CN205021152U - Automatic bore hole dress circle device of engine intake manifold - Google Patents

Abstract

The utility model discloses an automatic bore hole dress circle device of engine intake manifold in engine intake manifold's the apparatus for producing field fixes on its workstation and is equipped with first support and second support, is equipped with directly over the first support through locking cylinder driven latch segment, be provided with the X axle sliding seat that to follow X axle direction and remove on the workstation, be equipped with the Y axle sliding seat that to follow the Y axle and remove on the X axle sliding seat, Y axle sliding seat upside is equipped with boring machine to be constructed, still be equipped with the parallel dress circle mechanism of axis and Y axle on the X axle sliding seat, tool bit rotation axis that axis, the orificial axis of intake pipe head end and the boring machine of the dress circle axle of dress circle mechanism construct parallels and is located same horizontal line. The device can accomplish automatic bore hole and the processing of dress circle, and its process velocity is fast, and the precision is high, in its processing that is exclusively used in engine intake manifold.

Description

Engine air inlet tube automatic bore hole dress coil apparatus

Technical field

The utility model relates to a kind of process units of engine air inlet tube, particularly a kind of process units at air inlet pipe mouth of pipe press-in quoit.

Background technology

In prior art, automobile engine extensively adopts turbocharging technology, the air inlet pipe adopted at compressor inlet end generally adopts blowing mode to produce, after blowing completes, need, inside the air inlet pipe mouth of pipe, quoit is installed, due to the restriction of the technical characterstic that blowing is produced, make the precision of blowing pipe inadequate, need to process separately, and then quoit is pressed in the mouth of pipe, complete assembling.The where the shoe pinches of the method is: one, and the air inlet pipe of blow molding is shape tube, and it clamps inconvenience, therefore, again carries out machined difficulty; Secondly, when needing press-in quoit, without impetus in air inlet pipe, the installation difficulty of quoit.At present, cannot carry out automation processing, manual installation is wasted time and energy, and machining accuracy is not high.

Utility model content

The purpose of this utility model is to provide a kind of engine air inlet tube automatic bore hole dress coil apparatus, automatically can complete machined and dress circle, processing and installation accuracy high.

The purpose of this utility model is achieved in that a kind of engine air inlet tube automatic bore hole dress coil apparatus, comprise workbench, workbench is fixed with the first bearing and the second bearing, first bearing and the second bearing are respectively equipped with the deep-slotted chip breaker matched with air inlet pipe two ends, latch segment is provided with directly over first bearing, latch segment is connected to the lower end of locking cylinder, described locking cylinder is arranged on horizontally disposed cylinder block, cylinder block is fixed on above workbench through air cylinder support, and on the upside of the lower surface of latch segment and air inlet pipe head end, shape matches; Described workbench is arranged with two X-axis guide rails in parallel, X-axis slide block is equipped with X-axis guide rail, X-axis slide block is fixed on the downside of X-axis sliding seat, X-axis guide rail parallel is provided with X-axis cylinder, the cylinder block of X-axis cylinder connects on the table, and the piston rod external part of X-axis cylinder is connected with X-axis sliding seat through cylinder connector; X-axis sliding seat upper surface is provided with two Y-axis guide rails perpendicular to X-axis guide rail, Y-axis slide block is equipped with Y-axis guide rail, described Y-axis slide block is fixed on the downside of Y-axis sliding seat, is provided with the Y-axis servo-actuating device for driving Y-axis sliding seat to move along Y-axis between two Y-axis guide rails; Bore hole mechanism is provided with on the upside of Y-axis sliding seat; X-axis sliding seat is also provided with the dress loop mechanism that axis is parallel with Y-axis, described dress loop mechanism comprises dress circle cylinder, the piston rod external part of dress circle cylinder is connected with dress circle slide block, dress circle slider bottom is equipped with in the guidance rail arranged along Y-axis, rail is taught to be fixed on X-axis sliding seat through supporting station, dress circle slide block is provided with dress circle axle, fills the axis of circle axle, the axis of the air inlet pipe head end mouth of pipe and the cutter head rotation of bore hole mechanism and parallels and be positioned on same level line.

During the work of this device, air inlet pipe head and the tail two ends correspondence is shelved on the first bearing and the second bearing, latch segment is driven to push down on the upside of air inlet pipe head end by locking cylinder, air inlet pipe is fixed securely, then X-axis sliding seat is moved to the dead in line of cutter head rotation and the air inlet pipe head end mouth of pipe making bore hole mechanism along X-axis, the cutter head of bore hole mechanism rotates, simultaneously, Y-axis servo-actuating device drives feeding and returns, Boring can be carried out to the air inlet pipe head end mouth of pipe, after machining, X-axis air cylinder driven X-axis sliding seat moves to the dead in line of axis and the air inlet pipe head end mouth of pipe making dress circle axle along X-axis, on dress circle axle, cover installs quoit in advance, by the motion of dress circle air cylinder driven dress circle axle, quoit is made to be loaded in institute's bore hole, X-axis sliding seat returns original position subsequently, complete a Boring and the processing of dress circle, as can be seen from the above-mentioned course of work, this device can complete automatic bore hole and the processing of dress circle in a set of mechanism, its process velocity is fast, processing and installation accuracy high.This device is exclusively used in the processing of engine air inlet tube.

As further improvement of the utility model, described workbench is positioned at X-axis sliding seat both sides and is respectively equipped with limitation locking mechanism, when X-axis slide block movement is to the limitation locking mechanism position of side, the cutter head rotation of bore hole mechanism and the axes coincide of the air inlet pipe head end mouth of pipe, when X-axis slide block movement is to the limitation locking mechanism position of opposite side, the dress circle axis of axle and the axes coincide of the air inlet pipe head end mouth of pipe.Because X-axis cylinder is driven by air pressure, when being subject to foreign impacts, gas has compressibility, and easily cause bore hole or dress circle position deviation, can lock it in Working position by limitation locking mechanism, position when ensureing bore hole and dress circle is accurate.Limitation locking mechanism can adopt the structure automatically controlled.

Locking cylinder is caused to be subject to larger side force for avoiding axial force when filling circle, enter and cause air inlet pipe to be shunk back, the side described X-axis sliding seat being positioned at dress circle axle is provided with latch support, latch support is provided with two axis latch parallel with X-direction, on described first bearing and latch segment, correspondence is provided with jack respectively, when latch segment locks air inlet pipe downwards, latch moves along X-direction and just in time can insert in described jack.Latch inserts after in jack, and the first bearing, latch segment, X-axis sliding seat are connected as a single entity, and locking cylinder can be avoided like this to be subject to side force, ensures can not loosen between latch segment and the first bearing, and during dress circle, air inlet pipe is shunk back.Insert jack for ease of latch, described latch end is tapered.

For strengthening the stability of locking cylinder, described locking cylinder both sides are provided with the guide post through cylinder block, and guide post upper end is connected through connecting plate, and guide post lower end is connected on latch segment, is connected between guide post with cylinder block through fairlead.

As further improvement of the utility model, described Y-axis servo-actuating device comprises the leading screw being connected to servomotor axle head, leading screw is provided with nut, and described nut is connected on the downside of Y-axis sliding seat, and described leading screw is arranged on X-axis sliding seat rotationally through rotating seat.The program enhances the automaticity of device.

Collect chip for convenience, correspondingly with bore hole mechanism on described workbench be provided with chip trough.

For ease of manipulation and reduction height, workbench is provided with elongated slot between two X-axis guide rails, and described X-axis cylinder is arranged in described elongated slot.

For ease of operation, described workbench is arranged in frame, is provided with roller bottom frame, and frame top is provided with crossbeam, is provided with touch-screen on the downside of crossbeam.

Accompanying drawing explanation

Fig. 1 is the utility model perspective view.

Fig. 2 is the utility model partial structurtes stereogram one.

Fig. 3 is the utility model partial structurtes stereogram two that Fig. 2 is corresponding.

Fig. 4 is the front view of the utility model partial structurtes that Fig. 2 is corresponding.

Fig. 5 is the upward view of the utility model partial structurtes that Fig. 2 is corresponding.

Fig. 6 is the top view of the utility model partial structurtes that Fig. 2 is corresponding.

Fig. 7 is the utility model partial structurtes stereogram after removing bore hole mechanism, latch segment and locking cylinder.

Fig. 8 is the top view that Fig. 7 is corresponding.

Fig. 9 is the partial structurtes stereogram after removing X-axis slide block further.

Wherein, 1 crossbeam, 2 touch-screens, 3 bore hole mechanisms, 4 workbench, 5 frames, 6 rollers, 7 second bearings, 8 air inlet pipe, 9 first bearings, 10 latch segments, 11 dress circle axles, 12 latches, 13 latch supports, 14 air cylinder supports, 15 cylinder blocks, 16 locking cylinders, 17 connecting plates, 18 guide posts, 19 dress circle cylinders, 20 limitation locking mechanisms, 21Y axle sliding seat, 22X axle sliding seat, 23X axis rail, 24 fairleads, 25 supporting stations, 26 dress circle slide blocks, 27X axle cylinder, 28 teach rail, 29 chip troughs, 30 elongated slots, 31 jacks, 32 rotating seats, 33Y axle slide block, 34Y axis rail, 35 leading screws, 36 nuts, 37 servomotors, 38X axle slide block, 39 cylinder connectors.

Detailed description of the invention

As shown in figs 1-9, be engine air inlet tube automatic bore hole dress coil apparatus, its workbench 4 is arranged in frame 5, is provided with roller 6 bottom frame 5, and frame 5 top is provided with crossbeam 1, is provided with touch-screen 2 on the downside of crossbeam 1, workbench 4 is fixed with the first bearing 9 and the second bearing 7, first bearing 9 and the second bearing 7 are respectively equipped with the deep-slotted chip breaker matched with air inlet pipe 8 two ends, latch segment 10 is provided with directly over first bearing 9, latch segment 10 is connected to the lower end of locking cylinder 16, locking cylinder 16 is arranged on horizontally disposed cylinder block 15, cylinder block 15 is fixed on above workbench 4 through air cylinder support 14, locking cylinder 16 both sides are provided with the guide post 18 through cylinder block 15, guide post 18 upper end is connected through connecting plate 17, guide post 18 lower end is connected on latch segment 10, be connected through fairlead 24 between guide post 18 with cylinder block 15, on the upside of the lower surface of latch segment 10 and air inlet pipe 8 head end, shape matches, workbench 4 is arranged with two X-axis guide rails 23 in parallel, X-axis slide block 38 is equipped with X-axis guide rail 23, X-axis slide block 38 is fixed on the downside of X-axis sliding seat 22, X-axis cylinder 27 is arranged with in parallel with X-axis guide rail 23, the cylinder block of X-axis cylinder 27 is connected on workbench 4, the piston rod external part of X-axis cylinder 27 is connected with X-axis sliding seat 22 through cylinder connector 39, and workbench 4 is provided with elongated slot 30 between two X-axis guide rails 23, and X-axis cylinder 27 is arranged in elongated slot 30, X-axis sliding seat 22 upper surface is provided with two Y-axis guide rails 34 perpendicular to X-axis guide rail 23, Y-axis slide block 33 is equipped with Y-axis guide rail 34, Y-axis slide block 33 is fixed on the downside of Y-axis sliding seat 21, is provided with the Y-axis servo-actuating device for driving Y-axis sliding seat 21 to move along Y-axis between two Y-axis guide rails 34, Y-axis servo-actuating device comprises the leading screw 35 being connected to servomotor 37 axle head, leading screw 35 is provided with nut 36, and nut 36 is connected on the downside of Y-axis sliding seat 21, and leading screw 35 is arranged on X-axis sliding seat 22 rotationally through rotating seat 32.Bore hole mechanism 3 is provided with on the upside of Y-axis sliding seat 21; X-axis sliding seat 22 is also provided with the dress loop mechanism that axis is parallel with Y-axis, dress loop mechanism comprises dress circle cylinder 19, the piston rod external part of dress circle cylinder 19 is connected with dress circle slide block 26, be equipped with in the guidance rail 28 arranged along Y-axis bottom dress circle slide block 26, rail 28 is taught to be fixed on X-axis sliding seat 22 through supporting station 25, dress circle slide block 26 is provided with dress circle axle 11, fills the axis of circle axle 11, the axis of the air inlet pipe 8 head end mouth of pipe and the cutter head rotation of bore hole mechanism 3 and parallels and be positioned on same level line.Workbench 4 is positioned at X-axis sliding seat 22 both sides and is respectively equipped with limitation locking mechanism 20, when X-axis slide block 38 moves to limitation locking mechanism 20 position of side, the cutter head rotation of bore hole mechanism 3 and the axes coincide of the air inlet pipe 8 head end mouth of pipe, when X-axis slide block 38 moves to limitation locking mechanism 20 position of opposite side, the dress circle axis of axle 11 and the axes coincide of the air inlet pipe 8 head end mouth of pipe.Side X-axis sliding seat 22 being positioned at dress circle axle 11 is provided with latch support 13, latch support 13 is provided with two axis latch 12 parallel with X-direction, latch 12 end is tapered, on first bearing 9 and latch segment 10, correspondence is provided with jack 31 respectively, when latch segment 10 locks air inlet pipe 8 downwards, latch 12 moves along X-direction and just in time can insert in jack 31.Correspondingly with bore hole mechanism 3 on workbench 4 be provided with chip trough 29.

During work, air inlet pipe 8 head and the tail two ends correspondence is shelved on the first bearing 9 and the second bearing 7, latch segment 10 is driven to push down on the upside of air inlet pipe 8 head end by locking cylinder 16, air inlet pipe 8 is fixed securely, then X-axis sliding seat 22 is moved to the dead in line of cutter head rotation and the air inlet pipe 8 head end mouth of pipe making bore hole mechanism 3 along X-axis, X-axis sliding seat 22 is locked by limitation locking mechanism 20, the cutter head of bore hole mechanism 3 rotates, simultaneously, Y-axis servo-actuating device drives feeding and returns, Boring can be carried out to the air inlet pipe 8 head end mouth of pipe, after machining, X-axis cylinder 27 drives X-axis sliding seat 22 to move to the dead in line of axis and the air inlet pipe 8 head end mouth of pipe making dress circle axle 11 along X-axis, latch 12 inserts jack 31 simultaneously, complete location, on dress circle axle 11, cover installs quoit in advance, dress circle axle 11 is driven to move by dress circle cylinder 19, quoit is made to be loaded in institute's bore hole, X-axis sliding seat 22 returns original position subsequently, complete a Boring and the processing of dress circle, as can be seen from the above-mentioned course of work, this device can complete automatic bore hole and the processing of dress circle in a set of mechanism, its process velocity is fast, processing and installation accuracy high.

The utility model is not limited to above-described embodiment; on the basis of technical scheme disclosed in the utility model; those skilled in the art is according to disclosed technology contents; do not need performing creative labour just can make some to some technical characteristics wherein to replace and distortion, these are replaced and are out of shape all in protection domain of the present utility model.

Claims (9)

1. an engine air inlet tube automatic bore hole dress coil apparatus, it is characterized in that: comprise workbench, workbench is fixed with the first bearing and the second bearing, first bearing and the second bearing are respectively equipped with the deep-slotted chip breaker matched with air inlet pipe two ends, latch segment is provided with directly over first bearing, latch segment is connected to the lower end of locking cylinder, described locking cylinder is arranged on horizontally disposed cylinder block, cylinder block is fixed on above workbench through air cylinder support, and on the upside of the lower surface of latch segment and air inlet pipe head end, shape matches; Described workbench is arranged with two X-axis guide rails in parallel, X-axis slide block is equipped with X-axis guide rail, X-axis slide block is fixed on the downside of X-axis sliding seat, X-axis guide rail parallel is provided with X-axis cylinder, the cylinder block of X-axis cylinder connects on the table, and the piston rod external part of X-axis cylinder is connected with X-axis sliding seat through cylinder connector; X-axis sliding seat upper surface is provided with two Y-axis guide rails perpendicular to X-axis guide rail, Y-axis slide block is equipped with Y-axis guide rail, described Y-axis slide block is fixed on the downside of Y-axis sliding seat, is provided with the Y-axis servo-actuating device for driving Y-axis sliding seat to move along Y-axis between two Y-axis guide rails; Bore hole mechanism is provided with on the upside of Y-axis sliding seat; X-axis sliding seat is also provided with the dress loop mechanism that axis is parallel with Y-axis, described dress loop mechanism comprises dress circle cylinder, the piston rod external part of dress circle cylinder is connected with dress circle slide block, dress circle slider bottom is equipped with in the guidance rail arranged along Y-axis, rail is taught to be fixed on X-axis sliding seat through supporting station, dress circle slide block is provided with dress circle axle, fills the axis of circle axle, the axis of the air inlet pipe head end mouth of pipe and the cutter head rotation of bore hole mechanism and parallels and be positioned on same level line.

2. engine air inlet tube according to claim 1 automatic bore hole dress coil apparatus, it is characterized in that: described workbench is positioned at X-axis sliding seat both sides and is respectively equipped with limitation locking mechanism, when X-axis slide block movement is to the limitation locking mechanism position of side, the cutter head rotation of bore hole mechanism and the axes coincide of the air inlet pipe head end mouth of pipe, when X-axis slide block movement is to the limitation locking mechanism position of opposite side, the dress circle axis of axle and the axes coincide of the air inlet pipe head end mouth of pipe.

3. engine air inlet tube according to claim 1 and 2 automatic bore hole dress coil apparatus, it is characterized in that: the side described X-axis sliding seat being positioned at dress circle axle is provided with latch support, latch support is provided with two axis latch parallel with X-direction, on described first bearing and latch segment, correspondence is provided with jack respectively, when latch segment locks air inlet pipe downwards, latch moves along X-direction and just in time can insert in described jack.

4. engine air inlet tube according to claim 3 automatic bore hole dress coil apparatus, is characterized in that: described latch end is tapered.

5. engine air inlet tube according to claim 3 automatic bore hole dress coil apparatus, it is characterized in that: described locking cylinder both sides are provided with the guide post through cylinder block, guide post upper end is connected through connecting plate, guide post lower end is connected on latch segment, is connected between guide post with cylinder block through fairlead.

6. engine air inlet tube according to claim 3 automatic bore hole dress coil apparatus, it is characterized in that: described Y-axis servo-actuating device comprises the leading screw being connected to servomotor axle head, leading screw is provided with nut, described nut is connected on the downside of Y-axis sliding seat, and described leading screw is arranged on X-axis sliding seat rotationally through rotating seat.

7. engine air inlet tube automatic bore hole dress coil apparatus according to claim 1 or 2, is characterized in that: correspondingly with bore hole mechanism on described workbench be provided with chip trough.

8. engine air inlet tube automatic bore hole dress coil apparatus according to claim 1 or 2, it is characterized in that: workbench is provided with elongated slot between two X-axis guide rails, described X-axis cylinder is arranged in described elongated slot.

9. engine air inlet tube automatic bore hole dress coil apparatus according to claim 1 or 2, is characterized in that: described workbench is arranged in frame, is provided with roller bottom frame, and frame top is provided with crossbeam, is provided with touch-screen on the downside of crossbeam.