CN111070154A

CN111070154A - Air pressure shock absorber assembly stand based on fine pitch installation buffering optimization

Info

Publication number: CN111070154A
Application number: CN202010030084.9A
Authority: CN
Inventors: 许春明
Original assignee: Individual
Current assignee: Dongfeng Special Parts Co ltd
Priority date: 2020-01-13
Filing date: 2020-01-13
Publication date: 2020-04-28
Anticipated expiration: 2040-01-13
Also published as: CN111070154B

Abstract

The invention discloses a pneumatic shock absorber assembly table based on fine pitch installation buffer optimization, which structurally comprises an assembly canopy table, an assembly platform and a lifting base, wherein the assembly canopy table is locked with the assembly platform, the assembly platform is installed and connected with the lifting base, an upper part installer and a bottom installer are matched for driving the pneumatic shock absorber to be installed, an upper shaft and a shaft cylinder are matched for driving a shaft converter to replace installation accessories, and a reference part and a heavy part are sequentially arranged, the complex parts, the precise parts and the difficult assembly parts are installed, the precise lock installer realizes the equal precise distance lifting and rotating of the parts of the shock absorber at intervals during the installation, the installation vertical plate plays the roles of buffering and pressure control, the stability of the equipment operation is further enhanced, the air pressure shock absorber has the best shock absorption effect during the use, the impact force and the pressure in the installation process can be reasonably controlled, and the damage and the rejection rate of the parts during the assembly are greatly reduced.

Description

Air pressure shock absorber assembly stand based on fine pitch installation buffering optimization

Technical Field

The invention relates to the field of pneumatic equipment, in particular to a pneumatic shock absorber assembly stand based on fine pitch installation and buffer optimization.

Background

The pneumatic shock-proof suspension system is a suspension system operated by gas, and is characterized in that the automobile has better operation stability, smoothness and safety; the shock absorber is mainly used for rear shock absorption, and has the advantages of complex structure, low noise, high sensitivity and good shock absorption effect; when the automobile base is assembled, the automobile base is laid on a platform and then is provided with the air pressure shock absorber, when the air pressure shock absorber is assembled in a precise mode, the installation sequence comprises a reference part, a heavy part, a complex part, a precise part and a difficult assembly part, and the installation process involves processes such as impact, pressure and the like.

The pneumatic shock absorber is generally installed at the required installation position of a vehicle in sequence during installation of the pneumatic shock absorber in the prior art, the parts of the shock absorber which are separated from each other cannot be installed at the same fine pitch due to the complex installation structure, the pneumatic shock absorber cannot present the best shock absorption effect when in use, and the processes of impact, pressure and the like in the installation process cause the parts to be damaged and scrapped to a certain extent, so that the installation cost is increased.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide an air pressure shock absorber assembly table based on fine pitch installation and buffer optimization, so as to solve the problems that the air pressure shock absorbers are generally and sequentially installed at the positions, required to be installed, of a vehicle when the air pressure shock absorbers are installed, the installation structure is complex, parts separated from the shock absorbers cannot be installed at the same fine pitch, the air pressure shock absorbers cannot present the best shock absorption effect when in use, and the parts are damaged and scrapped to a certain extent due to processes of impact, pressure and the like in the installation process, and the installation cost is increased.

The invention is realized by adopting the following technical scheme: an air pressure shock absorber assembly stand based on fine pitch installation and buffer optimization structurally comprises an assembly canopy stand, an assembly platform and a lifting base, the bottom of the assembling canopy is locked with an assembling platform, the bottom of the assembling platform is connected with a lifting base in an installing way, the assembly canopy platform consists of a lifting canopy rod, an upper part installer and an assembly canopy plate, the upper end of the lifting canopy rod is embedded with the assembly canopy plate, the upper mounting device is arranged on the assembling roof plate and the assembling roof plate form an integrated structure, the assembling platform consists of an assembling square plate, a bottom mounting device and an assembling flat plate, the assembling square plate is connected with the groove position track of the assembling flat plate, the bottom mounting device is arranged in the middle of the assembling flat plate and is distributed in a rectangular shape, the upper end of the lifting base is provided with a thickening telescopic rod, and the assembling platform and the lifting base are connected through the upper end and the lower end of the thickening telescopic rod in an installing mode.

Further preferably, the upper mounting device comprises an upper shaft device and an upper mounting frame, and the upper shaft device is connected with the middle of the upper mounting frame in a mounting manner.

Further preferably, the bottom mounting device comprises a bottom shaft column, a mounting splint and a fine lock mounting device, the upper end and the lower end of the bottom shaft column are connected with the mounting splint through shafts, and the fine lock mounting device is mounted at the right end of the mounting splint.

Preferably, the upper shaft device comprises an upper shaft, a shaft cylinder, a shaft converter and an embedding hook, the bottom end of the upper shaft is connected with the shaft cylinder, the upper shaft is connected with the inner ring side track of the shaft cylinder, the shaft cylinder is connected with the upper end of the shaft converter in an installing mode, the embedding hook is installed at the bottom of the upper installing frame, and the upper end of the shaft converter is connected with the embedding hook shaft.

Further preferably, the fine lock installer comprises a transmission clamping plate, an installation vertical plate, a scanning bottom plate and a telescopic vertical rod, the transmission clamping plate is connected with the upper end and the lower end of the installation vertical plate in an installing mode, the bottom of the installation vertical plate is welded with the scanning bottom plate, and the bottom of the telescopic vertical rod is embedded on the scanning bottom plate.

Further preferably, the shaft converter comprises a shaft spring, a thin rod, a thick rod and a bottom shaft converter, the shaft spring is wound on the thin rod and attached to the thin rod, the bottom of the thin rod is connected with the thick rod through a shaft, and the bottom of the thick rod is connected with the bottom shaft converter in an installing mode.

Preferably, the bottom shaft sleeve comprises a wide shaft collar, a middle shaft disc and a bottom shaft collar, wherein the inner ring side of the wide shaft collar is connected with the middle shaft disc in a shaft mode, and the middle shaft disc is buckled with the upper end of the bottom shaft collar.

Further preferably, the installation vertical plate comprises a vertical plate frame, a cushion body and a rotating shaft body, the inner ring side of the vertical plate frame is meshed with the rotating shaft body, and the inner ring side of the vertical plate frame is attached to the cushion body.

Advantageous effects

The invention places the wheel large piece on the assembly square plate at the assembly flat plate, the assembly platform turns, folds (the assembly plate can be turned and folded), lifts (the lifting of the lifting canopy rod is realized) according to the installation requirement, the thickened telescopic rod also lifts according to the installation requirement, the upper part installer and the bottom installer are matched to install the air pressure shock absorber, the upper part installation frame, the bottom shaft column and the installation splint are matched and fixed, the upper part shaft device and the fine lock installer sequentially comprise a reference piece, a heavy piece, a complex piece, a fine piece and a difficult assembly piece for installation, the descending of the upper shaft and the ascending of the shaft cylinder are matched to transmit the components in the shaft converter to replace the components in the shaft converter into the components which are installed in a targeted way, the embedding hook plays an auxiliary role of reinforcing or lifting and pushing the upper shaft, the shaft cylinder and the shaft converter, and the fine lock installer realizes the lifting and the rotation of the components which are separated, the scanning bottom plate realizes scanning detection, the transmission clamp plate rotates and clamps, and the vertical plate is arranged to realize buffer assistance; the shaft changer realizes the targeted installation of a reference part, a heavy part, a complex part, a precise part and a difficult assembly part, the thin rod and the thick rod drive the elastic expansion of a shaft spring in the installation process, namely, the thin rod, the thick rod move and expand and drive the transmission of bottom shaft exchange with the elastic expansion of the shaft spring, the bottom shaft exchange drives a wide shaft collar, a middle shaft disc and a bottom shaft collar to move and replace when in transmission, a proper shaft body is convenient to replace for accurate installation, the lifting movement and the elastic action during transmission also play roles of buffering and pressure control, an installation vertical plate also plays roles of buffering and pressure control, the stability of equipment operation and the accuracy during assembly are further enhanced, the rotating shaft body drives a cushion body to rotate during operation, and the cushion body rotates out of a cushion layer with proper thickness according to a rotating angle to perform auxiliary assembly.

Compared with the prior art, the invention has the beneficial effects that: the upper part installer and the bottom installer are matched for transmission to install the pneumatic shock absorber, the upper shaft and the shaft cylinder are matched for driving the shaft converter to replace installation accessories, and the reference part, the heavy part, the complex part, the precision part and the difficult assembly part are sequentially installed.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic structural diagram of a pneumatic shock absorber assembly table based on fine pitch mounting and buffer optimization.

Fig. 2 shows a schematic structural view of an upper mounter of the present invention.

Fig. 3 shows a schematic structural diagram of the bottom mounter of the present invention.

Fig. 4 shows a schematic diagram of the upper mounter drive extension of the present invention.

Fig. 5 shows a schematic diagram of the bottom mounter drive extension of the present invention.

Fig. 6 shows a schematic structural diagram of the fine lock installer of the present invention.

Fig. 7 shows a schematic view of the construction of the shaft converter of the present invention.

Fig. 8 shows a schematic view of the bottom shaft of the present invention.

Fig. 9 shows a schematic view of the structure of the mounting riser of the present invention.

In the figure: the assembly canopy comprises an assembly canopy table 1, an assembly platform 2, an elevating base 3, an elevating canopy rod 10, an upper mounting device 11, an assembly canopy plate 12, an assembly square plate 20, a bottom mounting device 21, an assembly flat plate 22, a thickening telescopic rod 30, an upper shaft device 110, an upper mounting frame 111, a bottom shaft column 210, a mounting clamping plate 211, a fine lock mounting device 212, an upper shaft 1100, a shaft cylinder 1101, a shaft converter 1102, a clamping hook 1103, a transmission clamping plate 2120, a mounting vertical plate 2121, a scanning bottom plate 2122, a telescopic vertical rod 2123, a shaft spring 500, a thin rod 501, a thick rod 502, a bottom shaft converter 503, a wide shaft collar 5030, a middle shaft disc 5031, a bottom shaft collar 5032, a vertical plate frame 600, a cushion body 601 and a rotating shaft body 602.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Embodiment 1 please refer to fig. 1-6, the present invention provides a technical solution of an assembly table of a pneumatic shock absorber based on fine pitch mounting buffer optimization: the structure of the device comprises an assembly canopy platform 1, an assembly platform 2 and a lifting base 3, wherein the assembly canopy platform 1 can be turned and folded according to installation requirements, the installation convenience and flexibility are improved, the assembly canopy platform 1 is locked with the assembly platform 2, the assembly platform 2 is connected with the lifting base 3 in an installation mode, the assembly canopy platform 1 is composed of a lifting canopy rod 10, an upper installing device 11 and an assembly canopy plate 12, the lifting canopy rod 10 is lifted, the flexibility and stability in the assembly process are improved, the lifting canopy rod 10 is embedded with the assembly canopy plate 12, the upper installing device 11 is installed on the assembly canopy plate 12, the assembly platform 2 is composed of an assembly square plate 20, a bottom installing device 21 and an assembly flat plate 22, the assembly square plate 20 is connected with the assembly flat plate 22 in a rail mode, the bottom installing device 21 is installed on the assembly flat plate 22, the lifting base 3 is provided with a thickening telescopic rod 30, the thickened telescopic rod 30 is lifted according to the mounting requirement, the flexibility and the stability during assembly are improved, the assembly platform 2 is connected with the lifting base 3 through the thickened telescopic rod 30, the upper mounting device 11 comprises an upper shaft device 110 and an upper mounting frame 111, the upper shaft device 110 is connected with the upper mounting frame 111, the bottom mounting device 21 comprises a bottom shaft column 210, a mounting splint 211 and a fine lock mounting device 212, the bottom shaft column 210 is connected with the mounting splint 211 through a shaft, the fine lock mounting device 212 is mounted on the mounting splint 211, the upper mounting frame 111 is matched and fixed with the bottom shaft column 210 and the mounting splint 211 to enable the upper shaft device 110 to be more stable during transmission, the upper shaft device 110 comprises an upper shaft 1100, a shaft cylinder 1101, a shaft converter 1102 and an embedding hook 1103, the embedding hook 1103 plays an auxiliary role of reinforcing or lifting and pushing the upper shaft 1100, the shaft cylinder 1101 and the shaft converter 1102, the upper shaft 1100 is connected with the shaft barrel 1101 in a shaft mode, the upper shaft 1100 is connected with the shaft barrel 1101 in an orbit mode, the shaft barrel 1101 is connected with the shaft changer 1102, the embedding hook 1103 is installed on the upper installation frame 111, the shaft changer 1102 is connected with the embedded hook 1103 through a shaft, the descending of the upper shaft 1100 and the ascending of the shaft barrel 1101 realize the matching transmission to replace the components in the shaft changer 1102 with the components which are installed pertinently, realize the high-precision assembly of the vibration damper, the fine lock mounting device 212 comprises a transmission splint 2120, a mounting vertical plate 2121, a scanning bottom plate 2122 and a telescopic vertical rod 2123, the transmission splint 2120 is connected with a mounting vertical plate 2121 in an installing way, the mounting vertical plate 2121 is welded with a scanning bottom plate 2122, the telescopic vertical rod 2123 is embedded on the scanning bottom plate 2122, the scanning bottom plate 2122 realizes scanning detection, the transmission splint 2120 rotates and clamps, the installation vertical plate 2121 realizes buffering assistance, and the lifting and the rotation of the parts of the fine lock installer 212 separated from the shock absorber at the same fine distance during installation are realized.

The large wheel piece is placed on an assembly square plate 20 at an assembly flat plate 22, an assembly canopy platform 1 is turned, folded and lifted (an assembly canopy plate 12 can be turned and folded) according to the installation requirement (the lifting canopy rod 10 is lifted and lowered), a thickening telescopic rod 30 is lifted and lowered according to the installation requirement, an upper mounting device 11 is matched with a bottom mounting device 21 to mount an air pressure damper, an upper mounting frame 111 is matched with a bottom shaft column 210 and a mounting splint 211 to be fixed through an upper shaft device 110 and a fine lock mounting device 212 to sequentially mount a reference piece, a heavy piece, a complex piece, a fine piece and a difficult mounting piece, the parts in a shaft converter 1102 are replaced by the descending of an upper shaft 1100 and the ascending matching transmission of a shaft cylinder 1101 to be the parts which are installed in a targeted manner, an embedding hook 1103 plays an auxiliary role in reinforcing or lifting and pushing the upper shaft 1100, the shaft cylinder 1101 and the shaft converter 1102, and the fine lock mounting device 212 realizes the lifting and rotating of the parts of the vibration dampers, scanning bottom plate 2122 realizes scanning and detecting, and transmission splint 2120 rotates and presss from both sides and gets, and installation riser 2121 realizes that the buffering is supplementary.

Embodiment 2 please refer to fig. 7-9, the present invention provides a technical solution of an assembly table of a pneumatic shock absorber based on fine pitch mounting buffer optimization: the structure of the shaft changer 1102 comprises a shaft spring 500, a thin rod 501, a thick rod 502 and a bottom shaft changer 503, wherein the shaft spring 500 surrounds the thin rod 501, the thin rod 501 is connected with the thick rod 502 through a shaft, the thick rod 502 is connected with the bottom shaft changer 503 in an installing mode, the thin rod 501 and the thick rod 502 drive the shaft spring 500 to elastically stretch and contract in the installing process, namely, the moving and stretching of the thin rod 501 and the thick rod 502 and the driving of the elastic stretching of the shaft spring 500 to drive the bottom shaft changer 503 are realized, the driving is flexible, the shaft changer 1102 is realized by installing a reference part, a heavy part, a complex part, a precise part and a difficult assembly part in a targeted mode, the installing precision is high, the bottom shaft changer 503 comprises a wide shaft collar 5030, a middle shaft disc 5031 and a bottom shaft ring 5032, the wide shaft collar 5030 is connected with the middle shaft disc 5031 through a shaft, the middle shaft disc 5031 is buckled with the bottom shaft ring 5032, the wide shaft collar 5030 is connected with the middle shaft disc 5031 and the bottom shaft ring, both replaced suitable axis body and carried out accurate installation, the lift during transmission removes and also has played buffering and pressure control's effect with the elastic action, installation riser 2121 includes riser frame 600, fills up body 601, pivot body 602, riser frame 600 meshes with pivot body 602, riser frame 600 laminates with filling up body 601, installation riser 2121 has played buffering and pressure control's effect equally, has further strengthened the stability of equipment operation and the accurate nature when assembling.

The shaft converter 1102 enables targeted installation of datum, heavy, complex, precision and difficult assembly parts, the thin rod 501 and the thick rod 502 drive the shaft spring 500 to elastically expand and contract during the installation process, the bottom shaft switch 503 is driven by the movable extension of the thin rod 501 and the thick rod 502 and the elastic extension of the shaft spring 500, the wide shaft ring 5030, the middle shaft disc 5031 and the bottom shaft ring 5032 are driven to move up and down for replacement during transmission of the bottom shaft switch 503, so that a proper shaft body can be conveniently replaced for accurate installation, the lifting movement and the elastic action during transmission also play roles in buffering and pressure control, the installation vertical plate 2121 also plays roles in buffering and pressure control, the stability of equipment operation and the accuracy during assembly are further enhanced, the rotating shaft body 602 drives the cushion body 601 to rotate during operation, and the cushion body 601 rotates to form a cushion layer with proper thickness according to a rotating angle for auxiliary assembly.

Compared with the prior art, the invention has the technical progress that: the upper part mounting device 11 and the bottom mounting device 21 are matched for transmission to mount the pneumatic shock absorber, the upper shaft 1100 and the shaft barrel 1101 are matched for driving the shaft converter 1102 to replace mounting accessories, and a reference part, a heavy part, a complex part, a precise part and a difficult assembly part are sequentially mounted, the precise lock mounting device 212 realizes the equal precise distance lifting and rotating of parts separated by the shock absorber during mounting, the mounting vertical plate 2121 plays the roles of buffering and pressure control, the running stability of the equipment is further enhanced, the pneumatic shock absorber presents the best shock absorption effect during use, the impact force and the pressure in the mounting process can be reasonably controlled, and the damage and the rejection rate of the parts during mounting are greatly reduced.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a pneumatic shock absorber mount table based on fine pitch installation buffering is optimized, its structure includes assembly fluffy platform (1), assembly platform (2), lift base (3), assembly fluffy platform (1) and assembly platform (2) locking, assembly platform (2) and lift base (3) erection joint, its characterized in that:

the assembly roof platform (1) consists of a lifting roof rod (10), an upper mounting device (11) and an assembly roof plate (12), wherein the lifting roof rod (10) is embedded with the assembly roof plate (12), and the upper mounting device (11) is mounted on the assembly roof plate (12);

the assembling platform (2) is composed of an assembling square plate (20), a bottom installing device (21) and an assembling flat plate (22), the assembling square plate (20) is in rail connection with the assembling flat plate (22), the bottom installing device (21) is installed on the assembling flat plate (22), the lifting base (3) is provided with a thickening telescopic rod (30), and the assembling platform (2) is in installation connection with the lifting base (3) through the thickening telescopic rod (30).

2. The fine pitch mount damping optimization-based pneumatic shock absorber assembly station of claim 1, wherein: the upper mounting device (11) comprises an upper shaft device (110) and an upper mounting frame (111), wherein the upper shaft device (110) is connected with the upper mounting frame (111) in a mounting mode.

3. The fine pitch mount damping optimization-based pneumatic shock absorber assembly station of claim 1, wherein: the bottom mounting device (21) comprises a bottom shaft column (210), a mounting splint (211) and a fine lock mounting device (212), the bottom shaft column (210) is connected with the mounting splint (211) through a shaft, and the fine lock mounting device (212) is mounted on the mounting splint (211).

4. The fine pitch mount damping optimization-based pneumatic shock absorber assembly station of claim 2, wherein: the upper shaft device (110) comprises an upper shaft (1100), a shaft cylinder (1101), a shaft converter (1102) and an embedded hook (1103), wherein the upper shaft (1100) is connected with the shaft cylinder (1101) in a shaft mode, the upper shaft (1100) is connected with the shaft cylinder (1101) in a track mode, the shaft cylinder (1101) is connected with the shaft converter (1102) in an installation mode, the embedded hook (1103) is installed on an upper installation frame (111), and the shaft converter (1102) is connected with the embedded hook (1103) in a shaft mode.

5. A fine pitch mount damping optimization based pneumatic shock absorber assembly station as set forth in claim 3 wherein: the fine lock installer (212) comprises a transmission splint (2120), an installation vertical plate (2121), a scanning bottom plate (2122) and a telescopic vertical rod (2123), the transmission splint (2120) is installed and connected with the installation vertical plate (2121), the installation vertical plate (2121) is welded with the scanning bottom plate (2122), and the telescopic vertical rod (2123) is embedded on the scanning bottom plate (2122).

6. The fine pitch mount damping optimization-based pneumatic shock absorber assembly station of claim 4, wherein: the shaft converter (1102) comprises a shaft spring (500), a thin rod (501), a thick rod (502) and a bottom shaft converter (503), wherein the shaft spring (500) surrounds the thin rod (501), the thin rod (501) is connected with the thick rod (502) through a shaft, and the thick rod (502) is connected with the bottom shaft converter (503) in an installing mode.

7. The fine pitch mount damping optimization-based pneumatic shock absorber assembly station of claim 6, wherein: the bottom shaft switch (503) comprises a wide shaft ring (5030), a middle shaft disc (5031) and a bottom shaft ring (5032), wherein the wide shaft ring (5030) is connected with the middle shaft disc (5031) through a shaft, and the middle shaft disc (5031) is buckled with the bottom shaft ring (5032).

8. The fine pitch mount damping optimization-based pneumatic shock absorber assembly station of claim 5, wherein: the installation vertical plate (2121) comprises a vertical plate frame (600), a pad body (601) and a rotating shaft body (602), wherein the vertical plate frame (600) is meshed with the rotating shaft body (602), and the vertical plate frame (600) is attached to the pad body (601).