CN113649477A - Stainless steel container forming die that synchronous formula reloaded fast - Google Patents

Abstract

A synchronous stainless steel container forming die capable of being replaced quickly belongs to the technical field of stainless steel container stamping dies. Go up mould (6) and install on last swivel mount (5), go up mould (6) and be provided with a plurality of around the pivot interval of last swivel mount (5), lower mould (9) are installed under on swivel mount (10), lower mould (9) are provided with a plurality of around the pivot interval of lower swivel mount (10), drive mechanism links to each other with last swivel mount (5) and lower swivel mount (10) simultaneously, makes last swivel mount (5) and lower swivel mount (10) synchronous rotation. The upper rotating frame and the lower rotating frame synchronously rotate to ensure that the paired upper die and lower die are opposite to each other so as to realize bulging of the stainless steel round tube, and only the upper rotating frame or the lower rotating frame needs to rotate when the die is replaced, so that the die is convenient and rapid to replace, and the bulging of the stainless steel round tube is facilitated.

Description

Stainless steel container forming die that synchronous formula reloaded fast

Technical Field

A synchronous stainless steel container forming die capable of being replaced quickly belongs to the technical field of stainless steel container stamping dies.

Background

In the production process of the stainless steel vacuum water cup, the cut stainless steel round tube needs to be expanded to reach the required size and shape, the expansion of the stainless steel round tube is usually carried out in a stamping mode, and the expansion of the stainless steel round tube is realized through the matching of an upper die and a lower die. Because the types of the vacuum cups are numerous, the vacuum cups of different types need to realize bulging through different dies, when a hydraulic press is used for stamping, the dies need to be frequently replaced to meet the bulging of stainless steel pipes of different types, the bulging of the stainless steel pipes is influenced, and the dies need to be stopped and replaced, so the bulging speed of the stainless steel round pipes is influenced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the defects of the prior art are overcome, and the stainless steel container forming die capable of replacing the die quickly and conveniently and replacing the upper die and the lower die synchronously and quickly is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: this stainless steel container forming die that synchronous formula reloaded fast, its characterized in that: including last revolving rack, lower revolving rack, drive mechanism, last mould and lower mould, go up the mould and install on last revolving rack, go up the mould and be provided with a plurality of around the pivot interval of last revolving rack, the lower mould is installed under on the revolving rack, the lower mould is provided with a plurality of around the pivot interval of lower revolving rack, drive mechanism links to each other with last revolving rack and lower revolving rack simultaneously, makes last revolving rack and lower revolving rack synchronous rotation.

Preferably, the transmission mechanism comprises a telescopic shaft, the upper part of the telescopic shaft is connected with the upper rotating frame through an upper gear transmission mechanism, and the lower part of the telescopic shaft is connected with the lower rotating frame through a lower gear transmission mechanism. The transmission mechanism is a telescopic shaft, and can avoid interference on the punching of the upper die and the lower die.

Preferably, the upper part of the telescopic shaft is provided with an upper driving bevel gear, the upper rotating frame is provided with an upper driven bevel gear, the upper driving bevel gear is meshed with the upper driven bevel gear, and the two upper driving bevel gears are arranged on two sides of the upper driven bevel gear to form the upper gear transmission mechanism;

the lower part of the telescopic shaft is provided with a lower driving bevel gear, the lower rotating frame is provided with a lower driven bevel gear, and the upper driving bevel gear is meshed with the upper driven bevel gear to form the lower gear transmission mechanism. The upper driving bevel gear is meshed with the upper driven bevel gear, so that the upper rotating frame and the telescopic shaft synchronously rotate, the lower driving bevel gear is meshed with the lower driven bevel gear, so that the lower rotating frame and the telescopic shaft synchronously rotate, the telescopic shaft is vertical to the rotating shafts of the upper rotating frame and the lower rotating frame, the two upper driving bevel gears are arranged on two sides of the upper driven bevel gear, the upper part of the telescopic shaft synchronously rises and falls along with the upper rotating frame, and the telescopic shaft is ensured to be synchronously rotated with the upper rotating frame all the time.

Preferably, the telescopic shaft comprises a transmission shaft and a transmission sleeve, the transmission sleeve is connected with the lower rotating frame, the transmission shaft is connected with the upper rotating frame, and the lower end of the transmission shaft can slidably extend into the transmission sleeve and synchronously rotate along with the transmission sleeve. The transmission sleeve is connected with the lower rotating frame, the transmission shaft is connected with the upper rotating frame, and the interference on the punching of the upper die on the upper rotating frame and the lower die on the lower rotating frame can be avoided.

Preferably, the device also comprises an upper supporting device and a lower supporting device, wherein the upper supporting device is arranged on the upper side of the upper rotating frame and is just opposite to the middle part of the upper rotating frame, and the lower supporting device is arranged on the lower side of the lower rotating frame and is just opposite to the middle part of the lower rotating frame. Go up strutting arrangement and can support last revolving rack, lower strutting arrangement can support lower revolving rack, goes up strutting arrangement and lower strutting arrangement more stable when guaranteeing the punching press.

Preferably, the upper support device is an upper hydraulic cylinder, and the lower support device is a lower hydraulic cylinder.

Preferably, the device further comprises a guide device arranged between the upper rotating frame and the lower rotating frame. The guiding device can guide the upper rotating frame and the lower rotating frame, and ensures that an upper die on the upper rotating frame is just opposite to a lower die on the lower rotating frame, so that the stamping is more stable.

Preferably, the guiding device comprises a guiding column and a guiding cylinder, the upper rotating frame is rotatably arranged on the guiding column, the lower rotating frame is rotatably arranged on the guiding cylinder, and the lower end of the guiding column slidably extends into the guiding cylinder. The guide post is matched with the guide cylinder, guides the upper rotating frame and the lower rotating frame, ensures that the upper rotating frame linearly ascends and descends, and enables the upper die and the lower die to more stably punch the stainless steel round pipe.

Preferably, the lower die comprises a mandrel and a lower die main body arranged on the mandrel, the lower die main body is provided with a plurality of lower dies side by side along the mandrel, and the inserts are arranged around the outer edge of the top of each lower die main body. The lower mould main part has the polylith, after the lower mould main part of the top is worn and torn, directly with the lower mould main part of the top take off can, need not change the mould, the top of lower mould main part is outer along being provided with inserts, has increased the wear resistance of lower mould main part, makes the life of lower mould main part increase greatly.

Preferably, the device further comprises a power device, and the power device is connected with the transmission mechanism. The power device is connected with the transmission mechanism and drives the upper rotating frame and the lower rotating frame to synchronously rotate, so that the automatic die replacement is realized.

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

this stainless steel container forming die of quick repacking of synchronous formula goes up the mould and encircles last revolving rack interval and be provided with a plurality of, the lower mould encircles lower revolving rack interval and is provided with a plurality of, drive mechanism links to each other with last revolving rack and lower revolving rack simultaneously, make last revolving rack and lower revolving rack rotate in step, it is just right to guarantee mated last mould and lower mould, in order to realize the bulging to the stainless steel pipe, only need make during the change mould go up the revolving rack or the revolving rack rotates can down, the mould is changed conveniently, fast, the bulging of stainless steel pipe has been made things convenient for.

Drawings

Fig. 1 is a schematic front view of a synchronous quick-change stainless steel container forming mold.

Fig. 2 is a left side view of a synchronous quick-change stainless steel container forming mold.

Fig. 3 is a front cross-sectional view of the upper mold and the lower mold.

Fig. 4 is a front sectional view of the lower die main body.

Fig. 5 is a front view schematically showing the wear amount detection device.

Fig. 6 is a schematic cross-sectional front view showing the fitting of the upper mold and the lower mold in embodiment 2.

In the figure: 1. an upper mounting frame 2, an upper hydraulic cylinder 3, a guide post 4, an upper mounting beam 5, an upper rotating frame 6, an upper die 601, a stamping part 602, an upper die cylinder 603, a connecting groove 7, an upper rotating shaft 8, a guide cylinder 9, a lower die 901, a mandrel 902, a lower die main body 903, an outer convex part 904, an inner concave part 905, an insert 10, a lower rotating frame 11 and a lower mounting beam 12, the device comprises a lower rotating shaft 13, a lower mounting frame 14, a lower hydraulic cylinder 15, a transmission sleeve 16, a transmission shaft 17, a lower driving bevel gear 18, a lower driven bevel gear 19, an output gear 20, a rotating motor 21, an input gear 22, an upper driving bevel gear 23, an upper driven bevel gear 24, an upright post 25, a conversion motor 26, a telescopic electric cylinder 27, an adjusting motor 28, a rotating frame 29, a distance sensor 30, a swinging electric cylinder 31 and a hoop.

Detailed Description

Fig. 1 to 5 are preferred embodiments of the present invention, and the present invention will be further described with reference to fig. 1 to 6.

The utility model provides a stainless steel container forming die that synchronous formula traded dress fast, including last revolving rack 5, lower revolving rack 10, drive mechanism, go up mould 6 and lower mould 9, it installs on last revolving rack 5 to go up mould 6, it is provided with a plurality of to go up the pivot interval that mould 6 encircles last revolving rack 5, lower mould 9 is installed under on revolving rack 10, lower mould 9 encircles the pivot interval of lower revolving rack 10 and is provided with a plurality of, drive mechanism links to each other with last revolving rack 5 and lower revolving rack 10 simultaneously, make last revolving rack 5 and lower revolving rack 10 synchronous revolution. This stainless steel container forming die that synchronous formula trades dress fast's last mould 6 encircles last revolving rack 5 interval and is provided with a plurality of, lower mould 9 encircles lower revolving rack 10 interval and is provided with a plurality of, drive mechanism links to each other with last revolving rack 5 and lower revolving rack 10 simultaneously, make last revolving rack 5 and lower revolving rack 10 synchronous rotation, it is just right to guarantee mated last mould 6 and lower mould 9, in order to realize the bulging to the stainless steel pipe, only need make during the change mould go up revolving rack 5 or lower revolving rack 10 rotate can, the mould is changed conveniently, and is quick, the bulging of stainless steel pipe has been made things convenient for.

The present invention is further described with reference to the following detailed description, however, it should be understood by those skilled in the art that the detailed description given herein with respect to the accompanying drawings is for better explanation and that the present invention is not necessarily limited to the specific embodiments, but rather, for equivalent alternatives or common approaches, may be omitted from the detailed description, while still remaining within the scope of the present application.

Example 1

As shown in FIGS. 1-2: this stainless steel container forming die that synchronous formula trades dress fast still includes mounting bracket 1, lower mounting bracket 13, guider, go up installation roof beam 4 and installation roof beam 11 down, it sets up with the equal level of lower mounting bracket 13 to go up mounting bracket 1, lower mounting bracket 13 interval sets up the downside at last mounting bracket 1, it all sets up between last mounting bracket 1 and lower mounting bracket 13 with lower swivel mount 10 to go up swivel mount 5, guider sets up at last mounting bracket 1 under and between mounting bracket 13, guider encircles last swivel mount 5 and has a plurality of with lower swivel mount 10 interval equipartition. Go up installation roof beam 4 horizontal installation on guider's upper portion, go up installation roof beam 4 and have the symmetry to set up two in last swivel mount 5 both sides, go up swivel mount 5 and install on last installation roof beam 4 through last pivot 7, go up swivel mount 5 and install the middle part at last pivot 7 to along with last pivot 7 synchronous rotation, go up the both ends of pivot 7 and pass through the bearing respectively and correspond the rotatable connection of the last installation roof beam 4 of side. The lower mounting beam 11 is horizontally mounted at the lower part of the guide device, the lower mounting beam 11 is provided with two symmetrical beams arranged at two sides of the lower rotating frame 10, the lower rotating frame 10 is mounted on the lower mounting beam 11 through a lower rotating shaft 12, the middle part of the lower rotating shaft 12 is connected with the lower rotating frame 10, and two ends of the lower rotating shaft 12 are respectively rotatably connected with the lower mounting beam 11 at the corresponding side through bearings.

The upper rotating frame 5 is a cuboid, the upper dies 6 are mounted on the upper rotating frame 5, the upper dies 6 are uniformly distributed around the upper rotating shaft 7 at intervals, in the embodiment, one upper die 6 is arranged on each side of the upper rotating frame 5, and the upper dies 6 are arranged on the side portions of the upper rotating frame 5. Lower swivel mount 10 is also the cuboid, and lower mould 9 is installed on lower swivel mount 10, and lower mould 9 encircles 12 intervals equipartitions of pivot down and has a plurality of, in this embodiment, and each side of lower swivel mount 10 all is provided with a lower mould 9, goes up mould 6 and lower mould 9 one-to-one.

Guider includes guide cylinder 8 and guide post 3, the equal vertical setting of guide cylinder 8 and guide post 3, guide post 3 sets up the upside at guide cylinder 8, the upper end and the 1 fixed connection of last mounting bracket of guide post 3, the lower extreme and the lower mounting bracket 13 fixed connection of guide cylinder 8, the lower extreme slidable of guide post 3 stretches into in the upper end of guide cylinder 8, guide post 3 sets up with the 8 relative sliding of guide cylinder, thereby realized the direction to last mounting bracket 1, guarantee that mated last mould 6 and lower mould 9 are just to setting up.

This stainless steel container forming die that synchronous formula trades dress fast still includes strutting arrangement and bottom suspension means, in this embodiment, it is last pneumatic cylinder 2 to go up strutting arrangement, bottom suspension means is lower pneumatic cylinder 14, go up 2 vertical installations of pneumatic cylinder on last mounting bracket 1, go up 2 settings of pneumatic cylinder directly over last swivel mount 5, it is just right with the middle part of last swivel mount 5 to go up pneumatic cylinder 2, it supports last swivel mount 5 through the piston rod to go up pneumatic cylinder 2, can also avoid causing the hindrance to the rotation of last swivel mount 5. Lower pneumatic cylinder 14 is vertical to be installed on mounting bracket 13 down, and lower pneumatic cylinder 14 sets up under lower swivel mount 10, and lower pneumatic cylinder 14 is just to setting up with the middle part of lower swivel mount 10, and lower pneumatic cylinder 14 supports the middle part of lower swivel mount 10 through the piston rod, can also avoid causing the hindrance to the rotation of lower swivel mount 10.

The transmission mechanism comprises a telescopic shaft, the upper part of the telescopic shaft is connected with the upper rotating frame 5, and the lower part of the telescopic shaft is connected with the lower rotating frame 10. The telescopic shaft comprises a transmission sleeve 15 and a transmission shaft 16, the transmission shaft 16 is coaxially arranged right above the transmission sleeve 15, an external spline is arranged on the outer wall of the transmission shaft 16, an internal spline is arranged on the inner wall of the transmission sleeve 15, the lower end of the transmission shaft 16 slidably extends into the upper end of the transmission sleeve 15, the transmission shaft 16 is slidably connected with the transmission sleeve 15, and the transmission shaft 16 and the transmission sleeve 15 keep relative rotation. The transmission shaft 16 is mounted on the upper mounting beam 4 through a bearing seat, and the transmission sleeve 15 is rotatably mounted on the lower mounting beam 11 through the bearing seat.

The lower driving bevel gear 17 is coaxially installed on the transmission sleeve 15, the lower driving bevel gear 17 is fixedly connected with the transmission sleeve 15 and keeps synchronous rotation, the lower driven bevel gear 18 is coaxially installed on the lower rotating shaft 12, the lower driven bevel gear 18 is fixedly connected with the lower rotating shaft 12 and drives the lower rotating shaft 12 to synchronously rotate, and the lower driving bevel gear 17 is meshed with the lower driven bevel gear 18, so that the lower rotating shaft 12 synchronously rotates along with the transmission sleeve 15.

An upper driving bevel gear 22 is mounted on the transmission shaft 16, the upper driving bevel gear 22 is fixedly connected with the transmission shaft 16 and keeps rotating synchronously, an upper driven bevel gear 23 is coaxially mounted on the upper rotating shaft 7, the upper driven bevel gear 23 is fixedly connected with the upper rotating shaft 7 and drives the upper rotating shaft 7 to rotate synchronously, the upper driving bevel gear 22 is meshed with the upper driven bevel gear 23, the upper driving bevel gear 22 is symmetrically arranged on the upper side and the lower side of the upper driven bevel gear 23, so that the transmission shaft 16 can lift synchronously along with the upper rotating frame 5, the upper rotating frame 5 and the lower rotating frame 10 are guaranteed to always keep rotating synchronously, and the paired upper die 6 and the lower die 9 can be guaranteed to be just opposite.

This stainless steel container forming die of synchronous formula quick reloading still includes power device, and in this embodiment, power device includes rotating electrical machines 20, and rotating electrical machines 20 is servo motor, and rotating electrical machines 20 installs under on mounting bracket 13, and the lower extreme coaxial arrangement of drive sleeve 15 has output gear 19, installs input gear 21 on rotating electrical machines 20's the output shaft, and input gear 21 meshes with output gear 19 mutually to automatic mould of changing has been realized.

As shown in FIGS. 3-4: the upper die 6 is in a cylindrical shape with a closed upper end, and the upper die 6 is vertically arranged.

Lower mould 9 includes dabber 901 and lower mould main part 902, dabber 901 and the coaxial setting of last mould 6, lower mould main part 902 coaxial arrangement is in the upside of dabber 901, lower mould main part 902 links to each other with dabber 901, lower mould main part 902 is discoid, lower mould main part 902 is by supreme a plurality of that is provided with side by side down, after the lower mould main part 902 at top damages, take off the lower mould main part 902 at top can, need not change the mould. The bottom of lower mould main part 902 is provided with the interior recess 904 of middle part indent, and the top of lower mould main part 902 is provided with the outer convex part 903 of middle part evagination, in every two adjacent lower mould main parts 902, the outer convex part 903 of lower mould main part 902 of downside stretches into in the adjacent interior recess 904 of lower mould main part 902 of upside to with interior recess 904 interference fit, do not need extra fixed, the upper end of dabber 901 stretches into in the interior recess 904 of lower mould main part 902 of downside most, and with interior recess 904 interference fit.

The top outer edge surrounding each lower die main body 902 is provided with an insert 905, the insert 905 is made of alloy steel, the wear resistance of the die is greatly improved, the service life of the die is prolonged, and the cost of the die is not greatly influenced.

The synchronous quick-reloading stainless steel container forming die has the following working process: the rotating motor 20 drives the telescopic shaft to rotate, the upper rotating shaft 7 and the lower rotating shaft 12 are driven to synchronously rotate through the telescopic shaft, the upper rotating frame 5 synchronously rotates along with the upper rotating shaft 7, the required upper die 6 faces downwards, the lower rotating frame 10 synchronously rotates along with the lower rotating shaft 12, the required lower die 9 faces upwards, and the upper die 6 and the lower die 9 are synchronously adjusted.

After the upper die 6 and the lower die 9 are adjusted, the upper hydraulic cylinder 2 acts, a piston rod of the upper hydraulic cylinder 2 is supported at the top of the upper rotating frame 5, the lower hydraulic cylinder 14 acts, and a piston rod of the lower hydraulic cylinder 14 is supported at the bottom of the lower rotating frame 10, so that the situation that the upper rotating shaft 7 and the lower rotating shaft 12 bear large loads and are bent during punching is avoided.

The hydraulic cylinder of the punching device pushes the upper mounting frame 1 to move downwards, so that the upper die 6 and the lower die 9 are matched to realize bulging of the stainless steel round pipe.

Go up mould 6 including last mould main part and last mould section of thick bamboo 602, it is the upper end confined drum to go up the mould main part, it is the equal open drum in both ends to go up mould section of thick bamboo 602, the axial length of going up mould section of thick bamboo 602 is the same with the axial length of lower mould main part 402, the bottom of going up mould section of thick bamboo 602 is provided with annular punching press portion 601, the internal diameter of punching press portion 601 equals with the internal diameter of last mould section of thick bamboo 602, the external diameter of punching press portion 601 is less than the external diameter of going up mould section of thick bamboo 602, the upper end outer wall of going up mould section of thick bamboo 602 is provided with annular spread groove 603, the bottom that encircles last mould main part also is provided with punching press portion 601, each punching press portion 601 of going up mould section of thick bamboo 602 or the punching press portion 601 of last mould main part all stretch into the downside rather than the adjacent spread groove 603 of last mould section of thick bamboo 602, punching press portion 601 can adopt alloy steel material.

The stamping part 601 and the corresponding connecting groove 603 can be connected in a threaded manner, a magnetic attraction manner or an interference fit manner.

When the device is used, when the lower die 9 removes a layer of the lower die main body 402 on the top, an upper die cylinder 402 needs to be installed on the upper die 6 corresponding to the lower die 9, so as to eliminate the influence of the length reduction of the lower die 9 on the bulging of the stainless steel round tube.

A plurality of upper mold cylinders 602 with different lengths can be further arranged, and after the lower mold main body 402 on the top of the lower mold 9 is removed, the upper mold cylinders 602 on the upper mold main body are replaced with the upper mold cylinders 602 with larger lengths, so as to eliminate the influence caused by the length shortening of the lower mold 9.

As shown in fig. 5: this stainless steel container forming die that synchronous formula trades dress fast still includes wearing and tearing volume detection device, and wearing and tearing volume detection device includes stand 14, conversion motor 15, flexible electric jar 16, adjusting motor 17, swivel mount 18, distance sensor 19 and swing electric jar 20, the vertical setting of stand 14, and the base is installed to the bottom of stand 14, makes stand 14 can direct vertical placing subaerial. Conversion motor 15 installs at the top of stand 14, the output shaft level of conversion motor 15 sets up, flexible electric jar 16 level sets up, flexible electric jar 16 is installed on conversion motor 15's output shaft, and rotate along with conversion motor 15's output shaft, adjusting motor 17 vertical setting, adjusting motor 17 installs on the piston rod of flexible electric jar 16, swivel mount 18 is installed on adjusting motor 17's output shaft, and rotate along with it in step, the top of swivel mount 18 links to each other with adjusting motor 17, but the wobbling bottom installs distance sensor 19, distance sensor 19 is articulated with swivel mount 18, and distance sensor 19 is located adjusting motor 17's output shaft under, swing electric jar 20 is articulated with swivel mount 18, the piston rod of swing electric jar 20 links to each other with distance sensor 19, and promote its swing.

When the lower die 9 needs to be detected, the telescopic electric cylinder 16 drives the adjusting motor 17 to move, the distance sensor 19 is enabled to be opposite to the middle of the lower die 9, then the swinging electric cylinder 20 pushes the distance sensor 19 to swing by 10 degrees, the adjusting motor 17 drives the rotating frame 18 to rotate by one circle at the moment, then the swinging electric cylinder 20 pushes the distance sensor 19 to swing by 10 degrees again in the same direction, the adjusting motor 17 drives the rotating frame 18 to rotate by one circle until the top detection of the lower die 9 is completed, and when the distance detected by the distance sensor 19 has an obvious larger position, the lower die 9 is considered to be seriously abraded.

The detection of the lower die 9 can also be carried out as follows: the oscillating electric cylinder 20 pushes the distance sensor 19 to detect from the center of the lower mold 9 along the radial direction outward, and when the detection is completed, the adjusting motor 17 moves the distance sensor 19 to rotate 10 degrees around the lower mold 9 for detecting again to judge whether the top surface of the lower mold 9 is abraded.

After the detection of the upper die 4 is completed, the conversion motor 15 drives the telescopic electric cylinder 16 to rotate 180 degrees, so that the distance sensor 19 faces upwards to detect the bottom of the upper die 6.

Wear loss detection device can also include laser emitter and industry looks camera, and lower mould 9 is established to the laser emitter cover, and laser emitter for following the ascending slope form gradually of the direction of keeping away from lower mould 9, and industry camera is gathered the image of the top surface of lower mould 9 directly over lower mould 9 to calculate the wear loss of lower mould 9 at the kink of lower mould 9 through the laser line, and then judge whether lower mould 9 needs to be changed.

Example 2

As shown in fig. 6: example 2 differs from example 1 in that: go up a mould section of thick bamboo 602 and have a plurality of arcwall concatenations to form, go up the spread groove setting of mould main part and inboard in the bottom of last mould main part, the top of encircleing last mould section of thick bamboo 602 is provided with and spread groove matched with butt joint platform, and in the butt joint platform stretched into the spread groove, butt joint platform passed through the magnet actuation with the spread groove. A clamp 31 is arranged outside the upper mold cylinder 602 to ensure that the lower mold cylinders 602 are reliably matched. When the die is used, when a certain piece of the upper die cylinder 602 is damaged or has a large abrasion loss, only the corresponding piece of the upper die cylinder 602 is replaced.

Lower mould main part 902 has and only one, and lower mould main part 902 is formed by a plurality of concatenations, and the upper end of dabber 901 is provided with the inserted bar of a plurality of epirelief, and the bottom of every lower mould main part 902 all is provided with a plurality of slots, and the inserted bar inserts in the slot that corresponds, has realized lower mould main part 902's concatenation and fixed, when certain lower mould main part 902 takes place to damage, only need to change a corresponding lower mould main part 902 can. The lower die main bodies 902 and the core shaft 901 are attracted by magnets.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a stainless steel container forming die that synchronous formula reloaded fast which characterized in that: including last revolving rack (5), lower revolving rack (10), drive mechanism, go up mould (6) and lower mould (9), it installs on last revolving rack (5) to go up mould (6), it is provided with a plurality of to go up the pivot interval that mould (6) encircle last revolving rack (5), lower mould (9) are installed under on revolving rack (10), lower mould (9) are provided with a plurality of around the pivot interval of lower revolving rack (10), drive mechanism links to each other with last revolving rack (5) and lower revolving rack (10) simultaneously, make last revolving rack (5) and lower revolving rack (10) synchronous rotation.

2. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 1, wherein: the transmission mechanism comprises a telescopic shaft, the upper part of the telescopic shaft is connected with the upper rotating frame (5) through an upper gear transmission mechanism, and the lower part of the telescopic shaft is connected with the lower rotating frame (10) through a lower gear transmission mechanism.

3. The synchronous quick-change stainless steel container forming die of claim 2, wherein: an upper driving bevel gear (22) is mounted at the upper part of the telescopic shaft, an upper driven bevel gear (23) is mounted on the upper rotating frame (5), the upper driving bevel gear (22) is meshed with the upper driven bevel gear (23), and two upper driving bevel gears (22) are arranged on two sides of the upper driven bevel gear (23) to form the upper gear transmission mechanism;

the lower part of the telescopic shaft is provided with a lower driving bevel gear (17), the lower rotating frame (10) is provided with a lower driven bevel gear (18), and the upper driving bevel gear (17) is meshed with the upper driven bevel gear (18) to form the lower gear transmission mechanism.

4. A synchronous quick-change stainless steel container forming die as claimed in claim 2 or 3, wherein: the telescopic shaft comprises a transmission shaft (16) and a transmission sleeve (15), the transmission sleeve (15) is connected with the lower rotating frame (10), the transmission shaft (16) is connected with the upper rotating frame (5), and the lower end of the transmission shaft (16) can slidably extend into the transmission sleeve (15) and synchronously rotate along with the transmission sleeve (15).

5. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 1, wherein: the upper support device is arranged on the upper side of the upper rotating frame (5) and is right opposite to the middle of the upper rotating frame (5), and the lower support device is arranged on the lower side of the lower rotating frame (10) and is right opposite to the middle of the lower rotating frame (10).

6. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 5, wherein: the upper supporting device is an upper hydraulic cylinder (2), and the lower supporting device is a lower hydraulic cylinder (14).

7. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 1, wherein: the device also comprises a guide device arranged between the upper rotating frame (5) and the lower rotating frame (10).

8. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 7, wherein: the guiding device comprises a guiding column (3) and a guiding cylinder (8), wherein an upper rotating frame (5) is rotatably arranged on the guiding column (3), a lower rotating frame (10) is rotatably arranged on the guiding cylinder (8), and the lower end of the guiding column (3) can slidably extend into the guiding cylinder (8).

9. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 1, wherein: the lower die (9) comprises a mandrel (901) and lower die main bodies (902) arranged on the mandrel (901), wherein the lower die main bodies (902) are arranged side by side along the mandrel (901), and inserts (905) are arranged around the outer edge of the top of each lower die main body (902).

10. The synchronized rapid reloading mold for forming stainless steel containers as recited in claim 1, wherein: the power device is connected with the transmission mechanism.

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