CN116638474B - Gear box assembly quality of subsidiary upset function of accurate installation - Google Patents

Abstract

The invention relates to the technical field of gear box assembly and discloses a gear box assembly device with an overturning function, which comprises an assembly table, wherein two groups of electric telescopic rods are arranged on the table top of the assembly table, clamping plates are arranged on the electric telescopic rods, transmission plates are arranged on stand columns, a hydraulic lifter is arranged at the top of the assembly table, a driving motor is arranged on the hydraulic lifter, a clamping plate is arranged on an output shaft of the driving motor, when a worker assembles the gear box to be assembled, the clamping plate is interlocked with the transmission plates by starting the hydraulic lifter, and meanwhile, the turntable can rotate under the drive of the driving motor by the interlocking of the clamping plate and the transmission plates by operating the driving motor, so that radial overturning of the gear box by a payroll is facilitated, and the safety and overturning efficiency in the gear box assembly process can be improved.

Description

Gear box assembly quality of subsidiary upset function of accurate installation

Technical Field

The invention relates to the technical field of gear box assembly, in particular to a gear box assembly device with a precise installation and turning function.

Background

In order to further respond to the call of the national development of the marine economy industry, our company is currently faced with the main task of: the traditional product is transformed and upgraded, the force is enhanced to independently innovate the ability, and the advanced shipbuilding ability is developed; deep propulsion shipbuilding mode changes, so that development of ship matching industry is practically accelerated; organizing and excavating the existing technological strength and resources, and mainly building a double-reduction-ratio marine gearbox research and development platform, so that the technological level in the key field is improved, and the requirements of rapid development of shipbuilding are met; the independent innovation capability of the power cultivation guides enterprises to increase the strength of technological innovation, and the technological upgrading is used for promoting the adjustment of industrial structures so as to improve the further development of the marine economic industry.

In the prior art, the mode of overturning the gear box is that the driving is matched with the main hook and the auxiliary hook to overturn, and when the overturning is performed, the lifting and descending of the main hook and the auxiliary hook are matched with each other in a cooperative manner, when the overturning mode is used for overturning the gear box with larger power, the overturning is slower, the requirement on operators is higher, the danger is easily caused due to improper operation, and the safety and the overturning efficiency cannot be ensured.

Disclosure of Invention

The invention aims to provide a gear box assembling device with a turning function, which is used for precisely installing a gear box assembling device with a turning function, so as to solve the problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a gear box assembly quality of attached upset function of accurate installation, this gear box assembly quality of attached upset function of accurate installation includes the assembly bench, set up the commentaries on classics hole on the mesa of assembly bench, install the pivot through the bearing in the commentaries on classics hole, install the carousel in the pivot, two sets of stands are installed to the bilateral symmetry of carousel, two sets of all symmetry install two sets of electric telescopic handle on the stand, install the clamping plate on the electric telescopic handle, install the drive plate on the stand, hydraulic lifter is installed at the top of assembly bench, install driving motor on the hydraulic lifter, install the cardboard on driving motor's the output shaft, when the staff will wait to assemble gear box work piece and place on the carousel and assemble, through starting the electric telescopic handle on the stand of both sides, make electric telescopic handle can drive the clamping plate and press from both sides tightly fixedly to the gear box of taking the assembly, and start hydraulic lifter again, let hydraulic lifter drive cardboard and drive plate interlock on the driving motor, simultaneously, through operation driving motor for can carry out rotation under the gear box of driving motor, thereby can radial improvement in the radial turnover efficiency of the gear box, can be favorable to radial to the improvement in the assembly process.

As the preferable technical scheme, be provided with vertical upset subassembly and vertical upset auxiliary assembly on the assembly bench, utilize the displacement of hydraulic lifter drive cardboard can provide the operation drive power for vertical upset subassembly and vertical upset auxiliary assembly, and the operation of vertical upset auxiliary assembly can be for vertical upset subassembly preparation vertical upset condition.

As a preferable technical scheme, the longitudinal overturning assembly comprises a first telescopic rod, a first supporting spring, a first connecting column, a through hole, a rotating column, a driving disk, a second connecting column, a traction plate and a driven disk;

the two sets of equal fixed mounting in top of stand has first telescopic link, two the top of first telescopic link is connected through the drive plate, the drive plate is connected through first supporting spring with the top of stand, first spliced pole is installed through the bilateral symmetry of drive plate, two sets of all offer the through-hole on the stand, install the steering column through the bearing in the through-hole, two install the driving disc on the looks back of steering column, and two install the driven disc on the opposite face of steering column, two sets of electric telescopic links are installed to the symmetry on the driven disc, eccentric mounting has the second spliced pole on the terminal surface of driving disc, first spliced pole and second spliced pole are connected through the traction plate, when the staff need carry out vertical upset to the gear box, through continuing to operate hydraulic lifter, let hydraulic lifter pass through cardboard drive the first telescopic link of drive plate compression and first supporting spring and move down, the drive plate can drive the driven disc through first telescopic link, traction plate and second spliced pole on the looks back face of steering column, and can drive the driven disc through the rotation of drive disc on the opposite side face of steering column, can carry out the rotation with the fixed gear box along with the realization of the vertical demand of the rotation of the driven disc in the realization of the vertical direction of rotation, can carry out the rotation of the gear box along with the fixed gear box, can realize the real-time adjustment along with the vertical demand of moving the driven disc.

As the preferable technical scheme, the perforation has all been seted up at the both ends of traction plate, first spliced pole and second spliced pole run through the perforation respectively, and for normal running fit, utilize the longitudinal movement of first spliced pole, can drive the second spliced pole through the traction plate and carry out circumference orbit and remove.

As a preferable technical scheme, the longitudinal overturning auxiliary assembly comprises a cavity, a fixed column, a moving plate, a second supporting spring, a linkage column, a sliding hole, a groove, a second telescopic rod, a carrying plate and a moving hole;

the assembly bench is internally provided with a cavity, fixed columns are fixedly arranged in the cavity, movable plates are installed on the fixed columns, movable holes are formed in the movable plates, the fixed columns penetrate through the movable holes and are in sliding fit, the bottoms of the movable plates are connected with the bottoms of the cavities through second supporting springs, linkage columns are installed on the movable plates, sliding holes are formed in the tops of the cavities, the linkage columns penetrate through the sliding holes and are in sliding fit, linkage annular plates are installed at the upper ends of the linkage columns, grooves are formed in the turntables, a plurality of second telescopic rods are installed in the grooves, carrier plates are installed on the second telescopic rods, the carrier plates are connected with the linkage annular plates through transmission rods, when a gear box to be assembled is placed on the carrier plates by workers, the carrier plates can be supported through elastic bearing action of the second supporting springs, and are synchronously displaced in the moving process by pressing rods in the moving process, the corresponding linkage annular plates are prevented from being extruded by the corresponding pressing rods, and the corresponding annular plates are prevented from being compressed by the aid of the corresponding elastic bearings, and the corresponding carrier plates are prevented from being compressed by the aid of the second supporting springs, and the carrier plates are prevented from being compressed in the process of moving the corresponding annular plates.

As the preferred technical scheme, the linkage annular plate is annular structure, and is equipped with the slide on the ring inner wall of linkage annular plate, install the slider on the transfer line, the slider slip fit is in the slide, and when the carousel rotated, the carousel can drive the year thing board through the second telescopic link and carry out synchronous rotation to, carry the thing board in rotatory in-process, because the slider can slide in the slide, can avoid carrying the rotation of thing board to cause the negative effect to the linkage annular plate.

As preferred technical scheme, vertical upset auxiliary assembly still includes presses the depression bar, install on the first spliced pole and press the depression bar, the bottom of pressing the depression bar is equipped with the ball groove, roll the gomphosis in the ball groove and have the spheroid, the spheroid is the point contact with the linkage annular plate, can concentrate the extrusion effort of pressing the depression bar through the spheroid, is favorable to improving the depression bar and to the pressing effect of linkage annular plate to, and can also reduce frictional force along with the transmission board synchronous rotation's in-process at the depression bar through the spheroid, avoid pressing the depression bar and take place violent wearing and tearing with the linkage annular plate.

As a preferable technical scheme, when the transmission plate moves to the lowest point, the second connecting column moves to the lowest point of the circumferential track, and the carrying plate moves into the groove.

Compared with the prior art, the invention has the following beneficial effects:

when the work piece of the gear box to be assembled is placed on the rotary table by the staff to be assembled, after clamping and fixing, the clamping plate is interlocked with the transmission plate by starting the hydraulic lifter, meanwhile, the driving motor is operated, and the rotary table can rotate under the driving of the driving motor through the interlocking of the clamping plate and the transmission plate, so that radial overturning of the gear box by wagons is facilitated, and safety and overturning efficiency in the gear box assembling process can be improved.

When the staff needs to carry out vertical upset to the gear box, through continuing to operate hydraulic lifter, make the driving medium that the drive plate is constituteed through first spliced pole, traction plate and second spliced pole drive the driving disk and rotate to let the driven disk drive the vertical upset of gear box, the staff of being convenient for adjusts according to the assembly demand.

When the transmission plate moves downwards, the transmission plate drives the pressing rod to extrude the linkage annular plate to move downwards, at the moment, the linkage annular plate can drive the carrying plate to be separated from the bottom of the gear box through the transmission rod in the downward moving process, and the carrying plate is prevented from being blocked in the process of longitudinally overturning the gear box.

Radial upset and vertical upset in this application can go on simultaneously, can effectually improve the assembly efficiency to the gear box.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic general construction of the present invention;

FIG. 2 is a schematic view of the construction of the assembly apparatus of the present invention;

FIG. 3 is a schematic view of a first cut-away configuration of the present invention;

FIG. 4 is a second cut-away schematic view of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A of FIG. 2;

FIG. 6 is an enlarged schematic view of the structure at B of FIG. 3;

fig. 7 is an enlarged schematic view of the structure at C of fig. 4.

In the figure: 1. an assembly table; 2. a turning hole; 3. a rotating shaft; 4. a turntable; 5. a column; 6. an electric telescopic rod; 7. a clamping plate; 8. a drive plate; 9. a hydraulic lifter; 10. a driving motor; 11. a clamping plate;

a longitudinal overturning assembly; 1201. a first telescopic rod; 1202. a first support spring; 1203. a first connection post; 1204. a through hole; 1205. a rotating column; 1206. a drive plate; 1207. a second connection post; 1208. a traction plate; 1209. perforating; 1210. a driven plate;

13. a longitudinal inversion auxiliary assembly; 1301. a chamber; 1302. fixing the column; 1303. a moving plate; 1304. a second support spring; 1305. a linkage column; 1306. a slide hole; 1307. a groove; 1308. a second telescopic rod; 1309. a carrying plate; 1310. a transmission rod; 1311. a slide block; 1312. a linkage annular plate; 1313. a slideway; 1314. pressing a pressing rod; 1315. a ball groove; 1316. a sphere; 1317. the hole is moved.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1 to 4, the present invention provides the following technical solutions: the utility model provides a gear box assembly quality of attached upset function of accurate installation, this gear box assembly quality of attached upset function of accurate installation includes assembly bench 1, set up on the mesa of assembly bench 1 and changeed hole 2, it installs pivot 3 to change downthehole through the bearing, install carousel 4 on the pivot 3, two sets of stands 5 are installed to the bilateral symmetry of carousel 4, two sets of all symmetry install two sets of electric telescopic handle 6 on the stand 5, install clamping plate 7 on the electric telescopic handle 6, install drive plate 8 on the stand 5, hydraulic lifter 9 is installed at the top of assembly bench 1, install driving motor 10 on the hydraulic lifter 9, install cardboard 11 on driving motor 10's the output shaft, when the staff will wait to assemble the gear box work piece and place on carousel 4 and assemble, through starting electric telescopic handle 6 on the both sides stand 5, make electric telescopic handle 6 can drive clamping plate 7 and press from both sides tightly fixedly to the gear box of taking the assembly, again start hydraulic lifter 9 lets hydraulic lifter 9 drive cardboard 11 on driving motor 10 and drive plate 8 and can carry out the interlock with radial transmission plate 10 through driving motor 10, can carry out the interlock with the radial transmission efficiency through driving motor 10, can carry out the interlock with the radial in the radial direction of rotation of the gear box 4 in the process.

The assembly table 1 is provided with a longitudinal overturning assembly 12 and a longitudinal overturning auxiliary assembly 13, the hydraulic lifter 9 is utilized to drive the clamping plate 11 to move so as to provide operation driving force for the longitudinal overturning assembly 12 and the longitudinal overturning auxiliary assembly 13, and the operation of the longitudinal overturning auxiliary assembly 13 can prepare a longitudinal overturning condition for the longitudinal overturning assembly 12.

As shown in fig. 1-6, the longitudinal turnover assembly 12 includes a first telescoping rod 1201, a first support spring 1202, a first connection post 1203, a through hole 1204, a rotation post 1205, a drive plate 1206, a second connection post 1207, a traction plate 1208, and a driven plate 1210;

the two sets of equal fixed mounting in top of stand 5 has first telescopic link 1201, and two the top of first telescopic link 1201 is connected through drive plate 8, drive plate 8 is connected through first supporting spring 1202 with the top of stand 5, first spliced pole 1203 is installed to drive plate 8's bilateral symmetry, and two sets of all offer through-hole 1204 on the stand 5, install the steering column 1205 through the bearing in the through-hole 1204, two install driving disk 1206 on the looks back of steering column 1205, and two install driven disk 1210 on the opposite face of steering column 1205, install two sets of electric telescopic link 6 on the driven disk 1210, second spliced pole 1207 is installed to the off-centre on the terminal surface of driving disk 1206, first spliced pole 1203 and second spliced pole 1207 are connected through the traction plate 1208, when the staff need carry out the vertical upset to the gear box, through continuing to operate hydraulic lifter 9, let hydraulic lifter 9 drive plate 8 compress first telescopic link 1202 and first supporting spring 1205 through cardboard 11 down install driving disk 1206 on the opposite face of steering column 1205, and can make the vertical direction change through the drive plate 1205 and can be realized through the drive plate 1206 and the vertical direction change the axial direction change of drive plate 1206 through the drive plate 1206, can make the vertical direction change in the drive plate 1206 and can be realized through the drive plate 1206 and the vertical direction change in the speed change of the drive plate 1206 through the drive plate 1206, can realize the vertical direction change in the drive plate 1206 and the drive plate 1206 through the drive plate is fixed connection face of the gear box is easy to be the speed change, and the speed change plate is easy to realize the vertical direction change, and the speed change is easy to change, and can realize the speed change through the speed change and can be through the speed change and change.

Perforations 1209 are formed at both ends of the traction plate 1208, the first connecting post 1203 and the second connecting post 1207 respectively penetrate through the perforations 1209, and are in running fit, and the second connecting post 1207 can be driven to perform circumferential track movement by using the longitudinal movement of the first connecting post 1203.

As shown in fig. 1-4 and fig. 6-7, the longitudinal overturn auxiliary assembly 13 comprises a chamber 1301, a fixed column 1302, a moving plate 1303, a second supporting spring 1304, a linkage column 1305, a sliding hole 1306, a groove 1307, a second telescopic rod 1308, a carrying plate 1309 and a moving hole 1317;

the assembly bench 1 is internally provided with a cavity 1301, fixed column 1302 is fixedly installed in cavity 1301, movable plate 1303 is installed on fixed column 1302, movable hole 1317 is formed in movable plate 1303, fixed column 1302 penetrates through movable hole 1317 and is in sliding fit, the bottom of movable plate 1303 is connected with the bottom of cavity 1301 through second supporting springs 1304, linkage column 1305 is installed on movable plate 1303, sliding hole 1306 is formed in the top of cavity 1301, linkage column 1305 penetrates through sliding hole 1306 and is in sliding fit, linkage annular plate 1312 is installed at the upper end of linkage column 1305, groove 1307 is formed in rotary table 4, a plurality of second telescopic links 1308 are installed in groove 1307, carrier plate 1309 is installed on second telescopic links 1308, carrier plate 1309 is connected with linkage annular plate 1312 through driving rod 1310, when a gear box to be assembled is placed on carrier plate 1309 by a worker, through the elastic bearing action of second supporting springs, can prevent the corresponding gear box 1304 from being pushed by driving annular plate 1305 to move along with driving rod 1312 through the driving rod 1312, and can prevent the corresponding gear box 1309 from being pushed by the driving rod 1312 in the process of moving annular plate 1305, and can be pushed by the corresponding driving rod 1312 through the driving rod 1312, and can be pushed by the corresponding driving rod 1312 in the process of moving annular plate 1312, and can be prevented from being pushed by the corresponding driving rod 1312 through the driving rod 1312 to move along with the driving rod 1312.

The linkage annular plate 1312 is annular structure, and is equipped with slide 1313 on the ring inner wall of linkage annular plate 1312, install slider 1311 on the transfer line 1310, slider 1311 slip fit is in slide 1313, and carousel 4 can drive the year thing board 1309 through the second telescopic link 1308 and carry out synchronous rotation when carousel 4 rotates to, carry thing board 1309 in rotatory in-process, because slider 1311 can slide in slide 1313, can avoid carrying the rotation of thing board 1309 to cause negative impact to linkage annular plate 1312.

The vertical upset auxiliary assembly 13 still includes the pressure pole 1314, install the pressure pole 1314 on the first spliced pole 1203, the bottom of pressure pole 1314 is equipped with ball groove 1315, roll the gomphosis in the ball groove 1315 and have spheroid 1316, spheroid 1316 is the point contact with the linkage annular plate 1312, can concentrate the extrusion effort of pressure pole 1314 through spheroid 1316, is favorable to improving the pressure effect of pressure pole 1314 to linkage annular plate 1312 to, and can also reduce frictional force along with transmission plate 8 synchronous rotation's in-process at pressure pole 1314 through spheroid 1316, avoid pressure pole 1314 and linkage annular plate 1312 to take place the intense wearing and tearing.

When the driving plate 8 moves to the lowest point, the second connecting column 1207 moves to the lowest point of the circumferential track, and the carrier plate 1309 moves into the groove 1307.

The working principle of the invention is as follows:

when the work piece of the gear box to be assembled is placed on the rotary table 4 for assembly by a worker, the electric telescopic rods 6 on the upright posts 5 at the two sides are started, so that the electric telescopic rods 6 can drive the clamping plates 7 to clamp and fix the gear box with the assembly, the hydraulic lifter 9 is restarted, the hydraulic lifter 9 drives the clamping plates 11 on the driving motor 10 to be interlocked with the transmission plate 8, meanwhile, the driving motor 10 is operated, the rotary table 4 can be rotated under the driving of the driving motor 10 through the interlocking of the clamping plates 11 and the transmission plate 8, and radial overturning of the gear box by payroll staff is facilitated, and the safety and overturning efficiency in the gear box assembly process can be improved.

When the staff needs to turn over the gear box longitudinally, through continuing to operate the hydraulic lifter 9, let the hydraulic lifter 9 drive the drive plate 8 through the cardboard 11 and compress first telescopic link 1201 and first supporting spring 1202 and move down, the drive plate 8 can drive the driving disk 1206 through the driving piece that first spliced pole 1203, pulling plate 1208 and second spliced pole 1207 are constituteed in the removal process and rotate, make the driving disk 1206 can drive driven disk 1210 through the rotating column 1205 and rotate in step in the rotation process, let driven disk 1210 can be fixed through the clamp of electric telescopic link 6 and clamping plate 7 to the gear box in the rotation process, realize the vertical upset of gear box, and in the course that drive plate 8 carries out a complete vertical reciprocating motion, along with the removal of drive plate 8 can the vertical upset angle of real-time control gear box, the staff of being convenient for adjusts according to the assembly demand.

When a worker places a gear box to be assembled on the carrying plate 1309, the elastic bearing action of the second supporting spring 1304 can play a supporting role on the carrying plate 1309, when the transmission plate 8 moves downwards, the transmission plate 8 drives the pressing rod 1314 to synchronously displace in the moving process, so that the pressing rod 1314 correspondingly presses the linkage ring plate 1312 to enable the linkage ring plate 1312 to move downwards, at this time, the linkage column 1305 drives the moving plate 1303 on the fixed column 1302 to compress the second supporting spring 1304 through the linkage column 1305, so that the linkage ring plate 1312 can drive the carrying plate 1309 to be separated from the bottom of the gear box through the transmission rod 1310 in the moving process, and the blocking of the carrying plate 1309 in the process of longitudinally overturning the gear box is avoided.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. The utility model provides a gear box assembly quality of accurate installation subsidiary upset function which characterized in that: the gear box assembly device with the turning function comprises an assembly table (1), a rotating hole (2) is formed in a table top of the assembly table (1), a rotating shaft (3) is arranged in the rotating hole (2) through a bearing, a rotating disc (4) is arranged on the rotating shaft (3), two groups of stand columns (5) are symmetrically arranged on two sides of the rotating disc (4), two groups of electric telescopic rods (6) are symmetrically arranged on the stand columns (5), a clamping plate (7) is arranged on the electric telescopic rods (6), a transmission plate (8) is arranged on the stand columns (5), a hydraulic lifter (9) is arranged at the top of the assembly table (1), a driving motor (10) is arranged on the hydraulic lifter (9), and a clamping plate (11) is arranged on an output shaft of the driving motor (10);

the assembly table (1) is provided with a longitudinal overturning assembly (12) and a longitudinal overturning auxiliary assembly (13), the hydraulic lifter (9) is utilized to drive the clamping plate (11) to displace, so that operation driving force can be provided for the longitudinal overturning assembly (12) and the longitudinal overturning auxiliary assembly (13), and the operation of the longitudinal overturning auxiliary assembly (13) can prepare a longitudinal overturning condition for the longitudinal overturning assembly (12);

the longitudinal overturning assembly (12) comprises a first telescopic rod (1201), a first supporting spring (1202), a first connecting column (1203), a through hole (1204), a rotating column (1205), a driving disc (1206), a second connecting column (1207), a traction plate (1208) and a driven disc (1210);

the two groups of the upright posts (5) are fixedly provided with first telescopic rods (1201) at the tops, the tops of the two first telescopic rods (1201) are connected through a transmission plate (8), the transmission plate (8) is connected with the tops of the upright posts (5) through first supporting springs (1202), first connecting columns (1203) are symmetrically arranged at two sides of the transmission plate (8), through holes (1204) are formed in the two groups of upright posts (5), rotary columns (1205) are arranged in the through holes (1204) through bearings, driving discs (1206) are arranged on the opposite surfaces of the two rotary columns (1205), driven discs (1210) are arranged on the opposite surfaces of the two rotary columns (1205), second connecting columns (1207) are eccentrically arranged on the end faces of the driving discs (1206), and the first connecting columns (1203) and the second connecting columns (1207) are connected through traction plates (1208);

the two ends of the traction plate (1208) are provided with through holes (1209), the first connecting column (1203) and the second connecting column (1207) respectively penetrate through the through holes (1209), and the first connecting column (1203) is in running fit, and the second connecting column (1207) can be driven to move along a circumferential track through the traction plate (1208) by utilizing the longitudinal movement of the first connecting column (1203);

the longitudinal overturning auxiliary assembly (13) comprises a cavity (1301), a fixed column (1302), a moving plate (1303), a second supporting spring (1304), a linkage column (1305), a sliding hole (1306), a groove (1307), a second telescopic rod (1308), a carrying plate (1309) and a moving hole (1317);

be equipped with cavity (1301) in assembly bench (1), fixed mounting has fixed column (1302) in cavity (1301), install movable plate (1303) on fixed column (1302), set up movable hole (1317) on movable plate (1303), fixed column (1302) run through movable hole (1317), and be sliding fit, the bottom of movable plate (1303) is connected through second supporting spring (1304) with the bottom of cavity (1301), install on movable plate (1303) and link up post (1305), slide hole (1306) have been seted up at the top of cavity (1301), link up post (1305) run through slide hole (1306), and be sliding fit, link up annular plate (1312) are installed to the upper end of link up post (1305), be equipped with recess (1307) on carousel (4), install a plurality of second telescopic links (1308) in recess (1307), install on second telescopic links up and carry thing board (1309), carry thing board (1310) and link up with annular plate (1312) through link up with drive rod (1309).

2. The precision mounting flip-attached gearbox assembly device of claim 1, wherein: the linkage annular plate (1312) is of an annular structure, a slide way (1313) is arranged on the annular inner wall of the linkage annular plate (1312), a sliding block (1311) is arranged on the transmission rod (1310), and the sliding block (1311) is in sliding fit in the slide way (1313).

3. The precision mounting flip-attached gearbox assembly device of claim 1, wherein: the longitudinal overturning auxiliary assembly (13) further comprises a pressing rod (1314), the pressing rod (1314) is mounted on the first connecting column (1203), a ball groove (1315) is formed in the bottom of the pressing rod (1314), a ball body (1316) is embedded in the ball groove (1315) in a rolling mode, and the ball body (1316) is in point contact with the linkage annular plate (1312).

4. The precision mounting flip-attached gearbox assembly device of claim 1, wherein: when the transmission plate (8) moves to the lowest point, the second connecting column (1207) moves to the lowest point of the circumferential track, and the carrying plate (1309) moves into the groove (1307).