CN115159412B - Sealing mechanism of continuous can sealing machine - Google Patents

Abstract

The invention discloses a sealing mechanism of a continuous can sealing machine, which comprises a sealing seat ring, a sealing wheel assembly, a gland plate assembly, a first cam, a second cam and a vacuum box seat, wherein the sealing wheel assembly and the gland plate assembly are both arranged on the vacuum box seat from the upper part, the vacuum box seat drives the sealing wheel assembly and the gland plate assembly to rotate, the first cam and the second cam are vertically stacked and arranged at the top of the annular edge of the sealing seat ring which is fixed, and the sealing part on the sealing wheel assembly is respectively in indirect contact with the first cam and the second cam and correspondingly swings according to the designed cam curve. The rotary mechanical sealing mode solves the problems that pneumatic sealing is unstable, traditional sealing cannot be cooperated with vacuumizing and nitrogen filling to cause large time loss, and achieves the beneficial effects of improving sealing stability and effectively reducing time loss.

Description

Sealing mechanism of continuous can sealing machine

Technical Field

The invention relates to the field of container packaging production equipment, in particular to a sealing mechanism of a continuous can sealing machine.

Background

The tank needs to be sealed after filling materials and vacuumizing and filling nitrogen, so that the leakage of the tank is avoided. At present, the existing mode has a pneumatic sealing mode, two sealing wheels extend out of a vacuum cavity through a compression cylinder to seal a tank, a single tank or multiple tanks are pushed into the sealing cavity, and after vacuumizing, nitrogen filling and sealing, the tank is pushed out of the sealing cavity.

The patent with publication number CN205151705U discloses a pneumatic can sealing machine, which comprises a base, an upright post, a bearing plate, a control box, a supporting table, a motor, a lifting cylinder and a lifting adjusting mechanism; the lifting adjusting mechanism comprises a longitudinal screw rod, a threaded sleeve which is arranged on the longitudinal screw rod in a threaded manner, a transverse lifting adjusting shaft and a lifting adjusting hand wheel. Compared with the prior art, the invention has high degree of automation, simple and light operation, is suitable for sealing operations of various round iron, glass, plastic paper cans and the like, and has high production efficiency and good can sealing effect.

However, the above-mentioned patents and the prior art still have the following disadvantages in the actual operation process: the pneumatic sealing mode is unstable in pressure and is easily influenced by instantaneous pressure, so that the sealing effect is poor, meanwhile, the traditional sealing mode cannot cooperate with the vacuumizing and nitrogen filling actions, the vacuumizing, nitrogen filling and tank lifting sealing of each tank can be sequentially carried out, and the time periods cannot be overlapped, so that the time loss is large.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a sealing mechanism of a continuous can sealing machine, so as to solve the problems.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the sealing mechanism of the continuous can sealing machine comprises a rolling sealing seat ring, a rolling sealing wheel assembly, a gland plate assembly, a first cam, a second cam and a vacuum box seat, wherein the rolling sealing wheel assembly and the gland plate assembly are both arranged on the vacuum box seat from the upper part, the vacuum box seat drives the rolling sealing wheel assembly and the gland plate assembly to rotate, the first cam and the second cam are vertically stacked and arranged at the top of the annular edge of the rolling sealing seat ring which is fixed, and the rolling sealing part on the rolling sealing wheel assembly is respectively and indirectly contacted with the first cam and the second cam and correspondingly swings according to a designed cam curve; the rolling part on the rolling wheel assembly comprises a rolling wheel I and a rolling wheel II, the rolling wheel assembly also comprises a rolling cam swing rod, a rolling cam follower, a rolling swing rod, a bearing seat I and a transmission shaft, the rolling wheel assembly is arranged on the vacuum box seat from the upper part through the bearing seat I, the bearing seat I is arranged outside the transmission shaft through a rolling bearing, the rolling cam swing rod is fixedly arranged at the top of the transmission shaft, the rolling swing rod is fixedly arranged at the bottom of the transmission shaft, the rolling cam follower is arranged on the rolling cam swing rod, and the rolling wheel I and the rolling wheel II are respectively arranged at two ends of the rolling swing rod; the first and second cams are provided with inner side curves which are matched with two seaming cam followers on the seaming cam swinging rod and enable the seaming cam followers to swing in a multi-time rotating mode, the seaming wheel assembly further comprises an adjusting screw, an adjusting copper block and a locking nut, the first seaming wheel and the second seaming wheel respectively penetrate through the two adjusting copper blocks from the lower side and are respectively arranged at two ends of the seaming swinging rod, the adjusting screw supports against the adjusting copper blocks from the side surfaces of two ends of the seaming swinging rod, and the adjusting copper blocks are fastened on the seaming swinging rod by the locking nut.

Preferably, the first and second rolling wheels are provided with a rod part, and the rod part is provided with threads.

Preferably, two ends of the seal rolling swing rod are provided with vertical rectangular through holes, the adjusting copper block is provided with square lugs, the width of the adjusting copper block is smaller than that of the rectangular through holes on the seal rolling swing rod, and a front-back adjusting gap exists between the adjusting copper block and the wall of the rectangular through holes after the adjusting copper block is installed in the rectangular through holes of the seal rolling swing rod.

Preferably, the adjusting copper block is provided with a vertical through hole, the through hole is a threaded hole, and the adjusting copper block is arranged on threaded rod parts of the first rolling sealing wheel and the second rolling sealing wheel through threads.

Preferably, the gland plate assembly comprises a V belt wheel, a synchronous belt wheel, a second bearing seat, a mounting shaft and a gland plate, wherein the gland plate assembly is mounted on the vacuum box seat from the upper part through the second bearing seat, the second bearing seat is mounted outside the mounting shaft through a rolling bearing, the synchronous belt wheel is mounted and fixed on the top of the mounting shaft, the gland plate is mounted and fixed on the bottom of the mounting shaft from the bottom of the gland plate, and the V belt wheel is mounted on the synchronous belt wheel.

Preferably, the gland plate assembly further comprises a mounting sleeve, a compression spring, a guide shaft and a cover supporting block, wherein a deep groove is formed in the center of the bottom of the mounting shaft, the mounting sleeve is mounted in the deep groove in the center of the bottom of the mounting shaft, the deep groove is formed in the center of the bottom of the mounting sleeve, the compression spring is mounted in the deep groove in the center of the bottom of the mounting sleeve, the guide shaft is mounted below the compression spring, and the cover supporting block is mounted at the bottom of the guide shaft through a screw.

Preferably, the center of the gland plate is provided with a round hole, the diameter of the round hole is larger than that of the guide shaft, and the guide shaft penetrates through the round hole in the center of the gland plate.

In summary, compared with the prior art, the invention has the following beneficial effects: through adopting a rotatory mode of sealing, through cam one, cam two curve and the unique structural design of package wheel subassembly complex, let the package cam pendulum rod in the package wheel subassembly move in the two cam curves of design and drive package pendulum rod swing, thereby seal the action to the jar, the continuous requirement that promotes the action of sealing of going into in the jar action process of iron tin continuous, thereby the evacuation of every jar iron tin, nitrogen filling, jar promotion time period of sealing can overlap, thereby the required time of pushing away a jar action of intermittent type formula has been subtracted, time loss has been reduced, mechanical seal mode sealing state is more stable simultaneously, the pneumatic seal mode pressure is unstable has been avoided, receive the influence of instantaneous pressure easily to lead to the drawback of sealing effect poor.

Drawings

FIG. 1 is a schematic perspective view of the present invention from the side up view;

FIG. 2 is a schematic perspective view of a seaming wheel assembly according to the present invention;

FIG. 3 is an exploded view of the seal wheel mounting adjustment of the present invention;

FIG. 4 is a schematic perspective view of a gland plate assembly of the present invention;

FIG. 5 is a vertical cross-sectional view of the gland plate assembly of the present invention;

FIG. 6 is a schematic top view of the present invention;

the device comprises a 1-seaming seat ring, a 2-seaming wheel assembly, a 201-seaming cam swing rod, a 202-seaming cam follower, a 203-seaming swing rod, a 204-bearing seat I, a 205-seaming wheel I, a 206-seaming wheel II, a 207-transmission shaft, a 208-adjusting screw, a 209-adjusting copper block, a 210-locking nut, a 3-gland plate assembly, a 301-V belt wheel, a 302-synchronous belt wheel, a 303-bearing seat II, a 304-mounting shaft, a 305-mounting sleeve, a 306-compression spring, a 307-guiding shaft, a 308-supporting cover block, a 309-gland plate, a 4-cam I, a 5-cam II, a 6-vacuum box seat, a 7-V belt and an 8-synchronous belt.

Detailed Description

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.

The embodiment provides a technical scheme that: the invention discloses a continuous can sealing mechanism of a can sealing machine, which comprises a sealing seat ring 1, ten sealing wheel assemblies 2, ten gland plate assemblies 3, a first cam 4, a second cam 5 and a vacuum box seat 6, wherein the ten sets of sealing wheel assemblies 2 and the gland plate assemblies 3 are uniformly arranged on the vacuum box seat 6 along the circumference from the upper part, when the continuous can sealing mechanism is in operation, the vacuum box seat 6 drives all the sealing wheel assemblies 2 and the gland plate assemblies 3 to rotate clockwise in the overlooking mode, the first cam 4 and the second cam 5 are vertically overlapped and arranged on the top of the annular edge of the fixed sealing seat ring 1, the sealing seat ring 1 is used for positioning a sealing cam swing rod 201 at a non-sealing position, sealing positions on the sealing wheel assemblies 2 are respectively in indirect contact with the first cam 4 and the second cam 5 and correspondingly swing according to cam curves designed by the first cam 4 and the second cam 5, and when the first cam 4 and the second cam 5 are used for sealing a can, the sealing wheel 205 and the sealing wheel 206 are used for sealing a can.

The gland plate assembly 3 is used for pressing a can cover and enabling the can cover to rotate when being used for sealing a can, a sealing part on a non-rotating sealing wheel assembly 2 revolving to a sealing position is sealed in a sealing mode, each gland plate assembly 3 comprises a V belt pulley 301, a synchronous belt pulley 302, a second bearing seat 303, a mounting shaft 304, a mounting sleeve 305, a compression spring 306, a guide shaft 307, a supporting cover block 308 and a gland plate 309, the gland plate assembly 3 is mounted on a vacuum box seat 6 from the upper portion through the second bearing seat 303 through four screws, a round hole is formed in the vacuum box seat 6 for the gland plate assembly 3, a part below the second bearing seat 303 of the gland plate assembly 3 extends into the round hole, the second bearing seat 303 is mounted outside the mounting shaft 304 through three rolling bearings, the synchronous belt pulley 302 is mounted and fixed on the top of the mounting shaft 304, the gland plate is mounted and fixed on the bottom of the mounting shaft 304 from the bottom, the synchronous belt pulley 302 can drive the gland plate 309 to be mounted on the top of the V belt pulley 302 through the mounting shaft 309. A V belt 7 is installed on the outer side of the V belt pulley 301 of the eight gland plate assemblies 3, two tensioning devices (not shown) of the V belt 7 are arranged on the outer sides of the remaining two gland plate assemblies 3, a power source (not shown) drives the V belt pulley 301 to rotate through the clockwise rotating V belt 7 so as to provide rotary power for the lower gland plate 309, a synchronous belt 8 is also installed on the outer side of the synchronous belt pulley 302 of the ten gland plate assemblies 3, one tensioning device is arranged between certain two of the gland plate assemblies 3, and the rest two gland plate assemblies 3 which are not contacted with the V belt 7 can be driven through the synchronous belt 8 to rotate so as to provide rotary power for the lower gland plate 309. The bottom center of the installation shaft 304 is provided with a deep groove, the installation sleeve 305 is installed in the deep groove of the bottom center of the installation shaft 304, the bottom center of the installation sleeve 305 is also provided with a deep groove, the compression spring 306 is installed in the deep groove of the bottom center of the installation sleeve 305 and is used for guiding the shaft 307 to drive the reset of the cover block 308, the guiding shaft 307 is installed below the compression spring 306 and is used for guiding the lifting of the cover block 308, the cover block 308 is installed at the bottom of the guiding shaft 307 through an inner hexagon head screw and is used for holding the bottom cover to pre-press the bottom cover before the tank is sealed, the tank is separated from the gland plate 309 under the reset action of the compression spring 306 after the tank is sealed, the center of the gland plate 309 is provided with a round hole, the diameter of the round hole is larger than that of the guiding shaft 307, the guiding shaft 307 passes through the round hole in the center of the gland plate 309 to press the lower end of the compression spring 306, and when the bottom cover block 308 is positioned below the vacuum box seat 6 moves upwards to contact the cover block 308, the compression spring 306 begins to compress until the bottom cover block 308 is higher than the bottom edge of the gland plate 309 to make the bottom cover 309 contact with the bottom cover 309 and rotate to the bottom cover 309 and be fixed.

The seaming wheel assemblies 2 are used for can seaming, each seaming wheel assembly 2 comprises a seaming cam swing rod 201, two seaming cam followers 202, a seaming swing rod 203, a first bearing seat 204, a seaming wheel 205, a seaming wheel 206, a transmission shaft 207, two sets of adjusting screws 208, two sets of adjusting copper blocks 209 and two sets of locking nuts 210, and the seaming position of the seaming wheel assembly 2 is referred to as a seaming wheel 205 and a seaming wheel 206. The sealing wheel assembly 2 is arranged on the vacuum box seat 6 from the upper part through a first bearing seat 204 through four screws, a round hole is formed in the vacuum box seat 6 outside the round hole formed in the cover plate assembly 3 for the sealing wheel assembly 2, a part below the mounting surface of the first bearing seat 204 of the sealing wheel assembly 2 extends into the round hole, the first bearing seat 204 is arranged outside a transmission shaft 207 through upper and lower rolling bearings, a sealing cam swing rod 201 for installing two sealing cam followers 202 is fixedly arranged at the top of the transmission shaft 207, a sealing swing rod 203 for installing the sealing wheel 205 and the sealing wheel 206 is fixedly arranged at the bottom of the transmission shaft 207, and the transmission shaft 207 is fixedly connected with the sealing cam swing rod 201 and the sealing swing rod 203, so that the sealing cam 201 and the sealing swing rod 203 are always in relative fixed angle positions and can act simultaneously during swinging, and the sealing cam follower 202 is arranged on the sealing cam 201. The two ends of the sealing swing rod 203 are provided with vertical rectangular through holes for accommodating the adjusting copper blocks 209, the width of the adjusting copper blocks 209 is smaller than that of the rectangular through holes on the sealing swing rod 203, a certain front-back adjusting gap exists between the adjusting copper blocks 209 and the wall of the rectangular through holes after the adjusting copper blocks 209 are installed in the rectangular through holes of the sealing swing rod 203, square lugs are further arranged on the adjusting copper blocks 209, rod parts are arranged on the first sealing wheel 205 and the second sealing wheel 206, the rod parts of the first sealing wheel 205 and the second sealing wheel 206 are threaded, the rod parts pass through the rectangular through holes of the lower adjusting copper blocks 209 respectively from the lower side through threads, the rod parts of the first sealing wheel 205 and the second sealing wheel 206 penetrate through the rectangular through holes of the left square lugs respectively, the locking nuts 210 penetrate through the left square copper blocks 209 respectively, the upper adjusting copper blocks 209 are fastened on the two ends of the sealing wheel 205 from the upper side, the positions of the copper blocks 205 can be better matched with the positions of the two sides of the sealing wheel 206 through the two sides of the copper blocks 205, the positions of the two sealing wheels 206 can be better adjusted through the positions of the two sealing wheels 203, and the positions of the two sealing wheels 206 can be better adjusted through the positions of the two sealing wheels 206.

When the continuous can sealing mechanism is used, the seaming seat ring 1 of the continuous can sealing mechanism is kept motionless under the fixation of other structures, the vacuum box seat 6 rotates in the can running direction to drive all the seaming wheel assemblies 2 and the gland plate assemblies 3 to revolve in the same direction, the rotation direction is overlooked clockwise, the gland plate 309 in the gland plate assemblies 3 rotates under the power provided by the V belt pulley 301 or the synchronous belt pulley 302 so as to provide power for can seaming, the seaming wheel assembly 2 rotates in the can running direction at the seaming position formed by the first cam 4 and the second cam 5, and correspondingly rotates and swings twice along the designed cam curve, so that the seaming wheel 205 and the seaming wheel 206 are controlled to seal the can, and meanwhile, the structure formed by the compression spring 306, the guide shaft 307 and the cover supporting block 308 in the gland plate assemblies 3 can hold the bottom cover positioned at the lower side of the vacuum box seat 6 before the can sealing, and the can is reset after the can sealing so as to separate the can downwards.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (4)

1. A continuous can seamer sealing mechanism is characterized in that: the automatic sealing device comprises a sealing seat ring (1), a sealing wheel assembly (2), a gland plate assembly (3), a first cam (4), a second cam (5) and a vacuum box seat (6), wherein the sealing wheel assembly (2) and the gland plate assembly (3) are both arranged on the vacuum box seat (6) from the upper part, the vacuum box seat (6) drives the sealing wheel assembly (2) and the gland plate assembly (3) to rotate, and the first cam (4) and the second cam (5) are vertically stacked and arranged at the top of the annular edge of the fixed sealing seat ring (1); the rolling and sealing mechanism comprises a rolling and sealing wheel assembly (2), and is characterized in that a rolling and sealing part on the rolling and sealing wheel assembly (2) comprises a rolling and sealing wheel I (205) and a rolling and sealing wheel II (206), the rolling and sealing wheel assembly (2) also comprises a rolling and sealing cam swing rod (201), a rolling and sealing cam follower (202), a rolling and sealing swing rod (203), a bearing seat I (204) and a transmission shaft (207), the rolling and sealing wheel assembly (2) is arranged on a vacuum box seat (6) from the upper part through the bearing seat I (204), the bearing seat I (204) is arranged outside the transmission shaft (207) through a rolling bearing, the rolling and sealing cam swing rod (201) is fixedly arranged at the top of the transmission shaft (207), the rolling and sealing swing rod (203) is fixedly arranged at the bottom of the transmission shaft (207), the rolling and sealing cam follower (202) is arranged on the rolling and sealing cam swing rod (201), and the rolling and sealing wheel II (206) are respectively arranged at two ends of the rolling and sealing swing rod (203). The first cam (4) and the second cam (5) are both provided with inner side curves which are matched with the two seaming cam followers (202) on the seaming cam swinging rod (201) and enable the seaming cam followers (202) to swing for a plurality of times; the coil sealing wheel assembly (2) further comprises an adjusting screw (208), an adjusting copper block (209) and a locking nut (210), the first coil sealing wheel (205) and the second coil sealing wheel (206) respectively penetrate through two adjusting copper blocks (209) from the lower part and are respectively arranged at two ends of the coil sealing swing rod (203), the adjusting screw (208) is used for supporting the adjusting copper blocks (209) from the side surfaces of the two ends of the coil sealing swing rod (203), the locking nut (210) is used for fastening the adjusting copper blocks (209) on the coil sealing swing rod (203) from the upper surfaces of the two ends of the coil sealing swing rod (203), a rod part is arranged on the first coil sealing wheel (205) and the second coil sealing wheel (206), the rod part is provided with threads, two ends of the coil sealing swing rod (203) are provided with vertical rectangular through holes, square flanges are arranged on the adjusting copper blocks (209), the width of the adjusting copper blocks (209) is smaller than the width of the rectangular through holes on the coil sealing swing rod (203), the adjusting copper blocks (209) are arranged in the rectangular through holes (203), and the two threaded holes (209) are arranged on the front of the two coil sealing swing rod (203) and the two threaded rods (206).

2. The continuous can seamer seaming mechanism according to claim 1, wherein: the gland plate assembly (3) comprises a V belt wheel (301), a synchronous belt wheel (302), a bearing seat II (303), a mounting shaft (304) and a gland plate (309), wherein the gland plate assembly (3) is mounted on a vacuum box seat (6) from the upper portion through the bearing seat II (303), the bearing seat II (303) is mounted outside the mounting shaft (304) through a rolling bearing, the synchronous belt wheel (302) is mounted and fixed at the top of the mounting shaft (304), the gland plate (309) is mounted and fixed at the bottom of the mounting shaft (304) from the bottom of the gland plate, and the V belt wheel (301) is mounted on the synchronous belt wheel (302).

3. The continuous can seamer seaming mechanism according to claim 2, wherein: the gland plate assembly (3) further comprises a mounting sleeve (305), a compression spring (306), a guide shaft (307) and a cover supporting block (308), wherein a deep groove is formed in the bottom center of the mounting shaft (304), the mounting sleeve (305) is mounted in the deep groove in the bottom center of the mounting shaft (304), the deep groove is formed in the bottom center of the mounting sleeve (305), the compression spring (306) is mounted in the deep groove in the bottom center of the mounting sleeve (305), the guide shaft (307) is mounted below the compression spring (306), and the cover supporting block (308) is mounted at the bottom of the guide shaft (307) through screws.

4. A continuous can seamer seaming mechanism according to claim 3, wherein: the center of the gland plate (309) is provided with a round hole, the diameter of the round hole is larger than that of the guide shaft (307), and the guide shaft (307) penetrates through the round hole in the center of the gland plate (309).