CN207930268U - Rear shock absorber shaft sleeve press-mounting machine structure - Google Patents

Abstract

The utility model discloses a kind of rear shock absorber shaft sleeve press-mounting machine structures, are mainly used for press fitting of the pressing machine to rubber casing.To the technology of pressure mounting of gum sleeve, phenomenon not in place is accumulated and are pressed to appearance compression, deformation, intermediate rubber body during press fitting to present pressing machine.The utility model patent include servo push screw body, push detent mechanism, lower frock clamp, servo return back to top screw body, push screw body using servo and servo return back to top the repetitive operation of screw body, complete entire press fitting work.The utility model has the beneficial effects that：Keep the product after press fitting symmetrical, beautiful, solves and be pressed compression, deformation, intermediate rubber the body accumulation occurred in the process and be pressed phenomenon not in place.

Description

Rear shock absorber shaft sleeve press-mounting machine structure

Technical field

The utility model is related to field of machining and machinebuilding technology, more particularly to a kind of rear reducer shaft covers press-loading device, to rubber The press-loading process of gum cover pipe.

Background technology

Excellent noise reduction effect is isolated in rubber axle sleeve, and has elastic characteristic, is capable of providing torsion and inclined flexibility, wide General to be applied to all trades and professions, the production technology of rubber axle sleeve is greatly improved now, but still deposits in process of production In compression, deformation, the accumulation of intermediate rubber body and it is pressed phenomenon not in place, this has seriously affected the performance and beauty of product, difficult To meet present production requirement, thus need the further processing method for improving rubber axle sleeve.

Utility model content

The shortcomings that the purpose of the utility model is to overcome the prior arts, provide it is a kind of facilitate production, solve compression, become A kind of effective press-loading device not in place is accumulated and are pressed to shape, intermediate rubber body.

The purpose of this utility model is achieved through the following technical solutions：A kind of rear shock absorber shaft sleeve press-mounting machine structure, it is special Sign is：Including servo push screw body, push detent mechanism, lower tool positioning device, servo return back to top screw body and bottom Plate, the servo press mechanism include push servo motor, push speed reducer, servo motor mounting bracket, press-loading device supporting rack, Ball screw, feed screw nut A, pressure head connecting plate, pressure head and screw mandrel support seat, the pushing servo motor are placed in pushing speed reducer Upside, the pushing speed reducer are placed on servo motor mounting bracket, and the servo motor installation is placed on press-loading device supporting rack Upside, the ball screw upper end pass through at the top of press-loading device supporting rack and push motor for speed reducer axis connection, the ball wire Bar lower end is connected across pressure head connecting plate with screw mandrel support seat, and the pressure head is placed on the downside of pressure head connecting plate, the pushing positioning Mechanism includes pushing positioning plate, lower limit guide rod, being pressed bottom plate, the positioning device that returns back to top, guide post connecting plate, synchronizing wheel one, casing Axle sleeve, trapezoidal screw and feed screw nut B, the lower limit guide rod, which passes through, pushes positioning plate, press fitting bottom plate and bottom plate, bottom with Guide post connecting plate connects, and the pushing positioning plate is placed on the upside of press fitting bottom plate, and the press fitting bottom plate is placed on the upside of bottom plate, described to lead Column connecting plate is placed in baseplate underside, and the positioning device that returns back to top passes through press fitting bottom plate, the synchronizing wheel one to be placed under press fitting bottom plate Side is connect with casing axle sleeve lower end, and the lower tool positioning device is mounted on bottom plate, and the servo screw body that returns back to top includes Connecting shaft, eccentric wheel, cylinder, rack, spur gear, speed reducer car, the speed reducer that returns back to top, return back to top servo motor and synchronizing wheel two, The speed reducer that returns back to top is vertically-mounted, and the synchronizing wheel two and the motor for speed reducer axis connection that returns back to top, the speed reducer that returns back to top are placed in On the downside of speed reducer car, the servo motor that returns back to top is placed on the downside of the speed reducer that returns back to top, and the synchronizing wheel two is mounted on reducer pedestal Inside is driven, the cylinder is connect with rack, and the rack is engaged with spur gear, and the spur gear, eccentric wheel are connected to same company In spindle.

Further, the press-loading device supporting rack is vertically mounted on bottom plate middle position, the press-loading device branch Support is hollow structure and its front is unclosed, and elongate holes, mounted in the bore edge of sensing chip are opened in its side centre position And elongate holes are passed through, there are three sensors and is evenly distributed on the elongate holes edge, in the press-loading device supporting rack Side has two guide rails and the parallel installation of two guide rails, the guide rail to have slipper and fixed part, the fixed part of two guide rails It is symmetrically and fixedly mounted to press-loading device supporting rack inside rear face, the rail length is less than the height of press-loading device supporting rack, institute It states the slipper front to connect with sliding block mounting plate, the pressure head connecting plate is vertically arranged in sliding block mounting plate lower edge.

Further, the ball screw passes through press-loading device supporting rack centre position, the ball screw It is connected by shaft coupling with motor for speed reducer axis is pushed, shaft coupling is placed in servo motor mounting bracket, the servo motor installation Frame is hollow structure and has that side is unclosed, which is the same side, the ball screw with the unclosed face of press-loading device supporting rack Interposition is equipped with a feed screw nut A, and the ball screw, which passes through, to be connect on the upside of press-loading device supporting rack with lead screw fixed seat, the silk The fixation of bar fixed seat is placed in press-loading device supporting rack top outer.

Further, the lower limit guide rod has two, is symmetrically placed in guide post connecting plate both sides and pushing positioning plate It is cased with spring outside lower limit guide rod between press fitting bottom plate, the positioning device that returns back to top includes bearing combination, casing axle sleeve, ladder Shape lead screw, feed screw nut B and boss, the boss be placed in quill put on and the boss at the top of jagged, described sleeve pipe axle sleeve For interior empty hierarchic structure and across press fitting bottom plate, the bearing combination is built in casing axle sleeve on ladder, the trapezoidal screw Across feed screw nut B, the feed screw nut B is embedded in casing axle sleeve, and the lower ends the feed screw nut B are embedded in synchronizing wheel one, institute It states bearing to combine there are two bearing, a taper roll bearing, a common axle sleeve, the taper roll bearing is directly installed on On the upside of plain bearing.

Further, eccentric wheel holds block and is mounted on guide post connecting plate centre position.

Further, the lower tool positioning device is vertically-mounted, and the lower tool positioning device includes pedestal and three V Shape Inner arc support base, V-arrangement Inner arc support base are uniformly mounted on the base.

Further, the eccentric wheel is mounted on immediately below the synchronizing wheel one and is placed in the eccentric wheel and holds on block, There are two rolling bearing units, the spur gear and connection shaft connection places to be connected to a rolling bearing units, the band in the connecting shaft Seat bearing is connected on rolling bearing units seat, and there are two the rolling bearing units seats, and the rolling bearing units seat is connected under the bottom plate Side, the connecting shaft other end are connect with another rolling bearing units, and the rolling bearing units are connected on another rolling bearing units seat.

Further, the rack is connect with a sliding slot, and the sliding slot both ends are equipped with buffer box, the buffer Seat is mounted on the baseplate underside, and the sliding slot is connect with chute supported block, and the chute supported block is bar shaped box shaped, described Chute supported block is horizontally arranged at baseplate underside.

Further, the cylinder is connected with rack by floating junction.

The utility model has the following advantages：Rear shock absorber shaft sleeve press-mounting machine structure, which has, to be conveniently operated, and is solved compression, is become Advantage not in place is accumulated and are pressed to shape, intermediate rubber.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural scheme of mechanism that servo pushes screw body；

Fig. 3 be push detent mechanism, lower tool mechanism and servo return back to top the structural schematic diagram of screw body；

Fig. 4 is to push detent mechanism structural schematic diagram；

Fig. 5 is the internal cross section figure for pushing detent mechanism；

Fig. 6 be servo return back to top mechanism eccentric wheel press mechanism structural scheme of mechanism；

Fig. 7 is the servo motor mechanism that returns back to top；

In figure, 1- servos push screw body, and 2- pushes detent mechanism, tool positioning device under 3-, and 4- servos return back to top silk Linkage, 5- pushing servo motors, 6- pushing speed reducers, 7- shaft couplings, 8- servo motor mounting brackets, 9- lead screw fixed seats, 10- press-loading device supporting racks, 11- ball screws, 12- guide rails, 13- feed screw nut's A, 14- sliding block mounting plate, 15- pressure heads connect Fishplate bar, 16- pressure heads, 17- screw mandrel support seats, 18- sensors, 19- sensing chips, 20- pushing positioning plates, 21- lower limit guide rods, 22- is pressed bottom plate, and 23- returns back to top positioning device, 24- guide post connecting plates, 25- synchronizing wheels one, and 26- eccentric wheels hold block, 27- bearing groups It closes, 28- casing axle sleeves, 29- trapezoidal screws, 30- feed screw nut's B, 31- bottom plate, 32- connecting shafts, 33- eccentric wheels, 34- cylinders, 35- racks, 36- spur gears, 37- floating junctions, 38- speed reducer cars, 39- return back to top speed reducer, and 40- returns back to top servo motor, 41- Synchronizing wheel two, 42- boss, 43- rolling bearing units, 44- rolling bearing units seats, 45- sliding slots, 46- chute supported blocks, 47- pedestals, 48-V Shape Inner arc support base, 49- buffer boxs.

Specific implementation mode

The utility model is further described below in conjunction with the accompanying drawings, the scope of protection of the utility model be not limited to It is lower described：

A kind of rear shock absorber shaft sleeve press-mounting machine structure, it is characterised in that：It includes that servo pushes screw body 1, pushes positioning Mechanism 2, lower tool positioning device 3, servo return back to top screw body 4 and bottom plate 31, and it includes pushing that the servo, which pushes screw body 1, Servo motor 5 pushes speed reducer 6, servo motor mounting bracket 8, press-loading device supporting rack 10, ball screw 11, feed screw nut A13, pressure head connecting plate 15, pressure head 16 and screw mandrel support seat 17, the pushing servo motor 5, which is placed in, pushes 6 upside of speed reducer, institute It states pushing speed reducer 6 to be placed on servo motor mounting bracket 8, the servo motor mounting bracket 8 is placed on press-loading device supporting rack 10 Side, 11 upper end of the ball screw pass through 10 top of press-loading device supporting rack and push 6 motor axis connection of speed reducer, the ball 11 lower end of lead screw passes through pressure head connecting plate 15 and screw mandrel support seat 17 to connect, and the pressure head 16 is placed in 15 downside of pressure head connecting plate, The pushing detent mechanism 2 includes pushing positioning plate 20, lower limit guide rod 21, press fitting bottom plate 22, the positioning device that returns back to top 23, guide post Connecting plate 24, synchronizing wheel 1, casing axle sleeve 28, trapezoidal screw 29 and feed screw nut B30, the lower limit guide rod 21 pass through down Pressure positioning plate 20, press fitting bottom plate 22 and bottom plate 31, bottom are connect with guide post connecting plate 24, and the pushing positioning plate 20 is placed in pressure 22 upside of bottom plate is filled, the press fitting bottom plate 22 is placed in 31 upside of bottom plate, and the guide post connecting plate 24 is placed in 31 downside of bottom plate, described The positioning device that returns back to top 23 passes through press fitting bottom plate 22, the synchronizing wheel 1 to be placed in press fitting bottom plate 22 downside, and under casing axle sleeve 28 End connection, the lower tool positioning device 3 be mounted on bottom plate 31 on, the servo return back to top screw body 4 include connecting shaft 32, partially Heart wheel 33, cylinder 34, rack 35, spur gear 36, speed reducer car 38, the speed reducer 39 that returns back to top, return back to top servo motor 40 with it is synchronous 2 41 are taken turns, the speed reducer 39 that returns back to top is vertically-mounted, the synchronizing wheel 2 41 and the 39 motor axis connection of speed reducer that returns back to top, described time Top speed reducer 39 is placed in 38 downside of speed reducer car, and the servo motor 40 that returns back to top is placed in 39 downside of speed reducer that returns back to top, described same Step wheel 2 41 is mounted on 38 inside of speed reducer car, and the cylinder 34 is connect with rack 35, and the rack 35 is nibbled with spur gear 36 It closes, the spur gear 36, eccentric wheel 33 are connected in same connecting shaft 32.

As optional embodiment, the press-loading device supporting rack 10 is vertically mounted on 31 middle position of bottom plate, The press-loading device supporting rack 10 is hollow structure and its front is unclosed, and elongate holes, the sense are opened in its side centre position It answers 19 mounted in the bore edges of piece and passes through hole, there are three the sensors 18 and is evenly distributed on the bore edges, described 10 inside of press-loading device supporting rack has two guide rails 12 and two guide rails, 12 parallel installation, the guide rail 12 have slipper and fixation The fixed part of part, two guide rails 12 is symmetrically and fixedly mounted to 10 inside rear face of press-loading device supporting rack, and the guide rail 12 is grown Degree is less than the height of press-loading device supporting rack 10, and the slipper front is connect with sliding block mounting plate 14, the pressure head connection Plate 15 is vertically arranged in 14 lower edge of sliding block mounting plate.

As optional embodiment, the ball screw 11 passes through 10 centre position of press-loading device supporting rack, The ball screw 11 and pushing 6 motor shaft of speed reducer is connected by shaft coupling 7, and shaft coupling 7 is placed in servo motor mounting bracket 8 Interior, the servo motor mounting bracket 8 is hollow structure and has that side is unclosed, the side and 10 unclosed face of press-loading device supporting rack For the same side, 11 interposition of the ball screw is equipped with a feed screw nut A13, and the ball screw 11 is supported across press-loading device 10 upside of frame is connect with lead screw fixed seat 9, and the lead screw fixed seat 9 fixation is placed in 10 top outer of press-loading device supporting rack.

As optional embodiment, the lower limit guide rod 21 has two, is symmetrically placed in 24 both sides of guide post connecting plate And spring is cased with outside positioning plate 20 and the lower limit guide rod 21 being pressed between bottom plate 22 pushing, the length is less than the section 21 length of lower limit guide rod, the positioning device 23 that returns back to top include bearing combination 27, casing axle sleeve 28, trapezoidal screw 29, lead screw Nut B30 and boss 42, the boss 42 is placed on casing axle sleeve 28 and 42 jagged, the described sleeve pipe axle sleeve 28 in top of boss For interior empty hierarchic structure and across press fitting bottom plate 22, the bearing combination 27 is built in casing axle sleeve 28 on ladder, the ladder Shape lead screw 29 passes through feed screw nut B30, the feed screw nut B30 to be embedded in casing axle sleeve 28, in the lower ends the feed screw nut B30 Embedded in synchronizing wheel 1, there are two bearing, a taper roll bearing, a common axle sleeve, the circles for the bearing combination 27 Taper roller bearing is directly installed on the upside of plain bearing.

As optional embodiment, the eccentric wheel holds block 26 and is mounted on 24 centre position of guide post connecting plate.

As optional embodiment, the lower tool positioning device 3 is vertically-mounted, and the lower tool positioning device 3 wraps Pedestal 47 and three V-arrangement Inner arc support bases 48 are included, V-arrangement Inner arc support base 48 is uniformly mounted on pedestal 47.

As optional embodiment, the eccentric wheel 33 is mounted on immediately below the synchronizing wheel 1 and is placed in described Eccentric wheel is held on block 26, and there are two rolling bearing units 43, the spur gear 36 and 32 junctions of connecting shaft to connect in the connecting shaft 32 A rolling bearing units 43 have been connect, the rolling bearing units 43 are connected on rolling bearing units seat 44, and there are two the rolling bearing units 43, The rolling bearing units seat 44 is connected to 31 downside of the bottom plate, and 32 other end of the connecting shaft connects with another rolling bearing units 43 It connects, the rolling bearing units 43 are connected on another rolling bearing units seat 44.

As optional embodiment, the rack 35 is connect with sliding slot 45, and 45 both ends of the sliding slot are equipped with buffer Seat 49, the buffer box 49 are mounted on 31 downside of the bottom plate, and the sliding slot 45 is connect with chute supported block 46, the sliding slot Supporting block 46 is bar shaped box shaped, and the chute supported block 46 is horizontally arranged at 31 downside of bottom plate.

As optional embodiment, the cylinder 34 and rack 35 are connected by floating junction 37.

It is put on the V-arrangement Inner arc support base 48 of lower tool positioning device 3, and makes by hand in use, subtracting oil storage barrel by after Oil drum one end, which is taken, to be placed on the boss 42 for the positioning device 23 that returns back to top, and subtracts oil storage barrel after workpiece to be processed is placed on boss 42 Hole inside, push servo motor 5 work drive ball screw 11 rotate, due to ball screw 11 fix, then be attached thereto Feed screw nut's A13 band dynamic heads 16 push workpiece, are processed to workpiece, when workpiece is depressed into the home of setting, lead to 19 sensed position of sensing chip is crossed, control computer is transmitted a signal to by sensor 18, control computer controls the servo motor that returns back to top 40 work, drive synchronizing wheel 2 41 to rotate, and synchronizing wheel 1 drives feed screw nut's B30 rotations, coordinates with the feed screw nut B30 Trapezoidal screw 29 rise, carry out the work that returns back to top, the cylinder 34 pushes the rotation of 35 turn spur 36 of rack, 36 band of spur gear Dynamic connecting shaft 32 rotates, and the eccentric wheel 33 on 32 axis of connecting shaft and then rotates, and going to certain angle can be two lower limit guide rod 21 push, and the work that returns back to top terminates, and repeats this flow, until work pieces process is completed.

Claims (9)

1. a kind of rear shock absorber shaft sleeve press-mounting machine structure, it is characterised in that：Screw body is pushed including servo（1）, push localization machine Structure（2）, lower tool positioning device（3）, servo returns back to top screw body（4）And bottom plate（31）, the servo pushing screw body（1） Including pushing servo motor（5）, push speed reducer（6）, servo motor mounting bracket（8）, press-loading device supporting rack（10）, ball wire Bar（11）, feed screw nut A（13）, pressure head connecting plate（15）, pressure head（16）And screw mandrel support seat（17）, the pushing servo motor （5）It is placed in pushing speed reducer（6）Upside, the pushing speed reducer（6）It is placed in servo motor mounting bracket（8）On, the servo electricity Machine mounting bracket（8）It is placed in press-loading device supporting rack（10）Upside, the ball screw（11）Upper end passes through press-loading device supporting rack （10）Top and pushing speed reducer（6）Motor axis connection, the ball screw（11）Lower end passes through pressure head connecting plate（15）And silk Bar support base（17）Connection, the pressure head（16）It is placed in pressure head connecting plate（15）Downside, the pushing detent mechanism（2）Including under Press positioning plate（20）, lower limit guide rod（21）, press fitting bottom plate（22）, return back to top positioning device（23）, guide post connecting plate（24）, it is synchronous Wheel one（25）, casing axle sleeve（28）, trapezoidal screw（29）With feed screw nut B（30）, the lower limit guide rod（21）Across pushing Positioning plate（20）, press fitting bottom plate（22）And bottom plate（31）, bottom and guide post connecting plate（24）Connection, the pushing positioning plate （20）It is placed in press fitting bottom plate（22）Upside, the press fitting bottom plate（22）It is placed in bottom plate（31）Upside, the guide post connecting plate（24） It is placed in bottom plate（31）Downside, the positioning device that returns back to top（23）Across press fitting bottom plate（22）, the synchronizing wheel one（25）It is placed in pressure Fill bottom plate（22）Downside, with casing axle sleeve（28）Lower end connects, the lower tool positioning device（3）Mounted on bottom plate（31）On, The servo returns back to top screw body（4）Including connecting shaft（32）, eccentric wheel（33）, cylinder（34）, rack（35）, spur gear （36）, speed reducer car（38）, return back to top speed reducer（39）, return back to top servo motor（40）With synchronizing wheel two（41）, described return back to top subtract Fast machine（39）It is vertically-mounted, the synchronizing wheel two（41）With the speed reducer that returns back to top（39）Motor axis connection, the speed reducer that returns back to top （39）It is placed in speed reducer car（38）Downside, the servo motor that returns back to top（40）It is placed in the speed reducer that returns back to top（39）Downside, it is described same Step wheel two（41）Mounted on speed reducer car（38）Inside, the cylinder（34）With rack（35）Connection, the rack（35）With Spur gear（36）Engagement, the spur gear（36）, eccentric wheel（33）It is connected to same connecting shaft（32）On.

2. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：The press-loading device branch Support（10）It is vertically mounted on bottom plate（31）Middle position, the press-loading device supporting rack（10）For hollow structure and its front Unclosed, elongate holes, sensing chip are opened in its side centre position（19）Mounted in the bore edge simultaneously passes through elongate holes, sensing Device（18）There are three and be evenly distributed on the elongate holes edge, the press-loading device supporting rack（10）There are two guide rails in inside （12）And two guide rail（12）Parallel installation, the guide rail（12）There are slipper and fixed part, two guide rails（12）Fixation Partial symmetry is fixedly mounted on press-loading device supporting rack（10）Inside rear face, the guide rail（12）Length is supported less than press-loading device Frame（10）Height, the slipper front and sliding block mounting plate（14）Connection, the pressure head connecting plate（15）It is vertically arranged in Sliding block mounting plate（14）Lower edge.

3. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：The ball screw （11）Across the press-loading device supporting rack（10）Centre position, the ball screw（11）With pushing speed reducer（6）Motor Axis passes through shaft coupling（7）Connection, shaft coupling（7）It is placed in servo motor mounting bracket（8）It is interior, the servo motor mounting bracket（8）For Hollow structure and have that side is unclosed, the side and press-loading device supporting rack（10）Unclosed face is the same side, the ball screw （11）Interposition is equipped with a feed screw nut A（13）, the ball screw（11）Across press-loading device supporting rack（10）Upside and silk Bar fixed seat（9）Connection, the lead screw fixed seat（9）Fixation is placed in press-loading device supporting rack（10）Top outer.

4. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：The lower limit guide rod （21）There are two, be symmetrically placed in guide post connecting plate（24）Both sides and push positioning plate（20）With press fitting bottom plate（22）Between under Limit guide rod（21）Outer to be cased with spring, the length is less than this section of lower limit guide rod（21）Length, the positioning dress that returns back to top It sets（23）It is combined including bearing（27）, casing axle sleeve（28）, trapezoidal screw（29）, feed screw nut B（30）And boss（42）, described Boss（42）It is placed in casing axle sleeve（28）The upper and boss（42）Top is jagged, described sleeve pipe axle sleeve（28）For interior empty ladder knot Structure and across press fitting bottom plate（22）, the bearing combination（27）It is built in casing axle sleeve（28）On interior ladder, the trapezoidal screw （29）Across feed screw nut B（30）, the feed screw nut B（30）It is embedded in casing axle sleeve（28）, the feed screw nut B（30）Under End is embedded in synchronizing wheel one（25）, the bearing combination（27）There are two bearing, a taper roll bearing, a plain shafts Set, the taper roll bearing are directly installed on the upside of plain bearing.

5. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：Eccentric wheel holds block（26）Peace Mounted in guide post connecting plate（24）Centre position.

6. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：The lower tool locating dress It sets（3）It is vertically-mounted, the lower tool positioning device（3）Including pedestal（47）With three V-arrangement Inner arc support bases（48）, V-arrangement Inner arc support base（48）Uniformly it is mounted on pedestal（47）On.

7. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1 or 5, it is characterised in that：The eccentric wheel （33）Mounted on the synchronizing wheel one（25）It underface and is placed in the eccentric wheel and holds block（26）On, the connecting shaft（32）On have Two rolling bearing units（43）, the spur gear（36）And connecting shaft（32）Junction is connected to a rolling bearing units（43）, described Rolling bearing units（43）It is connected to rolling bearing units seat（44）On, the rolling bearing units（43）There are two seats, the rolling bearing units seat （44）It is connected to the bottom plate（31）Downside, the connecting shaft（32）The other end and another rolling bearing units（43）Connection, it is described Rolling bearing units（43）It is connected to another rolling bearing units seat（44）On.

8. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：The rack（35）With cunning Slot（45）Connection, the sliding slot（45）Both ends are equipped with buffer box（49）, the buffer box（49）Mounted on the bottom plate （31）Downside, the sliding slot（45）With chute supported block（46）Connection, the chute supported block（46）It is described for bar shaped box shaped Chute supported block（46）It is horizontally arranged at bottom plate（31）Downside.

9. a kind of rear shock absorber shaft sleeve press-mounting machine structure according to claim 1, it is characterised in that：The cylinder（34）With Rack（35）Pass through floating junction（37）Connection.