CN108311934A - Connecting rod bearing both-end process equipment - Google Patents

Abstract

The present invention relates to a kind of connecting rod bearing both-end process equipments.It solves the prior art and designs the technical problems such as unreasonable.This connecting rod bearing both-end process equipment includes rack, it is equipped with horizonal base plate in frame top, the displacement adjustment seat being symmetrical set there are two being set in the upper surface of horizonal base plate, displacement adjustment seat one end is hinged with horizonal base plate, each displacement adjustment seat is connect respectively with swing displacement drive mechanism and the displacement adjustment seat swings displacement in the horizontal direction, it is respectively equipped with sleeve end cutting apparatus in each displacement adjustment seat, in place move is equipped with sleeve end inclined-plane bias adjustment mechanism between adjustment seat and sleeve end cutting apparatus, the axle sleeve clamping device being located between two displacement adjustment seats is equipped in rack or horizonal base plate.The advantage of the invention is that：Versatility is stronger, can improve machining accuracy and production efficiency.

Description

Connecting rod bearing both-end process equipment

Technical field

The invention belongs to mechanical equipment technical field more particularly to a kind of connecting rod bearing both-end process equipments.

Background technology

Its both-end of connecting rod bearing is symmetrical ramp structure.

Current oblique surface machining generally uses special plane to carry out the separately machined of single side, that is, after one angled end-face of processing again Process another angled end-face.

Although above-mentioned processing method disclosure satisfy that production requirement, still, above-mentioned mode its at least there is following technology Problem：

1, the end face precision of axle sleeve can not ensure, that is, machining accuracy is poor.

2, production efficiency is relatively low and labor intensity is higher.

3, the poor universality of equipment.

Invention content

Regarding the issue above, the present invention provides a kind of versatility is stronger, machining accuracy and production can be improved The connecting rod bearing both-end process equipment of efficiency.

In order to achieve the above objectives, present invention employs following technical proposals：This connecting rod bearing both-end process equipment includes machine Frame is equipped with horizonal base plate in frame top, sets that there are two the displacement adjustment seat that is symmetrical set, positions in the upper surface of horizonal base plate It is hinged with horizonal base plate to move adjustment seat one end, each displacement adjustment seat is connect respectively with swing displacement drive mechanism and the position It moves adjustment seat and swings displacement in the horizontal direction, sleeve end cutting apparatus is respectively equipped in each displacement adjustment seat, in displacement It is equipped with sleeve end inclined-plane bias adjustment mechanism between adjustment seat and sleeve end cutting apparatus, is set in rack or horizonal base plate There is the axle sleeve clamping device between two displacement adjustment seats, being additionally provided in the rack or horizonal base plate can will be to be added Work axle sleeve is fed through the servo feeding device in the axle sleeve clamping device.

In above-mentioned connecting rod bearing both-end process equipment, the sleeve end inclined-plane bias adjustment mechanism includes bottom Seat, power head frame is connected in base top, is respectively equipped with adjusting block at base top both ends and power head frame connects Be connected on above the adjusting block, be equipped on pedestal can drive the synchronization-moving synchronous drive mechanism of the adjusting block and It is oblique equipped with the power head frame can be driven to lift when synchronous drive mechanism acts between pedestal and adjusting block Face drive mechanism, the asynchronous driving mechanism that the adjusting block is individually moved can be driven by being equipped on synchronous drive mechanism.

In above-mentioned connecting rod bearing both-end process equipment, the inclined-plane drive mechanism includes being arranged in base top two The lower inclined plane at end, is arranged that its inclined direction in the lower inclined plane at base top both ends is consistent, distinguishes in the lower surface of the adjusting block Equipped with the ramp mutually identical with the lower inclined plane.

In above-mentioned connecting rod bearing both-end process equipment, the power head frame both ends further respectively have when described Adjusting block can prevent the vertical lockable mechanism that adjusting block is moved relative to pedestal when being moved to setting position.

In above-mentioned connecting rod bearing both-end process equipment, the synchronous drive mechanism includes sliding to connect with pedestal level The driven in translation plate connect is equipped with the synchronous adjustment screw rod being connect with base rotation on pedestal, is adjusted in synchronism screw flight end It is threadedly coupled in the screw hole two stretched in the middle part of driven in translation plate and with screw hole two, the driven in translation plate both ends pass through above-mentioned Asynchronous driving mechanism connect with adjusting block.

In above-mentioned connecting rod bearing both-end process equipment, the asynchronous driving mechanism includes being rotated with driven in translation plate The asynchronous adjusting screw rod of connection, the end of thread of asynchronous adjusting screw rod stretch in the screw hole three of adjusting block one end and with three spiral shell of screw hole Line connects.

In above-mentioned connecting rod bearing both-end process equipment, the servo feeding device includes fixed seat, in fixed seat On be equipped with the translation feeding rod being slidably connected with fixed seat and translation feeding rod is hanging, translate and set between feeding rod and fixed seat Have translational guide structure, translation feeding rod free end be equipped with axle sleeve circumferential direction locking structure, the translation feeding rod with watch Take driving device connection.

In above-mentioned connecting rod bearing both-end process equipment, the axle sleeve circumferential direction locking structure includes that setting is sent in translation Material bar free end and can relative translation feeding rod move radially move radially pin, described moves radially pin and mobile cylinder Connection.

In above-mentioned connecting rod bearing both-end process equipment, the axle sleeve clamping device includes in the U-shaped for being inverted setting Outline border, is equipped with two pieces of semicircle gripping blocks being symmetrical set in U-shaped outline border, the upper end of every piece of semicircle gripping block and U-shaped Outline border is slidably connected, and the lower end of every piece of semicircle gripping block is slidably connected with horizonal base plate, and any one piece of semicircle gripping block is solid Fixed to be arranged, in addition one piece of semicircle gripping block is driven with that can drive its clamping closer or far from the semicircle gripping block of fixed setting Motivation structure connects.

In above-mentioned connecting rod bearing both-end process equipment, the swing displacement drive mechanism includes being fixed on rack top The screw bolt seat in portion is equipped with the driving screw rod being threadedly coupled with screw bolt seat and the one end and the displacement tune that drive screw rod on screw bolt seat It is hinged to save seat, the driving screw rod is connect with driving device, and displacement guide frame is equipped between rack and displacement adjustment seat.

Compared with prior art, this connecting rod bearing both-end process equipment and the advantages of method, are：

1, versatile, the axle sleeve of two kinds of structures can be processed, that is, axle sleeve both-end is mutually parallel or axle sleeve both-end is The axle sleeve on inclined-plane, to be adapted to actual production, design is more reasonable for the switching of two states.

2, cutting precision when production efficiency, especially both-end are inclined-plane state greatly improved in both-end synchronous cutting, Virtually also reduce labor intensity.

3, the sleeve end inclined-plane bias adjustment mechanism designed, which raises production and processing precision, meet current techniques Development trend.

4. connecting rod bearing both-end inclined-plane bias adjustment mechanism structure is simple, easy to operation, connection is reliable.

5. connecting rod bearing both-end inclined-plane bias adjustment mechanism setting synchronous drive mechanism and the realization pair of asynchronous driving mechanism The adjusting of power head frame height and angle positions, and improves work efficiency.

6. the adjusting accurate positioning of connecting rod bearing both-end inclined-plane bias adjustment mechanism height and angle, chamfer are smooth It spends.

7. servo feeding mechanism coordinates translational guide structure, feeding using servo drive driving translation feeding rod Position is more accurate, processing quality higher.

8. axle sleeve circumferential direction locking structure is arranged in servo feeding mechanism, avoid in feeding process workpiece variation to be added or It falls off.

9. servo feeding mechanism is simple in structure, connection is reliable, good operation safety.

Description of the drawings

Fig. 1 is structural schematic diagram provided by the invention.

Fig. 2 is another viewing angle constructions schematic diagram provided by the invention.

Fig. 3 is stereoscopic-state structural schematic diagram provided by the invention.

Fig. 4 is the schematic diagram one of sleeve end inclined-plane bias adjustment mechanism provided by the invention.

Fig. 5 is the schematic diagram two of sleeve end inclined-plane bias adjustment mechanism provided by the invention.

Fig. 6 is the schematic diagram of pedestal in sleeve end inclined-plane bias adjustment mechanism provided by the invention.

Fig. 7 is the structural schematic diagram of servo feeding mechanism provided by the invention.

Fig. 8 is the stereoscopic schematic diagram of servo feeding mechanism provided by the invention.

In figure, rack 10, waste material discharge slot 100, screw bolt seat 101, driving screw rod 102, displacement guide frame 103, arch Rack 103a, guide gear 103b, driving gear 104, horizonal base plate 20, displacement adjustment seat 30, sleeve end cutting apparatus 40, It cuts driving motor 401, axle sleeve clamping device 50, U-shaped outline border 501, semicircle gripping block 502, clamp driving screw rod 503, bottom Seat 1, power head frame 2, adjusting block 3, lower inclined plane 3a, synchronous drive mechanism 4, is adjusted in synchronism screw rod 4a, is asynchronous ramp 1a Driving mechanism 5, asynchronous adjusting screw rod 5a, locking bolt 6, driven in translation plate 7, locating notch 7a, U-shaped piece 8, fixed seat A1, water Flat underside A11, vertical fixed long slab A12, vertical fixed short slab A13, translation feeding rod A2, pin A3, positioning step are moved radially A4, guide runner A5, guide rod A6, servo motor A7.

Specific implementation mode

Below be invention specific embodiment and in conjunction with attached drawing, technical scheme of the present invention will be further described, but Invention is not limited to these embodiments.

As shown in Figs. 1-3, this connecting rod bearing both-end process equipment includes rack 10, is fallen equipped with waste material at the top of rack 10 Entrance is connected in rack 10 and falls into the waste material discharge slot 100 that mouth is connect with the waste material.

It is equipped with horizonal base plate 20 at 10 top of rack, is equipped at the middle part of horizonal base plate 20 and falls into mouth company with the waste material Logical upper waste material falls into mouth.

Above-mentioned structure can be about to waste material and be collected and be discharged certainly, avoid accumulation etc. of the waste material in rack.

The displacement adjustment seat 30 being symmetrical set there are two being set in the upper surface of horizonal base plate 20,30 one end of displacement adjustment seat Hinged with horizonal base plate 20, each displacement adjustment seat 30 is connect respectively with swing displacement drive mechanism and the displacement adjustment seat 30 swing displacement in the horizontal direction.

30 one end of displacement adjustment seat is hinged by vertical hinged shaft and horizonal base plate 20.

Displacement drive mechanism is swung to connect with the other end of displacement adjustment seat 30.

Specifically, the swing displacement drive mechanism of the present embodiment includes being fixed on the screw bolt seat 101 at 10 top of rack, in spiral shell It is equipped with the driving screw rod 102 being threadedly coupled with screw bolt seat 101 on pole socket 101 and the one end for driving screw rod 102 is adjusted with displacement Seat 30 is hinged, and the driving screw rod 102 is connect with driving device, and driving device includes the drive being set on driving screw rod 102 Moving gear 104, the driving gear are engaged with driving gear, and driving gear is connect with wobble drive motor.

By above-mentioned structure, the swing displacement of displacement adjustment seat 30 may be implemented, that is, two displacement adjustment seats 30 are in 180 ° of distributions or two displacement adjustment seats 30 are in be less than 180 ° of states to be distributed, and versatility is stronger.

Displacement guide frame 103 is equipped between rack 10 and displacement adjustment seat 30.Specifically, the displacement of the present embodiment is led Include being fixed on the arch rack 103a of 30 outer end of displacement adjustment seat to structure 103, is equipped with and the arch in frame top The guide gear 103b of rack 103a engagement connections.

By designing displacement guide frame 103, guiding when may be implemented to swing further improves the stabilization of swing Property and ride comfort.

Certainly, above-mentioned swing displacement drive mechanism can also be the structure of cylinder or oil cylinder.

Be respectively equipped with sleeve end cutting apparatus 40 in each displacement adjustment seat 30, sleeve end cutting apparatus 40 with The angle change of displacement adjustment seat 30 and change, that is, meet the processing request of different end faces.

Secondly, sleeve end cutting apparatus 40 includes power head, and cutter is equipped on power head.

In place move is equipped with sleeve end inclined-plane bias adjustment mechanism between adjustment seat 30 and sleeve end cutting apparatus 40, tool Body, as Figure 4-Figure 6, the sleeve end inclined-plane bias adjustment mechanism of the present embodiment includes pedestal 1, in 1 top connection of pedestal Dynamic head frame 2, the 1 top both ends of pedestal are respectively equipped with adjusting block 3 and power head frame 2 be connected to it is described 3 top of adjusting block, the 3 synchronization-moving synchronous drive mechanism 4 of adjusting block can be driven and in pedestal by being equipped on pedestal 1 The inclined-plane that the power head frame 2 lifts can be driven when synchronous drive mechanism 4 acts by being equipped between 1 and adjusting block 3 Drive mechanism, the asynchronous driving mechanism 5 that the adjusting block 3 is individually moved can be driven by being equipped on synchronous drive mechanism 4.

Synchronous drive mechanism, which is arranged, can realize that the height of power head frame is adjusted, and asynchronous driving mechanism is arranged and then can be achieved The angular adjustment of power head frame.

Synchronous drive mechanism 4, which is arranged, can realize that the height of power head frame 2 is adjusted, and asynchronous driving mechanism 5 is arranged and then may be used Realize the angular adjustment of power head frame 2.

The inclined-plane drive mechanism includes the lower inclined plane 3a being arranged at 1 top both ends of pedestal, and setting is at 1 top two of pedestal Its inclined direction of the lower inclined plane 3a at end is consistent, is respectively equipped in the lower surface of the adjusting block 3 mutual with the lower inclined plane 3a Identical ramp 1a.

The 1 top both ends of pedestal are respectively equipped with locating slot, and above-mentioned lower inclined plane 3a is equipped in the slot bottom of locating slot.

Locating slot is set, prevents adjusting block 3 is excessively mobile from causing to be detached from pedestal 1.

Two locating slot interval settings, and each locating slot is in communication with the outside close to the corresponding one end in 1 top of pedestal.

2 both ends of power head frame further respectively have can when the adjusting block 3 is moved to setting position The vertical lockable mechanism for preventing adjusting block 3 from being moved relative to pedestal 1.

Vertical lockable mechanism is set, and power head frame 2 is prevented when machine is run, and acutely shake causes to cut chamfering essence Degree declines, and product quality is low.

The vertical lockable mechanism includes the locking bolt 6 for being threaded through 2 both ends of power head frame, on adjusting block 3 Equipped with the 6 perforative strip-shaped hole of locking bolt is supplied, it is equipped on pedestal 1 and connects with 6 end of thread screw thread of locking bolt The screw hole one connect.

The vertical lockable mechanism is simple in structure, and connection is reliable, easy to operation.

The synchronous drive mechanism 4 includes the driven in translation plate 7 being slidably connected with 1 level of pedestal, is equipped on pedestal 1 The synchronous adjustment screw rod 4a being rotatablely connected with pedestal 1, the end of thread for being adjusted in synchronism screw rod 4a stretch to 7 middle part of driven in translation plate It is threadedly coupled in screw hole two and with screw hole two, 7 both ends of driven in translation plate pass through above-mentioned asynchronous driving mechanism 5 and adjusting Block 3 connects.

It is adjusted in synchronism screw rod 4a by rotation, pushes driven in translation plate 7 to make 3 synchronizing moving of adjusting block, that is, realizes The height of power head frame 2 is adjusted.

The synchronous drive mechanism 4 includes the driven in translation plate 7 being slidably connected with 1 level of pedestal, and the translation is driven Movable plate 7 is connected with driving cylinder or driving motor, 7 both ends of driven in translation plate by above-mentioned asynchronous driving mechanism 5 with Adjusting block 3 connects.

1 side of pedestal is equipped with U-shaped piece 8, and the synchronous adjustment screw rod 4a is stuck in described U-shaped piece 8 of U-shaped mouth In.

U-shaped mouth is set, and fixed in this way to be adjusted in synchronism screw rod 4a, adjusting is easy to loading and unloading, easy to operation.

The asynchronous driving mechanism 5 includes the asynchronous adjusting screw rod 5a being rotatablely connected with driven in translation plate 7, asynchronous adjusting The end of thread of screw rod 5a is stretched in the screw hole three of 3 one end of adjusting block and is threadedly coupled with screw hole three.

Adjusting block 3 is pushed by rotating asynchronous adjusting screw rod 5a, the degree of rotation of asynchronous adjusting screw rod 5a is different, that is, realizes The angular adjustment of power head frame 2.

The asynchronous driving mechanism 5 includes the driving cylinder or driving motor being connect with driven in translation plate 7, the drive It takes offence cylinder or drive motor is connect with adjusting block 3.

The 7 upside both ends of driven in translation plate are respectively equipped with locating notch 7a, and the asynchronous adjusting screw rod 5a is stuck in In the locating notch 7a.

Locating notch 7a is set, fixes asynchronous adjusting screw rod 5a in this way, adjusting is easy to loading and unloading, easy to operation.

The sleeve end can be driven by being equipped between shifting adjustment seat 30 and sleeve end inclined-plane bias adjustment mechanism in place The cutting that inclined-plane bias adjustment mechanism in portion moves in the horizontal direction that the sleeve end cutting apparatus 40 is driven to translate is driven Motivation structure, two sleeve end cutting apparatus 40 are moved towards under the driving of cutting driving mechanism or are moved on the contrary.

Specifically, as shown in Figs. 1-3, the cutting driving mechanism of the present embodiment includes being connected to the cutting of 1 lower surface of pedestal Drive screw rod, swivel nut be arranged with and the swivel nut connect with pedestal 1 on cutting driving screw rod, cut drive screw rod and Driving motor 401 is cut to connect.

Translational guide structure is equipped between pedestal 1 and displacement adjustment seat 30.

Translational guide structure is the structure of guide rail and sliding, also can also be the structure of guide rod and guide sleeve.

The axle sleeve clamping device 50 being located between two displacement adjustment seats 30, tool are equipped in rack 10 or horizonal base plate 20 Body, which includes that two pieces are equipped in U-shaped outline border 501 in symmetrical in the U-shaped outline border 501 for being inverted setting The upper end of the semicircle gripping block 502 of setting, every piece of semicircle gripping block 502 is slidably connected with U-shaped outline border 501, every piece of semicircle The lower end of shape gripping block 502 is slidably connected with horizonal base plate 20, and any one piece of semicircle gripping block 502 is fixedly installed, and in addition one Block semicircle gripping block 502 and it can be driven closer or far from the clamping drive mechanism of the semicircle gripping block 502 of fixed setting Connection.

Clamping drive mechanism includes clamping to drive screw rod 503, the clamping driving screw rod and above-mentioned semicircle clamping Block 502 is threadedly coupled, and the clamping drives screw rod to be connect with driving motor is clamped.

Axle sleeve to be processed can be fed through the axle sleeve clamping device by being additionally provided in rack 10 or horizonal base plate 20 Servo feeding device in 50.

Specifically, as Figure 7-8, the servo feeding device of the present embodiment includes fixed seat A1, and fixed seat A1 is fixed on In any one displacement adjustment seat 30, it is equipped with the translation feeding rod A2 being slidably connected with fixed seat A1 on fixed seat A1 and puts down It is hanging to move feeding rod A2, translational guide structure is equipped between translation feeding rod A2 and fixed seat A1, in the outstanding of translation feeding rod A2 Dead end is equipped with axle sleeve circumferential direction locking structure, and the translation feeding rod A2 is connect with servo drive.

Translation feeding rod A2 is driven using servo drive, coordinates translational guide structure, feeding position is more accurate, processing Quality higher.

Axle sleeve circumferential direction locking structure is set, the workpiece variation to be added in feeding process is avoided or is fallen off.

The axle sleeve circumferential direction locking structure includes setting in translation feeding rod A2 free ends and being capable of relative translation feeding What bar A2 was moved radially move radially pin A3, the pin A3 that moves radially are connect with mobile cylinder.

Pin A3 is moved radially by mobile cylinder control, feeding is more convenient.

The translation feeding rod A2 free ends are equipped with positioning step A4, the positioning step A4 equipped with for described Move radially the location hole that pin A3 is inserted into.

Positioning step A4 is set, prevents workpiece to be added from shifting, fixation is more reliable.

The translational guide structure includes the guide runner A5 being set in the middle part of translation feeding rod A2, on fixed seat A1 It is equipped with guide rod A6, the pilot hole being inserted into for the guide rod A6 is equipped on guide runner A5.

By the cooperation of guide runner A5 and guide rod A6, the translation direction of translation feeding rod A2 is more acurrate.

The servo drive includes servo motor A7, and the servo motor A7 is sent by drive mechanism and translation Expect bar A2 connections.Drive mechanism includes screw drive etc. mode.

The fixed seat A1 includes horizonal base plate A11, and one end on horizonal base plate A11 is connected with vertical fixed long slab A12, the other end on horizonal base plate A11 are connected with vertical fixed short slab A13, vertical fixed long slab A12 with it is fixed short vertically Plate A13 is arranged in parallel.

The translation feeding rod A2 is arranged on vertical fixed long slab A12, and the free end for translating feeding rod A2 is located at The top of vertical fixed short slab A13.

Described one end guide rod A6 is connected on vertical fixed long slab A12, and the guide rod A6 other ends are connected to vertical solid Determine on short slab A13, the guide rod A6 is located at the lower section of translation feeding rod A2.

The guide rod A6 is located at the lower section of translation feeding rod A2 and guide rod A6 and translation feeding rod A2 is arranged in parallel.

The guide runner A5 is located between vertical fixed long slab A12 and vertical fixed short slab A13.

The operation principle of the present embodiment is as follows：

When axle sleeve both-end is inclined-plane, then position occurs for drive displacement adjustment seat 30 for swing displacement drive mechanism connection at this time The swing set, that is, be distributed in the angle state less than 180 °, specific process is as follows：

Feeding：Axle sleeve to be processed is inserted in the free end of translation feeding rod A2, axle sleeve clamping device 50 at this time opens Free end for translating feeding rod A2 enters, and clamps axle sleeve into the axle sleeve clamping device 50 after in place at this time, and radial moves Dynamic pin A3, which then bounces back and translates feeding rod A2, then to be resetted；

Machining, sleeve end cutting apparatus 40 realize opposite movement under the driving of cutting driving mechanism, that is, to axis The both ends of set carry out machining, are then resetted after the completion of machining；

Blanking, axle sleeve after processing is completed is open-top by next axle sleeve to be processed, is detached from axle sleeve clamping device 50.

Specific embodiment described herein is only an example for the spirit of the invention.Technology belonging to the present invention is led The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (10)

1. connecting rod bearing both-end process equipment, including rack (10), which is characterized in that be equipped with horizonal base plate at the top of rack (10) (20), the displacement adjustment seat (30) being symmetrical set there are two being set in the upper surface of horizonal base plate (20), displacement adjustment seat (30) One end is hinged with horizonal base plate (20), and each displacement adjustment seat (30) is connect respectively with swing displacement drive mechanism and the position It moves adjustment seat (30) and swings displacement in the horizontal direction, sleeve end cutting apparatus is respectively equipped on each displacement adjustment seat (30) (40), it moves in place and is equipped with sleeve end inclined-plane bias adjustment mechanism between adjustment seat (30) and sleeve end cutting apparatus (40), The sleeve end inclined-plane can be driven by being equipped between shifting adjustment seat (30) in place and sleeve end inclined-plane bias adjustment mechanism Bias adjustment mechanism moves in the horizontal direction to drive the cutting driving machine of sleeve end cutting apparatus (40) translation Structure is equipped with the axle sleeve clamping device being located between two displacement adjustment seats (30) in rack (10) or horizonal base plate (20) (50), it is additionally provided with the clamping of the axle sleeve described in capable of being fed through axle sleeve to be processed on the rack (10) or horizonal base plate (20) Servo feeding device in device (50).

2. connecting rod bearing both-end process equipment according to claim 1, which is characterized in that the sleeve end inclined-plane is inclined Difference adjusting mechanism includes pedestal (1), and power head frame (2) is connected at the top of pedestal (1), the both ends point at the top of pedestal (1) Not She You adjusting block (3) and power head frame (2) be connected to above the adjusting block (3), being equipped on pedestal (1) can It drives described adjusting block (3) the synchronization-moving synchronous drive mechanism (4) and is equipped between pedestal (1) and adjusting block (3) and worked as Synchronous drive mechanism (4) can drive the inclined-plane drive mechanism that the power head frame (2) lifts when acting, and be driven synchronous Motivation structure (4), which is equipped with, can drive the asynchronous driving mechanism (5) that the adjusting block (3) is individually moved.

3. connecting rod bearing both-end process equipment according to claim 2, which is characterized in that the inclined-plane drive mechanism packet The lower inclined plane (3a) at setting both ends at the top of pedestal (1) is included, its inclination side lower inclined plane (3a) at the both ends at the top of pedestal (1) is set To consistent, the ramp (1a) mutually identical with the lower inclined plane (3a) is respectively equipped in the lower surface of the adjusting block (3).

4. connecting rod bearing both-end process equipment according to claim 2, which is characterized in that the power head frame (2) both ends further respectively have can prevent adjusting block (3) with respect to pedestal when the adjusting block (3) is moved to setting position (1) mobile vertical lockable mechanism.

5. connecting rod bearing both-end process equipment according to claim 2, which is characterized in that the synchronous drive mechanism (4) include the driven in translation plate (7) being slidably connected with pedestal (1) level, be equipped on pedestal (1) and pedestal (1) is rotatablely connected Synchronous adjustment screw rod (4a), be adjusted in synchronism screw rod (4a) the end of thread stretch in the screw hole two in the middle part of driven in translation plate (7) And be threadedly coupled with screw hole two, driven in translation plate (7) both ends pass through above-mentioned asynchronous driving mechanism (5) and adjusting block (3) it connects.

6. connecting rod bearing both-end process equipment according to claim 2, which is characterized in that the asynchronous driving mechanism (5) include the asynchronous adjusting screw rod (5a) being rotatablely connected with driven in translation plate (7), the end of thread of asynchronous adjusting screw rod (5a) stretches into It is threadedly coupled in the screw hole three of adjusting block (3) one end and with screw hole three.

7. connecting rod bearing both-end process equipment according to claim 1, which is characterized in that the servo feeding device packet Fixed seat (A1) is included, the translation feeding rod (A2) being slidably connected with fixed seat (A1) is equipped in fixed seat (A1) and translation is sent Expect bar (A2) vacantly, translational guide structure is equipped between translation feeding rod (A2) and fixed seat (A1), in translation feeding rod (A2) Free end be equipped with axle sleeve circumferential direction locking structure, the translation feeding rod (A2) connect with servo drive.

8. connecting rod bearing both-end process equipment according to claim 7, which is characterized in that the axle sleeve circumferential direction locking knot Structure include setting translation feeding rod (A2) free end and can relative translation feeding rod (A2) move radially move radially pin (A3), the pin (A3) that moves radially is connect with mobile cylinder.

9. connecting rod bearing both-end process equipment according to claim 1, which is characterized in that the axle sleeve clamping device (50) include that two pieces of semicircle clevis being symmetrical set are equipped in U-shaped outline border (501) in the U-shaped outline border (501) for being inverted setting The upper end of tight block (502), every piece of semicircle gripping block (502) is slidably connected with U-shaped outline border (501), every piece of semicircle gripping block (502) lower end is slidably connected with horizonal base plate (20), and any one piece of semicircle gripping block (502) is fixedly installed, in addition one piece Semicircle gripping block (502) and it can be driven closer or far from the clamping driving machine of the semicircle gripping block (502) of fixed setting Structure connects.

10. connecting rod bearing both-end process equipment according to claim 1, which is characterized in that the swing displacement drive Mechanism includes the screw bolt seat (101) being fixed at the top of rack (10), is equipped on screw bolt seat (101) and screw bolt seat (101) spiral shell The driving screw rod (102) of line connection and the driving screw rod for driving one end of screw rod (102) hinged, described with displacement adjustment seat (30) (102) it is connect with driving device, displacement guide frame (103) is equipped between rack (10) and displacement adjustment seat (30).