CN105269327B - A kind of multiple operation transposition processing unit (plant) for vehicle engine exhaust divided manifold processing - Google Patents

Abstract

The present invention relates to a kind of multiple operation transposition processing unit (plant) for vehicle engine exhaust divided manifold processing, including multiple operation transposition processing unit (plant) mounting base, transposer, it is molded oil cylinder installing plate, supporting plate, shaped device, milling attachment and contiguous block, described transposer is arranged on multiple operation transposition processing unit (plant) mounting base, described shaping oil cylinder installing plate is arranged on transposer, described supporting plate is arranged on multiple operation transposition processing unit (plant) mounting base, described supporting plate abuts against the side of shaping oil cylinder installing plate, described shaped device and milling attachment is separately mounted to be molded on oil cylinder installing plate, described contiguous block is connected between shaped device and milling attachment.The design improves original cutting processing mode by using Milling Process mode, plays a part of cutting few surplus, energy-saving consumption-reducing and reduces manufacturing cost.

Description

A kind of multiple operation transposition processing unit (plant) for vehicle engine exhaust divided manifold processing

Technical field

The present invention relates to a kind of processing unit (plant) of auto parts, particularly a kind of vehicle engine exhaust divided manifold that is used for is processed Multiple operation transposition processing unit (plant).

Background technology

Automotive engine manifold is a kind of more complicated special piece of shape, and its main body is warp architecture, in two pipe ends, One of them is typical circular pipe end, and the other end is special-shaped pipe end.Due to complex-shaped, need to pass through in traditional process Multiple devices could complete the shaping and cutting of two-port, and process is complicated, multiple bearing causes positioning datum deviation so that Reserved margin is cut to increase, and the percent defective processed is high, and original cutting processing mode, cutting surplus can be caused big, Energy resource consumption is more, increases manufacturing cost, causes unnecessary loss, so design one kind is used for automobile engine to exhaust The multiple operation transposition processing unit (plant) of manifold processing is just particularly important.

The content of the invention

The technical problem to be solved in the invention is to improve original cutting processing mode by using Milling Process mode, is risen To the effect for cutting few surplus, energy-saving consumption-reducing and reduction manufacturing cost；A kind of vehicle engine exhaust divided manifold that is used for is provided to process Multiple operation transposition processing unit (plant).

To solve above-mentioned technical problem, structure of the invention includes

Multiple operation transposition processing unit (plant) mounting base,

Transposer, described transposer are arranged on multiple operation transposition processing unit (plant) mounting base,

Oil cylinder installing plate is molded, described shaping oil cylinder installing plate is arranged on transposer,

Supporting plate, described supporting plate are arranged on multiple operation transposition processing unit (plant) mounting base, and described supporting plate is tight The side of shaping oil cylinder installing plate is leaned against,

Shaped device, described shaped device are arranged on shaping oil cylinder installing plate,

Milling attachment, described milling attachment are arranged on shaping oil cylinder installing plate,

Contiguous block, described contiguous block are connected between shaped device and milling attachment.

Further：Described transposer includes

Replaced oil cylinder, and described transposition oil cylinder is fixedly connected on multiple operation transposition processing unit (plant) mounting base,

Replace cylinder piston rod, and described transposition cylinder piston rod is connected with transposition oil cylinder, described transposition oil cylinder piston The both ends of bar are stretched out from the both sides of transposition oil cylinder respectively,

First transposition contiguous block, the described first transposition contiguous block are movably connected on one end of transposition cylinder piston rod, The first described transposition contiguous block is fixedly connected by simultaneously cap with transposition oil cylinder,

Second transposition contiguous block, the described second transposition contiguous block is fixedly connected on the first transposition contiguous block, described Shaping oil cylinder installing plate is fixedly connected on the side of the second transposition contiguous block.

Further：Stop nut is fixedly connected with the other end of described transposition cylinder piston rod.

Further：Described shaped device includes

Punch holder slide rail cushion block, described punch holder slide rail cushion block are fixedly connected on shaping oil cylinder installing plate,

Punch holder slide rail, described punch holder slide rail are arranged on punch holder slide rail cushion block,

Oil cylinder is molded, described shaping oil cylinder is fixedly connected on shaping oil cylinder installing plate,

Cylinder piston rod is molded, described cylinder piston rod is connected with shaping oil cylinder,

Punch holder, described punch holder are movably connected in punch holder slide rail by being connected to the punch holder sliding block of its bottom On, described shaping cylinder piston rod is connected with one end of punch holder,

Drift mounting blocks, described drift mounting blocks are fixedly connected on the other end of punch holder,

Drift, described drift are fixed peace and are connected on drift mounting blocks.

Further：The both sides of the shaping oil cylinder are each provided with a formation of lots oil cylinder reinforcing plate, described shaping oil cylinder It is fixedly connected respectively with the shaping oil cylinder reinforcing plate of both sides, the shaping oil cylinder reinforcing plate of the both sides is fixedly connected on shaping oil cylinder On installing plate.

Further：Described punch holder is connected by contiguous block with milling attachment.

Further：Described milling attachment includes

Milling attachment slide rail, described milling attachment slide rail are arranged on shaping oil cylinder installing plate,

Live spindle seat, described live spindle seat are movably connected in milling by being connected to the milling attachment sliding block of its bottom On turning device slide rail,

Live spindle, described live spindle are movably connected in live spindle seat by bearing, the live spindle Both ends are stretched out from the both ends of live spindle seat respectively,

Milling cutter, described milling cutter are connected on one end of live spindle by milling cutter seat,

Motor support plate, described motor support plate are fixedly connected on live spindle seat, in described motor support plate Offer waist hole,

Motor, described motor are connected in motor support plate by motor mounting plate, and described motor passes through timing belt Transmission mechanism is connected with the other end of live spindle.

Further：Described synchronous belt drive mechanism includes active synchronization belt wheel, driven synchronous pulley and timing belt, institute The active synchronization belt wheel stated is fixed on the going out on shaft end of motor, and described driven synchronous pulley is fixed on the other end of live spindle On, described active synchronization belt wheel is connected by timing belt with driven synchronous pulley.

Further：Tensioning plate is connected with described motor support plate, tapped through hole is offered on described tensioning plate, Screw thread mouth is offered relative to the position of tapped through hole on described motor mounting plate, tensioning is connected with described tapped through hole Bolt, the lower end of the tensioning bolt are connected in the screwed hole on motor mounting plate.

Further：Described live spindle seat is connected by contiguous block with shaped device.

After said structure, beneficial effects of the present invention are as follows：

1) one-time positioning, manifold moulding and cutting action is completed, avoids deviation caused by multiple bearing, passing rate of processing It is high.

2) original cutting processing mode is improved using Milling Process mode, cutting surplus is few, and energy-saving consumption-reducing, reduction is manufactured into This.

3) the design has the advantages of simple in construction, easily fabricated and practicality and high efficiency.

Brief description of the drawings

The present invention is further detailed explanation with reference to the accompanying drawings and detailed description.

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of transposer.

Fig. 3 is the structural representation of shaped device.

Fig. 4 is the left view structural representation of milling attachment.

Fig. 5 is the main structure diagram of milling attachment.

Embodiment

A kind of multiple operation transposition processing unit (plant) for vehicle engine exhaust divided manifold processing as shown in Figure 1, including it is more Process transposition processing unit (plant) mounting base 27, transposer 26, shaping oil cylinder installing plate 25, supporting plate 30, shaped device 24, milling Turning device 28 and contiguous block 29, described transposer 26 is arranged on multiple operation transposition processing unit (plant) mounting base 27, described Shaping oil cylinder installing plate 25 be arranged on transposer 26 on, described supporting plate 30 be arranged on multiple operation transposition processing unit (plant) On mounting base 27, described supporting plate 30 abuts against the side of shaping oil cylinder installing plate 25, described shaped device 24 and milling Turning device 28 is separately mounted to be molded on oil cylinder installing plate 25, and described contiguous block 29 is connected to shaped device 24 and milling attachment Between 28.After manifold is positioned by matched moulds, now shaped device 24 is located at position to be processed, starts the shaping dress of both sides Putting 24 makes two end motions of the both sides shaped device 24 to manifold, and the both ends of manifold are carried out simultaneously by the shaped device 24 of both sides Processing and forming, now milling attachment 28 also can synchronize motion with shaped device 24 in the presence of contiguous block 29, work as shaping After process finishing, the shaped device 24 and milling attachment 28 that make both sides are returned to initial position, and then starting transposer 26 makes Shaped device 24 and milling attachment 28 are integrally translated under the drive of shaping oil cylinder installing plate 25, so that milling attachment 28 In position to be processed, then the startup shaped device 24 of both sides be passed to contiguous block 29 with both sides milling attachment 28 to Two end motions of manifold, subsequently start both sides milling attachment 28, while complete to manifold both ends of the surface Milling Process, successively finally Reverse starting shaped device 24 and transposer 26 make both sides shaped device 24 and milling attachment 28 be returned to original position；The design is led to Cross one-time positioning and complete the shaping to manifold and cutting action, avoid multiple bearing from causing a deviation, improve passing rate of processing.

Shaped device 24 as shown in Figure 3 includes punch holder slide rail cushion block 37, punch holder slide rail 38, shaping oil cylinder 39, shaping Cylinder piston rod 40, punch holder 41, drift mounting blocks 42 and drift 43, described punch holder slide rail cushion block 37 are fixedly connected on into On type oil cylinder installing plate 25, described punch holder slide rail 38 is arranged on punch holder slide rail cushion block 37, described shaping oil cylinder 39 It is fixedly connected on shaping oil cylinder installing plate 25, described cylinder piston rod 40 is connected with shaping oil cylinder 39, described punch holder 41 are movably connected on punch holder slide rail 38 by being connected to the punch holder sliding block of its bottom, described shaping cylinder piston rod 40 It is connected with one end of punch holder 41, described drift mounting blocks 42 are fixedly connected on the other end of punch holder 41, and described rushes First 43 fixation peace is connected on drift mounting blocks 42, and the both sides of the shaping oil cylinder 39 are each provided with a formation of lots oil cylinder reinforcing plate 44, described shaping oil cylinder 39 is fixedly connected with the shaping oil cylinder reinforcing plate 44 of both sides respectively, and the shaping oil cylinder of the both sides adds Strong plate 44 is fixedly connected on shaping oil cylinder installing plate 25, and described punch holder 41 passes through contiguous block 29 and the phase of milling attachment 28 Even.After manifold is positioned by matched moulds, now shaped device 24 is located at position to be processed, starts the shaping oil cylinder 39 of both sides It is set to make the edge of punch holder 41 respectively by a shaping cylinder piston rod 40 with two end motions of the both sides punch holder 41 to manifold Punch holder slide rail 38 and drift 43 is inserted manifold pipe end, carry out processing and forming；Reverse starting is molded oil cylinder 39 after completion of processing The drift 43 of both sides is set to be returned to original position.

Transposer 26 as shown in Figure 2 includes transposition oil cylinder 31, the transposition transposition contiguous block 34 of cylinder piston rod 32, first With the second transposition contiguous block 36, described transposition oil cylinder 31 is fixedly connected on multiple operation transposition processing unit (plant) mounting base 27, Described transposition cylinder piston rod 32 is connected with transposition oil cylinder 31, and the both ends of described transposition cylinder piston rod 32 are respectively from transposition The both sides of oil cylinder 31 are stretched out, and the described first transposition contiguous block 34 is movably connected on one end of transposition cylinder piston rod 32, institute State first transposition contiguous block 34 by and cap 35 with transposition oil cylinder 31 be fixedly connected, described second transposition contiguous block 36 consolidate Surely it is connected on the first transposition contiguous block 34, described shaping oil cylinder installing plate 25 is fixedly connected on the second transposition contiguous block 36 Side, be fixedly connected with stop nut 33 on the other end of described transposition cylinder piston rod 32.After completion of processing is molded, Start transposition oil cylinder 31 make its with first transposition contiguous block 34 and second replace contiguous block 36 along transposition cylinder piston rod 32 Translated, shaped device 24 and milling attachment 28 is also carried out integral translation under the drive of shaping oil cylinder installing plate 25, So as to which milling attachment 28 is transported to position to be processed；The design also has simple in construction, easily fabricated and practicality and high efficiency excellent Point.

Milling attachment 28 as shown in Figure 4 and Figure 5 include milling attachment slide rail 45, live spindle seat 46, live spindle 48, Milling cutter 49, motor support plate 51 and motor 52, described milling attachment slide rail 45 is arranged on shaping oil cylinder installing plate 25, described Live spindle seat 46 be movably connected in by being connected to the milling attachment sliding block 47 of its bottom on milling attachment slide rail 45, it is described Live spindle 48 be movably connected in by bearing in live spindle seat 46, the both ends of the live spindle 48 are led from rotation respectively The both ends of axle bed 46 are stretched out, and described milling cutter 49 is connected to by milling cutter seat 50 on one end of live spindle 48, described motor Supporting plate 51 is fixedly connected on live spindle seat 46, and waist hole, described motor 52 are offered in described motor support plate 51 It is connected to by motor mounting plate 53 in motor support plate 51, described motor 52 passes through synchronous belt drive mechanism and live spindle 48 other end is connected, and described live spindle seat 46 is connected by contiguous block 29 with shaped device 24.When milling attachment 28 is defeated After being sent to position to be processed, start both sides shaping oil cylinder 39 make both sides live spindle seat 46 under the drive of contiguous block 29 along Two end motions of the milling attachment slide rail 45 to manifold, make the milling cutter 49 of both sides be in contact with the processing end face of manifold both sides, then Starting motor 52 makes live spindle 48 be rotated under the drive of synchronous belt drive mechanism, so as to be completed using milling cutter 49 to discrimination The Milling Process of pipe；The design improves original cutting processing mode using Milling Process mode, and cutting surplus is few, energy-saving consumption-reducing, Reduce manufacturing cost.

Synchronous belt drive mechanism as shown in Figure 5 includes active synchronization belt wheel 54, driven synchronous pulley 55 and timing belt 56, Described active synchronization belt wheel 54 is fixed on the going out on shaft end of motor 52, and described driven synchronous pulley 55 is fixed on live spindle On 48 other end, described active synchronization belt wheel 54 is connected by timing belt 56 with driven synchronous pulley 55.When the milling of both sides When knife 49 is in contact with the processing end face of manifold both sides, starting motor 52 makes it be rotated with active synchronization belt wheel 54, from Dynamic synchronous pulley 55 also can and then rotate in the presence of timing belt 56, make live spindle 48 in the band of driven synchronous pulley 55 Together rotated under dynamic, so as to complete the Milling Process to manifold using milling cutter 49.

Tensioning plate 57 is connected with motor support plate 51 as shown in Figure 4, offering screw thread on described tensioning plate 57 leads to Hole, screw thread mouth is offered relative to the position of tapped through hole on described motor mounting plate 53, is connected in described tapped through hole There is tensioning bolt, the lower end of the tensioning bolt is connected in the screwed hole on motor mounting plate 53.The design can be by tight Gu tensioning bolt, timing belt is tensioned, so as to improve the transmission performance of synchronous belt drive mechanism.

Claims (1)

1. A kind of 1. multiple operation transposition processing unit (plant) for vehicle engine exhaust divided manifold processing, it is characterised in that：Including

   Multiple operation transposition processing unit (plant) mounting base (27),

   Transposer (26), described transposer (26) are arranged on multiple operation transposition processing unit (plant) mounting base (27),

   Oil cylinder installing plate (25) is molded, described shaping oil cylinder installing plate (25) is arranged on transposer (26),

   Supporting plate (30), described supporting plate (30) is arranged on multiple operation transposition processing unit (plant) mounting base (27), described Supporting plate (30) abuts against the side of shaping oil cylinder installing plate (25),

   Shaped device (24), described shaped device (24) are arranged on shaping oil cylinder installing plate (25),

   Milling attachment (28), described milling attachment (28) are arranged on shaping oil cylinder installing plate (25),

   Contiguous block (29), described contiguous block (29) are connected between shaped device (24) and milling attachment (28)；

   Described transposer (26) includes

   Replace oil cylinder (31), and described transposition oil cylinder (31) is fixedly connected on multiple operation transposition processing unit (plant) mounting base (27) On,

   Replace cylinder piston rod (32), and described transposition cylinder piston rod (32) is connected with transposition oil cylinder (31), described transposition The both ends of cylinder piston rod (32) are stretched out from the both sides of transposition oil cylinder (31) respectively,

   First transposition contiguous block (34), the described first transposition contiguous block (34) are movably connected in transposition cylinder piston rod (32) On one end, the described first transposition contiguous block (34) is fixedly connected by simultaneously cap (35) with transposition oil cylinder (31),

   Second transposition contiguous block (36), the described second transposition contiguous block (36) are fixedly connected on the first transposition contiguous block (34) On, described shaping oil cylinder installing plate (25) is fixedly connected on the side of the second transposition contiguous block (36)；

   Stop nut (33) is fixedly connected with the other end of described transposition cylinder piston rod (32)；

   Described shaped device (24) includes

   Punch holder slide rail cushion block (37), described punch holder slide rail cushion block (37) are fixedly connected on shaping oil cylinder installing plate (25) On,

   Punch holder slide rail (38), described punch holder slide rail (38) are arranged on punch holder slide rail cushion block (37),

   Oil cylinder (39) is molded, described shaping oil cylinder (39) is fixedly connected on shaping oil cylinder installing plate (25),

   Cylinder piston rod (40) is molded, described cylinder piston rod (40) is connected with shaping oil cylinder (39),

   Punch holder (41), described punch holder (41) are movably connected in punch holder cunning by being connected to the punch holder sliding block of its bottom On rail (38), described shaping cylinder piston rod (40) is connected with one end of punch holder (41),

   Drift mounting blocks (42), described drift mounting blocks (42) are fixedly connected on the other end of punch holder (41),

   Drift (43), the fixed peace of described drift (43) are connected on drift mounting blocks (42)；

   The both sides of the shaping oil cylinder (39) are each provided with a formation of lots oil cylinder reinforcing plate (44), described shaping oil cylinder (39) point It is not fixedly connected with the shaping oil cylinder reinforcing plate (44) of both sides, the shaping oil cylinder reinforcing plate (44) of the both sides is fixedly connected on into On type oil cylinder installing plate (25)；

   Described punch holder (41) is connected by contiguous block (29) with milling attachment (28)；

   Described milling attachment (28) includes

   Milling attachment slide rail (45), described milling attachment slide rail (45) are arranged on shaping oil cylinder installing plate (25),

   Live spindle seat (46), described live spindle seat (46) are movable by the milling attachment sliding block (47) for being connected to its bottom It is connected on milling attachment slide rail (45),

   Live spindle (48), described live spindle (48) are movably connected in live spindle seat (46) by bearing, the rotation The both ends for turning main shaft (48) are stretched out from the both ends of live spindle seat (46) respectively,

   Milling cutter (49), described milling cutter (49) are connected on one end of live spindle (48) by milling cutter seat (50),

   Motor support plate (51), described motor support plate (51) are fixedly connected on live spindle seat (46), described motor Supporting plate offers waist hole on (51),

   Motor (52), described motor (52) are connected in motor support plate (51) by motor mounting plate (53), described electricity Machine (52) is connected by synchronous belt drive mechanism with the other end of live spindle (48)；

   Described synchronous belt drive mechanism includes active synchronization belt wheel (54), driven synchronous pulley (55) and timing belt (56), institute The active synchronization belt wheel (54) stated is fixed on the going out on shaft end of motor (52), and described driven synchronous pulley (55) is fixed on rotation On the other end of main shaft (48), described active synchronization belt wheel (54) passes through timing belt (56) and driven synchronous pulley (55) phase Even；

   Tensioning plate (57) is connected with described motor support plate (51), described tensioning plate offers tapped through hole on (57), Screw thread mouth is offered relative to the position of tapped through hole on described motor mounting plate (53), is connected with described tapped through hole Tensioning bolt, the lower end of the tensioning bolt are connected in the screwed hole on motor mounting plate (53)；

   Described live spindle seat (46) is connected by contiguous block (29) with shaped device (24).