relative with fixed block (8) external part (18) of workpiece fixing seat (5).

8. automotive air intake according to claim 7 welding manifold head special processing equipment, it is characterized in that: the fixing groove bottom land (16) on described fixed block (8) is provided with through the screwed hole (19) of described fixed block (8), and the bolt being through described screwed hole (19) is detachably secured in described workpiece fixing seat (5).

9. automotive air intake according to claim 1 welding manifold head special processing equipment, is characterized in that: described driving device (6) is linkage.

10. automotive air intake according to claim 1 welding manifold head special processing equipment, it is characterized in that: described lathe bed (11) is additionally provided with the main spindle box (12) for transmitting power, main spindle box (12) one end is connected with cutterhead (1), the other end is extended with power transmission shaft, described lathe bed (11) is arranged on support body (7), described support body (7) is additionally provided with for providing equipment to run the motor (9) of power, described motor (9) is positioned at immediately below main spindle box (12), and described motor (9) outfan is connected by transmission band with power transmission shaft.