CN115072021B

CN115072021B - Lubricating grease filling and sealing equipment

Info

Publication number: CN115072021B
Application number: CN202210861839.9A
Authority: CN
Inventors: 王宇远; 黄志良
Original assignee: Longnan Xuefute New Material Technology Co ltd
Current assignee: Longnan Xuefute New Material Technology Co ltd
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2023-07-04
Anticipated expiration: 2042-07-22
Also published as: CN115072021A

Abstract

The invention provides grease filling and sealing equipment, which comprises a support, a disc, a rotary sphere, swing arms, inclined plates, balls, a rotary disc, a connecting rod and a penetrating shaft, wherein the support is arranged below the inside of a hopper, the disc is inlaid at the top end of the support, the rotary sphere swings at the lower end of the disc, the swing arms swing at two sides of the rotary sphere, the inclined plates are inlaid at two sides of the inside of the disc, the balls roll on two sides of the inside of the disc, the connecting rod is inlaid at the upper end of the rotary sphere, the rotary disc and the penetrating shaft sequentially rotate at the upper end of the connecting rod, when the clamping ring rotates, the lower end of the clamping ring is lifted by the tray to prevent the clamping ring from falling off at one side of the gear, the clamping ring integrally surrounds the outer side of the penetrating shaft to rotate, the scraping plate can scrape residual grease on the inner wall of the hopper when horizontally rotating, and the scraped grease falls to the lower end of the inside of the hopper, and a large amount of residual grease on the inner wall of the hopper in the filling process can be avoided.

Description

Lubricating grease filling and sealing equipment

Technical Field

The invention relates to the technical field of grease processing, in particular to grease filling and sealing equipment.

Background

The lubricating grease is thick grease-like semisolid and is used for a friction part of machinery to perform lubrication and sealing effects, the lubricating grease needs to be sequentially filled and sealed after being processed, the lubricating grease needs to be stored through a hopper during filling, then the lubricating grease is filled through a filling head, and a container is sealed through sealing equipment after filling, so that the subsequent transportation of the lubricating grease is facilitated, and the technical teaching of the filling sealing equipment is aimed at;

research into the filling and sealing equipment has found the following problems:

because the lubricating grease is thick grease-like semisolid, when the filling and sealing equipment is used for filling the lubricating grease, the lubricating grease is positioned in the hopper and moves downwards for filling, and after the lubricating grease is filled, a large amount of lubricating grease is adhered to the inner wall of the hopper, so that the lubricating grease on the inner wall of the hopper needs to be scraped manually, and further the residues on the inner wall of the hopper cannot be scraped by the filling and sealing equipment when the lubricating grease is filled;

at present, CN201610778855.6 in the prior art discloses a filling and sealing device for lubricating grease, the device has a simple structure, the filling amount of the filling machine is controlled by a pressure detector in a weighing way, and an electronic switch on a filling pipe can also carry out remote control and adjustment on filling, so that the filling is more accurate; the sealing machine is added to make the equipment more systematic, so that the space is saved;

the invention mainly solves the problem that the filling and sealing equipment cannot clean and scrape the residue on the inner wall of the hopper during the filling of lubricating grease.

Disclosure of Invention

In order to solve the technical problems, the invention provides a lubricating grease filling and sealing device for solving the problems described in the background art.

The invention discloses a lubricating grease filling and sealing device, which is characterized by comprising the following specific technical means: the utility model provides a lubricating grease filling sealing equipment, includes the frame, and the upper end rotation of this frame has the conveyer belt, and the side of conveyer belt is equipped with the filling subassembly, and the filling subassembly includes hopper, filling head and drawing liquid cylinder, and the side that the conveyer belt is close to the filling subassembly is equipped with the capper.

Further, the conveyer belt side-mounting has supporting motor, and the motor passes through power cord and power electric connection, and the conveyer belt transmits the lubricating grease container to the lower extreme of filling head and capper in proper order.

Further, the inside of hopper is equipped with the drive mechanism of preventing the adhesion of lubricating grease, and the one end of filling head is used with the drawing cylinder is supporting respectively, and the filling head runs through to be installed in the lower extreme of hopper, and the filling head is filled lubricating grease.

Further, the drive mechanism includes support, disc, rotatory spheroid, swing arm, swash plate, ball, rotary disk, connecting rod and runs through the axle, and support mounting is in the below of hopper inside, and the disc is inlayed on the top of support, and rotatory spheroid swings in the lower extreme of disc, and the swing arm swings in rotatory spheroidal both sides, and the swash plate is inlayed in the inside both sides of disc, and the ball rolls in the inside both sides of disc, and the connecting rod is inlayed in rotatory spheroidal upper end, and the rotary disk is rotatory in proper order in the upper end of connecting rod with running through the axle.

Further, the upper end of the support is rotationally attached to the through shaft, the inner side of the upper end of the support is provided with a groove, the groove is arranged in a triangular shape, the outer side of the through shaft is rotationally attached to the groove, and the disc is located on the inner side of the support.

Further, the diameter of the inner part of the disc is smaller than 10cm, the track is arranged at the upper end of the disc, the track is in a circular ring shape, the outer side of the rotating disc is in 360-degree rotary sliding on the inner side of the track, the lower end of the disc is provided with a hole, the two sides of the hole are in a semicircular arc shape, and the rotary sphere is in 360-degree rotary in the hole.

Further, the length difference of the swing arms is 2-4cm, the swing arms are positioned at two sides above the filling head, and the swing arms swing obliquely at two sides of the rotary sphere.

Furthermore, the inclined plate is inclined by 25-45 degrees, the lower end of the inclined plate and the lower end of the ball are arranged on the same horizontal plane, when the ball is static, the ball is positioned on two sides of the upper end of the rotary sphere, and the ball horizontally and obliquely rolls in the disc.

Further, the rotating disc rotates at the upper end of the disc, one end of the connecting rod is positioned on the side face of the rotating disc, the connecting rod is inclined by 15-25 degrees, and the outer side wall of the rotating disc is spaced 1-2cm from the inner wall of the track inside the disc.

Further, the penetrating shaft penetrates and extends to the upper side of the inside of the hopper, the penetrating shaft is arranged at the upper end of the rotating disc, and when the rotating disc rotates, the penetrating shaft synchronously rotates.

Further, the transmission mechanism comprises a lug, a tray, a gear, a clamping ring, a tooth plate and a scraping plate, wherein the lug is inlaid at the outer side of the through shaft, the tray is in sliding fit with the outer side of the lug, the gear rotates at the upper end of the lug, the tooth plate is rotationally inlaid at the outer side of the gear, the clamping ring is inlaid at one side of the tooth plate, and the scraping plate swings at one side of the clamping ring.

Further, the lug is wholly in the setting of ring form, and the tray is discoid setting, and the recess has been seted up to the inboard of tray, and the lug slides the laminating with the inside recess of tray, and the lug is in the static state with the rotatory time of running through the axle.

Further, the gears are distributed at the upper end and the lower end of the inside of the hopper, the gears are matched with the tooth plates, the tooth plates are inclined by 25-45 degrees, the whole tooth plates are distributed in a semicircular arc shape, and the tooth plates are horizontally rotationally embedded with the gears.

Further, the lower extreme of snap ring and the upper end slip laminating of tray, the supporting setting of snap ring shape and the distribution shape of tooth piece, the one side of scraper blade and the inner wall sliding friction of hopper, the scraper blade is horizontal "T" form setting.

The beneficial effects are that:

1. the filling head is used for pumping and filling lubricating grease in the hopper, the lubricating grease moves from top to bottom in the hopper, the lubricating grease impacts one side of the swing arm downwards, and because of the weight difference between the swing arms on two sides of the rotary sphere, the swing arm on one side of the rotary sphere swings downwards at the moment, the swing arm on the other side of the rotary sphere swings upwards, and when the swing arm on the other side of the rotary sphere swings upwards, the lubricating grease impacts the swing arm on the other side of the rotary sphere, and the swing arm on one side of the rotary sphere swings upwards at the moment, so that the rotary sphere can be assisted to swing obliquely at an angle by utilizing the weight difference of the swing arm, and the rotary sphere swings obliquely at the lower end of the disc at the moment;

2. the ball rolls horizontally in the disc, and the ball rolls to the upper end of the inclined plate, so that the ball rolls downwards quickly and returns to the original position when the ball rolls at the rolling part of the upper end of the inclined plate, and at the moment, the ball returns to one side of the rotary ball when the ball rolls and impacts, and the ball can further assist the rotary ball to roll back and forth in an inclined way;

3. when the rotary sphere swings obliquely, the rotary disc is driven to swing obliquely through the connecting rod, and the outer side of the rotary disc is positioned at the inner side of the track at the upper end of the disc, and the track is in a circular ring shape, so that the rotary disc can rotate at 360 degrees on the inner side of the disc, and the penetrating shaft is driven to rotate synchronously when the rotary disc rotates, so that the transmission mechanism can assist the penetrating shaft to rotate at 360 degrees when the lubricating grease moves downwards for filling;

4. when running through the axle rotation, gear synchronous rotation drives snap ring synchronous rotation through the pinion during the gear rotation, and snap ring and scraper blade are horizontal rotation in the inside of hopper and remove, and during the snap ring rotation, the tray is lifted the lower extreme formation of snap ring, prevents that the snap ring from droing in one side of gear, and the snap ring wholly encircles in the outside rotatory removal that runs through the axle, can scrape the inside wall of hopper and remain lubricating grease when horizontal rotation removes and get, and the lubricating grease drops to the inside lower extreme of hopper after scraping, can avoid the condition that a large amount of lubricating grease remains at the inner wall of lubricating grease filling in-process hopper.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic cross-sectional view of a hopper according to the present invention.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 a according to the present invention.

Fig. 4 is a schematic diagram of a swing structure of a swing arm according to the present invention.

FIG. 5 is a schematic view of the disc assembly of the present invention.

Fig. 6 is a schematic view of a bump assembly according to the present invention.

FIG. 7 is a schematic view of a squeegee assembly according to the invention.

In fig. 1 to 7, the correspondence between the component names and the reference numerals is:

1-frame, 101-hopper, 102-capper, 103-conveyer belt, 104-filling head, 2-bracket, 201-disc, 202-rotary sphere, 203-swing arm, 204-sloping plate, 205-ball, 3-rotary disc, 301-connecting rod, 302-through shaft, 303-bump, 304-tray, 4-gear, 401-clasp, 402-tooth plate, 403-scraper.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present invention are within the scope of protection of the present invention.

Examples:

as shown in fig. 1 to 7:

example 1: the lubricating grease filling and sealing equipment comprises a frame 1, wherein a conveying belt 103 is arranged at the upper end of the frame 1 in a rotating mode, a filling assembly is arranged on the side face of the conveying belt 103, the filling assembly comprises a hopper 101, a filling head 104 and a liquid extraction cylinder, and a sealing machine 102 is arranged on the side face, close to the filling assembly, of the conveying belt 103;

wherein: the conveyer belt 103, the supporting motor is installed on the side face of the conveyer belt 103, the motor is electrically connected with a power supply through a power line, and the conveyer belt 103 sequentially transmits the lubricating grease container to the lower ends of the filling head 104 and the sealing machine 102;

the device comprises a hopper 101 and a filling head 104, wherein a transmission mechanism for preventing lubricating grease from adhering is arranged in the hopper 101, one end of the filling head 104 is respectively matched with a liquid suction cylinder for use, the filling head 104 is arranged at the lower end of the hopper 101 in a penetrating way, and the filling head 104 is used for filling lubricating grease;

the sealing machine 102 is arranged in a matched manner with the filling assembly, and an integral filling and sealing process is formed;

example 2: referring to fig. 2-5 of the drawings, it can be seen that, in embodiment 2, the transmission mechanism is different from embodiment 1 in that the transmission mechanism comprises a bracket 2, a disc 201, a rotary sphere 202, a swing arm 203, a sloping plate 204, balls 205, a rotary disc 3, a connecting rod 301 and a penetrating shaft 302, wherein the bracket 2 is installed below the inside of the hopper 101, the disc 201 is inlaid at the top end of the bracket 2, the rotary sphere 202 swings at the lower end of the disc 201, the swing arm 203 swings at two sides of the rotary sphere 202, the sloping plate 204 is inlaid at two sides of the inside of the disc 201, the balls 205 roll at two sides of the inside of the disc 201, the connecting rod 301 is inlaid at the upper end of the rotary sphere 202, and the rotary disc 3 and the penetrating shaft 302 sequentially rotate at the upper end of the connecting rod 301;

wherein: the support 2, the upper end of the support 2 is rotationally attached to the through shaft 302, the inner side of the upper end of the support 2 is provided with a groove, the groove is arranged in a triangle shape, the outer side of the through shaft 302 is rotationally attached to the groove, and the disc 201 is positioned at the inner side of the support 2;

the inner side of the upper end of the bracket 2 is provided with a groove, and the groove can limit the through shaft 302 to avoid downward displacement of the through shaft 302;

the diameter of the inner part of the disc 201 is smaller than 10cm, a track is arranged at the upper end of the disc 201, the track is arranged in a circular ring shape, the outer side of the rotating disc 3 slides in 360-degree rotation on the inner side of the track, a hole is arranged at the lower end of the disc 201, two sides of the hole are arranged in a semicircular shape, and the rotating sphere 202 rotates in 360-degree in the hole;

the diameter of the inner part of the disc 201 is smaller than 10cm, so that when the ball 205 rolls in the disc 201, the ball 205 can roll to one side of the sloping plate 204 quickly, and further the ball 205 can roll back and forth in the disc 201 quickly;

the rotary sphere 202 and the swing arms 203, the lengths of the swing arms 203 differ by 2-4cm, the swing arms 203 are positioned on two sides above the filling head 104, and the swing arms 203 swing obliquely on two sides of the rotary sphere 202;

because the lengths of the swing arms 203 differ by 2-4cm, when the grease is filled through the filling head 104, the grease impacts down to one side of the swing arms 203, and because of the weight difference between the swing arms 203, the swing arms 203 on one side of the swing sphere 202 swing down, the swing arms 203 on the other side of the swing sphere 202 swing up, as shown in fig. 4 of the specification, when the swing arms 203 on the other side of the swing sphere 202 swing up, the grease impacts to the swing arms 203 on the other side of the swing sphere 202, and at the moment, the swing arms 203 on one side of the swing sphere 202 swing up, so that the swing sphere 202 can be assisted to swing obliquely in an angle by utilizing the weight difference of the swing arms 203;

the inclined plate 204 and the balls 205, wherein the inclined plate 204 is inclined by 25-45 degrees, the lower end of the inclined plate 204 and the lower end of the balls 205 are arranged on the same horizontal plane, when the balls 205 are static, the balls 205 are positioned on two sides of the upper end of the rotary sphere 202, and the balls 205 roll in the disc 201 in a horizontal inclined manner;

the rotary disk 3 and the connecting rod 301, the rotary disk 3 rotates on the upper end of the disc 201, one end of the connecting rod 301 is positioned on the side surface of the rotary disk 3, the connecting rod 301 is inclined by 15-25 degrees, and the outer side wall of the rotary disk 3 is spaced 1-2cm from the inner wall of the track inside the disc 201;

when the rotary sphere 202 swings obliquely, the rotary sphere 202 drives the rotary disk 3 to swing obliquely through the connecting rod 301, and the upper end track of the disc 201 is arranged in a circular ring shape, so that the rotary disk 3 can rotate in 360 degrees in the track;

the outer side wall of the rotary disk 3 is spaced 1-2cm from the inner wall of the track inside the disc 201, so that the contact area between the rotary disk 3 and the inside of the disc 201 can be reduced, and the rotary disk 3 can rotate rapidly inside the disc 201 conveniently;

a penetrating shaft 302, wherein the penetrating shaft 302 penetrates and extends to the upper part of the inside of the hopper 101, the penetrating shaft 302 is positioned at the upper end of the rotating disk 3, and when the rotating disk 3 rotates, the penetrating shaft 302 synchronously rotates;

wherein: the filling head 104 pumps and fills lubricating grease in the hopper 101, the lubricating grease moves from top to bottom in the hopper 101, the lubricating grease impacts down to one side of the swing arm 203, because a weight difference exists between the swing arms 203 at two sides of the rotary sphere 202, the swing arm 203 at one side of the rotary sphere 202 swings down, the swing arm 203 at the other side of the rotary sphere 202 swings up, as shown in the attached figure 4 of the specification, when the swing arm 203 at the other side of the rotary sphere 202 swings up, the lubricating grease impacts to the swing arm 203 at the other side of the rotary sphere 202, and the swing arm 203 at one side of the rotary sphere 202 swings up, so that the rotary sphere 202 can be assisted to swing obliquely by utilizing the weight difference of the swing arm 203, and the rotary sphere 202 swings obliquely at the lower end of the disc 201;

the ball 205 rolls horizontally in the disc 201 when the rotary sphere 202 swings and collides with one side of the ball 205, the ball 205 rolls to the upper end of the inclined plate 204, and the inclined plate 204 is obliquely arranged, so that the ball 205 rolls downwards quickly and returns to the original position when the upper end of the inclined plate 204 rolls to the part, and at the moment, the ball 205 returns to the side of the rotary sphere 202 when the ball 205 rolls and collides, and the ball 205 can further assist the rotary sphere 202 to swing obliquely and reciprocally;

when the rotary sphere 202 swings obliquely, the rotary disc 3 is driven to swing obliquely through the connecting rod 301, and the outer side of the rotary disc 3 is positioned at the inner side of a track at the upper end of the disc 201, and the track is arranged in a circular ring shape, so that the rotary disc 3 can rotate at 360 degrees on the inner side of the disc 201, and when the rotary disc 3 rotates, the penetrating shaft 302 is driven to synchronously rotate, so that the transmission mechanism can assist the penetrating shaft 302 to rotate at 360 degrees when the lubricating grease moves downwards for filling;

example 3: referring to fig. 2, 6 and 7 of the drawings, embodiment 3 is different from

embodiment

1 and 2 in that the transmission mechanism comprises a bump 303, a tray 304, a gear 4, a snap ring 401, a tooth plate 402 and a scraper 403, wherein the bump 303 is embedded on the outer side of the through shaft 302, the tray 304 is slidably attached on the outer side of the bump 303, the gear 4 rotates on the upper end of the bump 303, the tooth plate 402 is rotationally embedded on the outer side of the gear 4, the snap ring 401 is embedded on one side of the tooth plate 402, and the scraper 403 swings on one side of the snap ring 401;

wherein: the lug 303 and the tray 304 are integrally arranged in a circular ring shape, the tray 304 is arranged in a disc shape, the inner side of the tray 304 is provided with a groove, the lug 303 is in sliding fit with the groove in the tray 304, and when the lug 303 rotates with the penetrating shaft 302, the tray 304 is in a static state;

the tray 304 is arranged in a disc shape, the tray 304 lifts the lower end of the clamping ring 401, and the clamping ring 401 is prevented from falling off at one side of the gear 4;

the gear 4 and the tooth plate 402 are distributed at the upper end and the lower end in the hopper 101, the gear 4 is matched with the tooth plate 402, the tooth plate 402 is inclined by 25-45 degrees, the whole tooth plate 402 is distributed in a semicircular arc shape, and the tooth plate 402 and the gear 4 are horizontally rotationally embedded;

the lower end of the clamping ring 401 is in sliding fit with the upper end of the tray 304, the shape of the clamping ring 401 is matched with the distribution shape of the tooth plates 402, one side of the scraping plate 403 is in sliding friction with the inner wall of the hopper 101, and the scraping plate 403 is arranged in a transverse T shape;

the gear 4, the clamping ring 401, the tooth piece 402 and the scraping plate 403 are arranged in a matching way and are respectively arranged at the upper end and the lower end of the outer side of the through shaft 302;

wherein: when the through shaft 302 rotates, the gear 4 synchronously rotates, the gear 4 drives the snap ring 401 to synchronously rotate and move through the tooth piece 402 when rotating, the snap ring 401 and the scraping plate 403 horizontally rotate and move in the hopper 101, when the snap ring 401 rotates, the tray 304 lifts the lower end of the snap ring 401 to prevent the snap ring 401 from falling off at one side of the gear 4, the snap ring 401 integrally surrounds the outer side of the through shaft 302 and moves rotationally, the scraping plate 403 can scrape residual lubricating grease on the inner wall of the hopper 101 when horizontally rotating and moves, the lubricating grease after scraping falls to the lower end in the hopper 101, and the condition that a large amount of lubricating grease remains on the inner wall of the hopper 101 in the lubricating grease filling process can be avoided.

Claims

1. Lubricating grease filling sealing equipment, including frame (1), its characterized in that: the upper end of the frame (1) is provided with a conveyer belt (103) in a rotating mode, the side face of the conveyer belt (103) is provided with a filling assembly, the filling assembly comprises a hopper (101), a filling head (104) and a liquid pumping cylinder, and the side face, close to the filling assembly, of the conveyer belt (103) is provided with a sealing machine (102);

a matched motor is arranged on the side face of the conveying belt (103), the motor is electrically connected with a power supply through a power line, and the conveying belt (103) sequentially transmits lubricating grease containers to the lower ends of the filling head (104) and the sealing machine (102);

the device comprises a hopper (101) and a filling head (104), wherein a transmission mechanism for preventing lubricating grease from adhering is arranged in the hopper (101), one end of the filling head (104) is respectively matched with a liquid suction cylinder for use, and the filling head (104) is arranged at the lower end of the hopper (101) in a penetrating way;

the transmission mechanism comprises a support (2), a disc (201), a rotary sphere (202), swing arms (203), inclined plates (204), balls (205), a rotary disc (3), a connecting rod (301) and a penetrating shaft (302), wherein the support (2) is arranged below the inside of the hopper (101), the disc (201) is inlaid at the top end of the support (2), the rotary sphere (202) swings at the lower end of the disc (201), the swing arms (203) swing at the two sides of the rotary sphere (202), the inclined plates (204) are inlaid at the two sides of the inside of the disc (201), the balls (205) roll at the two sides of the inside of the disc (201), the connecting rod (301) is inlaid at the upper end of the rotary sphere (202), and the rotary disc (3) and the penetrating shaft (302) sequentially rotate at the upper end of the connecting rod (301);

the diameter of the inner part of the disc (201) is smaller than 10cm, the upper end of the disc (201) is provided with a track which is in a circular ring shape, the outer side of the rotary disc (3) rotates and slides at 360 degrees on the inner side of the track, the lower end of the disc (201) is provided with holes, the two sides of each hole are in a semicircular arc shape, and the rotary sphere (202) rotates at 360 degrees in the holes;

the rotary disc (3) rotates at the upper end of the disc (201), one end of the connecting rod (301) is positioned on the side surface of the rotary disc (3), the connecting rod (301) is inclined by 15-25 degrees, and the outer side wall of the rotary disc (3) is spaced 1-2cm from the inner wall of the track inside the disc (201);

the penetrating shaft (302) penetrates through the hopper (101) and extends to the upper side of the inside of the hopper (101), the penetrating shaft (302) is positioned at the upper end of the rotating disc (3), and when the rotating disc (3) rotates, the penetrating shaft (302) synchronously rotates;

the transmission mechanism further comprises a protruding block (303), a tray (304), a gear (4), a clamping ring (401), a tooth plate (402) and a scraping plate (403), wherein the protruding block (303) is inlaid on the outer side of the penetrating shaft (302), the tray (304) is in sliding fit with the outer side of the protruding block (303), the gear (4) rotates at the upper end of the protruding block (303), the tooth plate (402) is rotationally inlaid on the outer side of the gear (4), the clamping ring (401) is inlaid on one side of the tooth plate (402), and the scraping plate (403) swings on one side of the clamping ring (401).

2. The grease filling and sealing apparatus of claim 1, wherein: the upper end of the support (2) is rotationally attached to the through shaft (302), the inner side of the upper end of the support (2) is provided with a groove, the groove is arranged in a triangular shape, the outer side of the through shaft (302) is rotationally attached to the groove, and the disc (201) is positioned on the inner side of the support (2).

3. The grease filling and sealing apparatus of claim 1, wherein: the lengths of the swing arms (203) differ by 2-4cm, the swing arms (203) are positioned on two sides above the filling head (104), and the swing arms (203) swing obliquely on two sides of the rotary sphere (202);

the inclined plate (204) and the balls (205), wherein the inclined plate (204) is inclined by 25-45 degrees, the lower end of the inclined plate (204) and the lower end of the balls (205) are arranged on the same horizontal plane, when the balls (205) are static, the balls (205) are positioned on two sides of the upper end of the rotary sphere (202), and the balls (205) roll in the disc (201) in a horizontal inclined mode.

4. The grease filling and sealing apparatus of claim 1, wherein: the lug (303) is integrally arranged in a circular ring shape, the tray (304) is arranged in a disc shape, the inner side of the tray (304) is provided with a groove, the lug (303) is in sliding fit with the groove in the tray (304), and when the lug (303) rotates with the through shaft (302), the tray (304) is in a static state;

the gear (4) and the tooth plates (402), the gear (4) is distributed at the upper end and the lower end inside the hopper (101), the gear (4) and the tooth plates (402) are arranged in a matched mode, and the tooth plates (402) are inclined by 25-45 degrees.

5. The grease filling and sealing apparatus of claim 1, wherein: the lower end of the clamping ring (401) is in sliding fit with the upper end of the tray (304), the shape of the clamping ring (401) is matched with the distribution shape of the tooth plates (402), one side of the scraping plate (403) is in sliding friction with the inner wall of the hopper (101), and the scraping plate (403) is in a transverse T shape;

the gear (4), the snap ring (401), the tooth piece (402) and the scraping plate (403) are arranged in a matching way and are respectively arranged at the upper end and the lower end outside the through shaft (302).