CN116238809A

CN116238809A - Container for silica gel production

Info

Publication number: CN116238809A
Application number: CN202310092499.2A
Authority: CN
Inventors: 陈翠华
Original assignee: Shenzhen Sencheng Rubber Co ltd
Current assignee: Shenzhen Sencheng Rubber Co ltd
Priority date: 2023-02-10
Filing date: 2023-02-10
Publication date: 2023-06-09

Abstract

The invention provides a container for producing silica gel, which comprises a scraping plate, a hollow ball, a folding pipe, a convex strip, a push rod, a disc, a piston rod and a deformation layer, wherein the pipe is wound on the outer side of the lower end of a clamping ring, the hollow ball is in sliding nesting with the lower end of the clamping ring, the folding pipe is in sliding folding with the upper end of the hollow ball, the convex strip is in sliding nesting with the upper end of the clamping ring, the push rod is in sliding with the lower end of the convex strip, the disc is arranged on the outer side wall of the clamping ring, the piston rod is in sliding with one end of the push rod close to the disc, the deformation layer is embedded with one end of the disc far away from the clamping ring, after the silica gel is discharged through a conveying pipe, the height of the silica gel in a storage tank is continuously reduced, at the moment, the clamping ring gradually slides downwards on the inner wall of the storage tank, when the clamping ring slides downwards, the scraping plate can be used for scraping the residual silica gel on the inner wall of the storage tank, and the silica gel is prevented from remaining on the inner wall of the storage tank after the silica gel is discharged.

Description

Container for silica gel production

Technical Field

The invention relates to the technical field of silica gel production, in particular to a container for silica gel production.

Background

The silica gel is a porous substance with different particle sizes and is formed by properly dehydrating silica gel, the silica gel has an open porous structure, the silica gel raw material is usually in a block shape, a vulcanizing machine is added in the silica gel raw material, the silica gel is mixed by a rubber mixing machine, the mixed silica gel is in a fluid state, and the silica gel is placed in a container for cooling at the moment so as to facilitate the subsequent cutting and processing, and the silica gel is aimed at the technical teaching of the silica gel container;

the following problems were found in the study of silica gel containers:

1. after the silica gel is stored in the silica gel container, the silica gel is required to be piled up and stored, so that the silica gel in the silica gel container is easy to enter air, and bubbles are easy to appear in the silica gel, and the silica gel container cannot beat and remove the bubbles in the silica gel after the silica gel falls;

2. because the silica gel is in a fluid state in the production process, the whole silica gel is sticky, and the silica gel is easy to remain on the inner wall of the silica gel container after the silica gel is discharged from the silica gel container, the silica gel container cannot scrape the silica gel on the inner wall after the silica gel is discharged;

at present, a processing method of coating silica gel on a CN112643969A glass container and the glass container coated with silica gel in the prior art disclose a silica gel container, and a glass container body and a silica gel layer processed by adopting the technical scheme can be closely attached to each other, no gap is reserved between the glass container body and the silica gel layer for dirt collection, and the cleaning is convenient; the dosage of the injected silica gel can be controlled according to the requirement, so that the glass container with the silica gel layers coated with different thickness, different colors and patterns can be processed according to the requirement, and the customization requirement of consumers or purchasing operators can be met;

the invention mainly solves the problem that the silica gel container can not scrape the silica gel on the inner wall after the silica gel is discharged.

Disclosure of Invention

In order to solve the technical problems, the invention provides a container for producing silica gel, which solves the problems described in the background art.

The invention discloses a container for producing silica gel, which is prepared from the following steps: the utility model provides a container is used in silica gel production, includes the holding vessel, and the upper end of this holding vessel runs through there is the inlet pipe, the lower extreme of holding vessel runs through there is ejection of compact subassembly, and ejection of compact subassembly includes conveying pipeline and motor, and the conveying pipeline link up with the lower extreme of holding vessel, and the one end of conveying pipeline is located to the motor, and the track has been seted up to the both sides of holding vessel.

Further, the inside slip nested of being close to orbital inboard of holding vessel has the snap ring, the inboard of snap ring is equipped with the slip subassembly of auxiliary storage tank ejection of compact, and the holding vessel lower extreme is close to one side rotation of conveying pipeline and has the valve.

Further, the snap ring is arranged in a circular ring shape, the snap ring vertically slides in the storage tank through the track, and the inside of the snap ring is hollow.

Further, the motor is connected with the power supply loop through the power line, one end of the motor, which is close to the conveying pipe, is rotated with the auger, and the auger is driven to rotate at 360 degrees in the conveying pipe through the motor.

Further, the inner wall of holding vessel upper end articulates there is the rotary sphere, the lower extreme swing of rotary sphere has the swing frame, the both sides swing of swing frame lower extreme has first pendulum and second pendulum, the swing of one side that the swing frame is close to the second pendulum has the swash plate.

Further, the swinging frame swings at 180 degrees in the storage tank through the rotary sphere, the swinging frame is semicircular, and the semicircular angle is 180 degrees.

Furthermore, the two sides of the upper end of the storage tank are penetrated with feeding pipes, the inclined plate is inclined downwards by 15-45 degrees, and the inclined plate and the feeding pipes are vertically and correspondingly arranged.

Further, the lower end of the first pendulum bob extends to the lower side of the storage tank, the length of the first pendulum bob is 5-10cm larger than that of the second pendulum bob, and weights are hung at the lower ends of the first pendulum bob and the second pendulum bob.

Further, the sliding component comprises a scraping plate, a hollow ball, a folding pipe, a convex strip, a push rod, a disc, a piston rod and a deformation layer, wherein the pipe is wound on the outer side of the lower end of the clamping ring, the hollow ball is slidably nested at the lower end of the clamping ring, the folding pipe is slidably folded at the upper end of the hollow ball, the convex strip is slidably nested at the upper end of the clamping ring, the push rod is slidably arranged at the lower end of the convex strip, the disc is arranged on the outer side wall of the clamping ring, the piston rod is slidably arranged at one end, close to the disc, of the push rod, and the deformation layer is inlaid at one end, far away from the clamping ring, of the disc.

Further, the lower end of the scraping plate is vertically and slidably attached to the inner wall of the storage tank, and the hollow ball is located on one side of the scraping plate.

Further, the folding pipe is located in the clamping ring, the hollow ball is provided with a plurality of lower ends located at the clamping ring, the hollow ball is vertically and slidably nested with the clamping ring through the folding pipe, the inside of the folding pipe is hollow, and the folding pipe is wavy.

Further, the both sides of snap ring upper end are located to the sand grip, and the lower extreme of sand grip distributes and has a plurality of push rods, and the push rod is semicircle annular, and semicircle ring angle is 180, and the other end of push rod extends to the inboard of disc, and the sand grip is in one side that the holding vessel inner wall was kept away from to the snap ring upper end.

Further, the disc surrounds in the outside of snap ring, and the piston rod is in the inside of disc, and push rod and disc slip nest, one side that the snap ring was kept away from to the disc and the inner wall slip laminating of holding vessel.

Further, one end of the piston rod, which is close to the deformation layer, is in sliding fit with the inner wall of the disc, the piston rod is in a transverse T shape, the deformation layer is in a wavy shape, and the thickness of the deformation layer is smaller than 0.5cm.

The beneficial effects are that:

1. the silica gel falls into the storage tank through the feeding pipe, and as the inclined plate is inclined downwards by 15-45 degrees, the silica gel falls to the upper end of the inclined plate through the feeding pipe, and meanwhile, the silica gel can be prevented from being piled up at the upper end of the inclined plate by utilizing the inclination of the inclined plate, the silica gel falls, and the inclined plate is arranged on one side of the swing frame, which is close to the second pendulum, and the weight of one side of the swing frame, which is close to the second pendulum, is larger than that of the other side, so that the swing frame drives the second pendulum to slide downwards by rotating the ball body, and at the moment, one side of the swing frame, which is close to the first pendulum, swings upwards;

2. the swing frame is provided with the rotary sphere, so that after the silica gel falls on the upper end of the inclined plate, the whole swing frame can automatically rotate in the storage tank through the rotary sphere, and the first pendulum is 5-10cm longer than the second pendulum, so that weight difference is formed between the first pendulum and the second pendulum conveniently, and the first pendulum can quickly return downwards by utilizing self weight after swinging upwards;

3. the second pendulum bob can assist the first pendulum bob to swing upwards again after the silica gel falls down again, and through the up-and-down swing of the first pendulum bob and the second pendulum bob, the silica gel in the storage tank can be beaten, so that the condition that the silica gel in the storage tank generates bubbles due to the fact that the silica gel exists in the storage tank after falling down is avoided, and the storage tank can beaten and remove the air in the silica gel after the silica gel falls down;

4. after the silica gel enters the storage tank, because the clamping ring is in a circular ring shape, the silica gel penetrates through the inner part of the clamping ring to enter the inner lower end of the storage tank, when part of the silica gel falls to the upper end of the clamping ring, because the convex strips are positioned on one side of the upper end of the clamping ring away from the inner wall of the storage tank, when the silica gel falls to the lower end of the clamping ring, the silica gel can fall to the upper end of the convex strips, the silica gel is extruded to the upper end of the convex strips, the convex strips slide towards the inner part of the clamping ring, and then are extruded to one end of the push rod, and because the push rod is in a semicircular ring shape, when the convex strips slide downwards, the convex strips are arranged by the shape of the push rod, and can drive the push rod to rapidly extrude to one end of the piston rod;

5. the piston rod is fast slid to the inside of the disc due to the assistance of the push rod, when the piston rod slides to the inside of the disc, the pressure inside the disc is continuously increased due to the fact that one end of the piston rod, which is close to the deformation layer, is in sliding fit with the inner wall of the disc, and then the deformation layer can deform on one side of the disc, the deformation layer is wavy, so that the deformation layer can be further in fit with the silica gel on the inner wall of the storage tank, when the silica gel drops to the upper end carelessly, the contact area between the clamp ring and the storage tank is further increased by the deformation layer, and the clamp ring is prevented from being sunk into the silica gel due to the weight of the silica gel;

6. after the silica gel gradually increases, the silica gel is in the lower extreme to the snap ring, and the silica gel can assist the snap ring in the inside upwards slip of holding vessel, after the silica gel passes through conveying pipeline discharge, the inside silica gel of holding vessel highly constantly reduces, and the snap ring gradually slides down in the inner wall of holding vessel this moment, and when the snap ring slides down, can form the scraping to holding vessel inner wall residual silica gel by utilizing the scraper blade, avoids the silica gel to remain in the inner wall of holding vessel to make this kind of silica gel container can be after discharging silica gel, avoid the silica gel to remain in the inner wall.

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 storage tank according to the present invention.

Fig. 3 is a swing schematic view of the swing frame of the present invention.

Fig. 4 is a schematic view of the bottom structure of the snap ring of the present invention.

FIG. 5 is a schematic diagram of a cross-sectional structure of a snap ring according to the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 6 a according to the present invention.

FIG. 7 is a schematic view of a push rod assembly according to the present invention.

FIG. 8 is a schematic cross-sectional view of a disk according to the present invention.

In fig. 1 to 8, the correspondence between the component names and the reference numerals is:

1-storage tank, 101-feeding pipe, 102-feeding pipe, 103-motor, 104-track, 2-rotary sphere, 201-swing frame, 202-sloping plate, 203-first pendulum, 204-second pendulum, 3-clasp, 301-scraper, 302-hollow sphere, 303-folding pipe, 4-convex strip, 401-push rod, 5-disc, 501-piston rod, 502-deformation layer.

Description of the embodiments

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 8:

example 1: the utility model provides a container is used in silica gel production, includes holding vessel 1, and the upper end of this holding vessel 1 runs through has inlet pipe 101, and the lower extreme of holding vessel 1 runs through has ejection of compact subassembly, and ejection of compact subassembly includes conveying pipeline 102 and motor 103, and conveying pipeline 102 link up with the lower extreme of holding vessel 1, and motor 103 locates the one end of conveying pipeline 102, and track 104 has been seted up to the both sides of holding vessel 1;

wherein: the storage tank comprises a storage tank 1 and a rail 104, wherein a clamping ring 3 is slidably nested inside the storage tank 1 and close to the inner side of the rail 104, a sliding component for assisting the discharge of the storage tank 1 is arranged inside the clamping ring 3, and a valve is rotated at one side of the lower end of the storage tank 1 close to a conveying pipe 102;

the clamping ring 3 is arranged in a circular ring shape, the clamping ring 3 vertically slides in the storage tank 1 through the track 104, the clamping ring 3 is hollow, and the clamping ring 3 and the feeding pipe 101 are vertically staggered;

the conveying pipe 102 and the motor 103, the motor 103 is connected with a power circuit through a power line, one end of the motor 103, which is close to the conveying pipe 102, is rotated with a packing auger, and the packing auger is driven by the motor 103 to rotate at 360 degrees in the conveying pipe 102;

wherein: the silica gel enters the storage tank 1 through the feeding pipe 101 for storage, a valve is rotated on one side, close to the conveying pipe 102, of the lower end of the storage tank 1, the valve is manually opened, the silica gel in the storage tank 1 can enter the conveying pipe 102, a packing auger at one end of the motor 103 rotates, and the packing auger can assist the silica gel to flow in the conveying pipe 102;

example 2: referring to fig. 1-3 of the drawings, embodiment 2 is different from embodiment 1 in that a rotary sphere 2 is hinged on the inner wall of the upper end of a storage tank 1, a swinging frame 201 swings on the lower end of the rotary sphere 2, a first pendulum 203 and a second pendulum 204 swing on two sides of the lower end of the swinging frame 201, and a sloping plate 202 swings on one side of the swinging frame 201 close to the second pendulum 204;

wherein: the rotary sphere 2 and the swinging frame 201, wherein the swinging frame 201 swings at 180 degrees in the storage tank 1 through the rotary sphere 2, the swinging frame 201 is in a semicircular shape, and the angle of the semicircular ring is 180 degrees;

the swing frame 201 is semicircular, the angle of the semicircular ring is 180 degrees, and silica gel can be prevented from accumulating at the upper end of the swing frame 201

The inclined plate 202 penetrates through the feed pipe 101 at two sides of the upper end of the storage tank 1, the inclined plate 202 is inclined downwards by 15-45 degrees, and the inclined plate 202 and the feed pipe 101 are vertically and correspondingly arranged;

the inclined plate 202 is inclined downwards by 15-45 degrees, and after the silica gel falls to the upper end of the inclined plate 202 through the feeding pipe 101, the silica gel can be prevented from accumulating on the upper end of the inclined plate 202 by utilizing the inclination of the inclined plate 202;

the lower ends of the first pendulum 203 extend to the lower part inside the storage tank 1, the first pendulum 203 is 5-10cm longer than the second pendulum 204, and weights are hung at the lower ends of the first pendulum 203 and the second pendulum 204;

the lower ends of the first pendulum 203 and the second pendulum 204 are respectively hung with a heavy object, and the heavy object is a metal hammer with the weight of 200-500 g;

the length of the first pendulum 203 is 5-10cm greater than that of the second pendulum 204, so that weight difference is formed between the first pendulum 203 and the second pendulum 204 conveniently, and further weight difference is formed at two sides of the lower end of the swinging frame 201 conveniently;

wherein: the silica gel falls into the storage tank 1 through the feed pipe 101, because the inclined plate 202 is inclined downwards by 15-45 degrees, the silica gel falls to the upper end of the inclined plate 202 through the feed pipe 101, and meanwhile, the silica gel can be prevented from being accumulated at the upper end of the inclined plate 202 by utilizing the inclination of the inclined plate 202, the silica gel falls, and the inclined plate 202 is arranged on one side of the swing frame 201 close to the second pendulum 204, at the moment, the weight of one side of the swing frame 201 close to the second pendulum 204 is larger than that of the other side, so that the swing frame 201 drives the second pendulum 204 to slide downwards through the rotary sphere 2, and at the moment, one side of the swing frame 201 close to the first pendulum 203 swings upwards;

because the swing frame 201 is provided with the rotary sphere 2, after the silica gel falls from the upper end of the inclined plate 202, the whole swing frame 201 can automatically rotate in the storage tank 1 through the rotary sphere 2, and because the first pendulum 203 is 5-10cm longer than the second pendulum 204, a weight difference is conveniently formed between the first pendulum 203 and the second pendulum 204, so that the first pendulum 203 can quickly return downwards by utilizing the weight of the first pendulum 203 after swinging upwards, and reference can be made to an attached figure 3 in the specification;

the second pendulum 204 can assist the first pendulum 203 to swing upwards again after the silica gel falls again, and the silica gel in the storage tank 1 can be beaten through the up-down swinging of the first pendulum 203 and the second pendulum 204, so that the condition that the silica gel in the storage tank 1 generates bubbles due to the fact that the silica gel is inside after falling is avoided, and the storage tank 1 can beaten and remove the air in the silica gel after the silica gel falls;

example 3: referring to fig. 2 and 4-8 of the drawings, embodiment 3 is different from

embodiment

1 and 2 in that the sliding assembly comprises a scraper 301, a hollow ball 302, a folding tube 303, a protruding bar 4, a pushing bar 401, a disc 5, a piston rod 501 and a deformation layer 502, wherein the tube 301 surrounds the outer side of the lower end of the snap ring 3, the hollow ball 302 is slidably nested at the lower end of the snap ring 3, the folding tube 303 is slidably folded at the upper end of the hollow ball 302, the protruding bar 4 is slidably nested at the upper end of the snap ring 3, the pushing bar 401 is slidably nested at the lower end of the protruding bar 4, the disc 5 is mounted on the outer side wall of the snap ring 3, the piston rod 501 is slidably nested at the end of the pushing bar 401 close to the disc 5, and the deformation layer 502 is nested at the end of the disc 5 far from the snap ring 3;

wherein: the lower end of the scraper 301 is vertically and slidably attached to the inner wall of the storage tank 1, and the hollow ball 302 is positioned on one side of the scraper 301;

when the clamp ring 3 moves downwards, the scraping plate 301 scrapes residual silica gel on the inner wall of the storage tank 1;

the hollow ball 302 and the folding tube 303, the folding tube 303 is positioned in the clamping ring 3, the hollow ball 302 is provided with a plurality of lower ends which are positioned at the clamping ring 3, the hollow ball 302 is vertically and slidably nested with the clamping ring 3 through the folding tube 303, the inside of the folding tube 303 is hollow, and the folding tube 303 is wavy;

the hollow balls 302 are arranged at the lower ends of the clamping rings 3, and when the silica gel is arranged at the lower ends of the clamping rings 3, the hollow balls 302 can reduce the contact area between the clamping rings 3 and the silica gel;

the push rods 401 are semicircular, the angle of the semicircular ring is 180 degrees, the other end of each push rod 401 extends to the inner side of the disc 5, and the convex rods 4 are located on one side, far away from the inner wall of the storage tank 1, of the upper end of the clamping ring 3;

the raised strips 4 are positioned on one side, far away from the inner wall of the storage tank 1, of the upper end of the clamping ring 3, and when the silica gel falls to the lower end of the clamping ring 3, the silica gel can fall to the upper ends of the raised strips 4;

the push rod 401 is semicircular, the semicircular angle is 180 degrees, when the convex strip 4 slides downwards, the convex strip 4 can drive the push rod 401 to rapidly extrude to one end of the piston rod 501 by utilizing the shape of the push rod 401;

the disc 5 surrounds the outer side of the clamping ring 3, the piston rod 501 is positioned in the disc 5, the push rod 401 is slidably nested with the disc 5, and one side of the disc 5 away from the clamping ring 3 is slidably attached to the inner wall of the storage tank 1;

the outer side of the clamping ring 3 is provided with holes in a penetrating way, the discs 5 are arranged in the holes, and the number of the discs 5 is matched with that of the push rods 401;

the piston rod 501 and the deformation layer 502, one end of the piston rod 501 close to the deformation layer 502 is in sliding fit with the inner wall of the disc 5, the piston rod 501 is in a transverse T shape, the deformation layer 502 is in a wavy shape, the thickness of the deformation layer 502 is smaller than 0.5cm, and the deformation layer 502 is made of a deformable material such as rubber material;

the thickness of the deformation layer 502 is smaller than 0.5cm, so that the situation that the deformation layer 502 cannot be deformed rapidly due to the thicker deformation layer 502 is avoided;

when the piston rod 501 slides towards the inside of the disc 5, as one end of the piston rod 501, which is close to the deformation layer 502, is in sliding fit with the inner wall of the disc 5, the pressure inside the disc 5 is continuously increased, and the deformation layer 502 can deform at one side of the disc 5, reference can be made to the description of fig. 8, and the specific principle can be referred to the inflating ball principle;

wherein: after the silica gel enters the storage tank 1, because the clamp ring 3 is in a ring shape, the silica gel penetrates through the inside of the clamp ring 3 and enters the lower end of the inside of the storage tank 1, when part of the silica gel drops to the upper end of the clamp ring 3, because the raised strips 4 are positioned on one side of the upper end of the clamp ring 3 away from the inner wall of the storage tank 1, when the silica gel drops to the lower end of the clamp ring 3, the silica gel can drop to the upper ends of the raised strips 4, the silica gel is extruded to the upper ends of the raised strips 4, the raised strips 4 slide towards the inside of the clamp ring 3, the raised strips 4 are extruded to one end of the push rod 401 at the moment, and because the push rod 401 is in a semicircular shape, when the raised strips 4 slide downwards, the raised strips 4 can drive the push rod 401 to be rapidly extruded to one end of the piston rod 501 by utilizing the shape setting of the push rod 401;

the piston rod 501 is assisted by the push rod 401, the piston rod 501 rapidly slides towards the inside of the disc 5, when the piston rod 501 slides towards the inside of the disc 5, as one end of the piston rod 501, which is close to the deformation layer 502, is in sliding fit with the inner wall of the disc 5, the pressure inside the disc 5 is continuously increased, and then the deformation layer 502 can deform at one side of the disc 5, the deformation layer 502 is wavy, so that the deformation layer 502 can be further in fit with the silica gel on the inner wall of the storage tank 1, and when the silica gel drops to the upper end carelessly, the contact area between the clamp ring 3 and the storage tank 1 is further increased by the deformation layer 502, and further the clamp ring 3 is prevented from sinking into the silica gel due to the weight of the silica gel;

after the silica gel gradually increases, the silica gel is in the lower extreme to snap ring 3, and the silica gel can assist snap ring 3 in the inside of holding vessel 1 upwards slide, after the silica gel passes through conveying pipeline 102 discharge, the inside silica gel height of holding vessel 1 constantly reduces, and snap ring 3 gradually slides down in the inner wall of holding vessel 1 this moment, and when snap ring 3 slides down, utilize scraper blade 301 to form scraping the residual silica gel of holding vessel 1 inner wall, avoid silica gel to remain in the inner wall of holding vessel 1 to make this kind of silica gel container can be after discharging silica gel, avoid silica gel to remain in the inner wall.

Claims

1. The utility model provides a container is used in silica gel production, includes holding vessel (1), its characterized in that: the upper end of this holding vessel (1) runs through there is inlet pipe (101), the lower extreme of holding vessel (1) runs through there is ejection of compact subassembly, and ejection of compact subassembly includes conveying pipeline (102) and motor (103), and conveying pipeline (102) link up with the lower extreme of holding vessel (1), and one end of conveying pipeline (102) is located to motor (103), and track (104) have been seted up to the both sides of holding vessel (1).

2. The container for producing silica gel according to claim 1, wherein: a clamping ring (3) is slidably nested inside the storage tank (1) and close to the inner side of the track (104), a sliding component for assisting the discharge of the storage tank (1) is arranged inside the clamping ring (3), and a valve is rotated at one side, close to the conveying pipe (102), of the lower end of the storage tank (1);

the clamping ring (3), the clamping ring (3) is arranged in a circular ring shape, the clamping ring (3) vertically slides in the storage tank (1) through the track (104), the clamping ring (3) is hollow, and the clamping ring (3) and the feeding pipe (101) are vertically staggered;

the conveying pipe (102) and the motor (103), the motor (103) is connected with a power circuit through a power line, one end of the motor (103) close to the conveying pipe (102) rotates to form an auger, and the auger is driven to rotate at 360 degrees in the conveying pipe (102) through the motor (103).

3. The container for producing silica gel according to claim 1, wherein: the inner wall of holding vessel (1) upper end articulates there is rotatory spheroid (2), the lower extreme swing of rotatory spheroid (2) has swing frame (201), the both sides swing of swing frame (201) lower extreme has first pendulum (203) and second pendulum (204), the swing of one side that swing frame (201) is close to second pendulum (204) has swash plate (202).

4. A container for producing silica gel according to claim 3, wherein: the swinging frame (201) swings at 180 degrees in the storage tank (1) through the rotary sphere (2), the swinging frame (201) is in a semicircular shape, and the semicircular angle is 180 degrees.

5. A container for producing silica gel according to claim 3, wherein: the two sides of the upper end of the storage tank (1) are penetrated with a feed pipe (101), the inclined plate (202) is inclined downwards by 15-45 degrees, and the inclined plate (202) and the feed pipe (101) are vertically and correspondingly arranged.

6. A container for producing silica gel according to claim 3, wherein: the lower end of the first pendulum bob (203) extends to the lower side of the inside of the storage tank (1), the length of the first pendulum bob (203) is 5-10cm greater than that of the second pendulum bob (204), and weights are hung at the lower ends of the first pendulum bob (203) and the second pendulum bob (204).

7. The container for producing silica gel according to claim 2, wherein: the sliding assembly comprises a scraping plate (301), a hollow ball (302), a folding pipe (303), a convex strip (4), a push rod (401), a disc (5), a piston rod (501) and a deformation layer (502), wherein the pipe (301) surrounds the outer side of the lower end of the clamping ring (3), the hollow ball (302) is slidably nested at the lower end of the clamping ring (3), the folding pipe (303) is slidably folded at the upper end of the hollow ball (302), the convex strip (4) is slidably nested at the upper end of the clamping ring (3), the push rod (401) is slidably arranged at the lower end of the convex strip (4), the disc (5) is arranged on the outer side wall of the clamping ring (3), the piston rod (501) is slidably arranged at one end, close to the disc (5), of the push rod (401), and the deformation layer (502) is inlaid at one end, far away from the clamping ring (3), of the disc (5).

8. The container for producing silica gel according to claim 7, wherein: the lower end of the scraper (301) is vertically and slidably attached to the inner wall of the storage tank (1), and the hollow ball (302) is positioned on one side of the scraper (301).

9. The container for producing silica gel according to claim 7, wherein: the folding pipe (303) is positioned in the clamping ring (3), a plurality of hollow balls (302) are arranged at the lower ends of the clamping ring (3), the hollow balls (302) are vertically and slidably nested with the clamping ring (3) through the folding pipe (303), the inside of the folding pipe (303) is hollow, and the folding pipe (303) is wavy;

the utility model provides a sand grip (4) and push rod (401), both sides of snap ring (3) upper end are located to sand grip (4), and the lower extreme of sand grip (4) distributes and has a plurality of push rods (401), and push rod (401) are semicircle annular, and semicircle ring angle is 180, and the other end of push rod (401) extends to the inboard of disc (5), and sand grip (4) are in one side that the inner wall of holding vessel (1) was kept away from to snap ring (3) upper end.

10. The container for producing silica gel according to claim 7, wherein: the disc (5) surrounds the outer side of the clamping ring (3), the piston rod (501) is positioned in the disc (5), the push rod (401) is in sliding nesting with the disc (5), and one side of the disc (5) away from the clamping ring (3) is in sliding fit with the inner wall of the storage tank (1);

the piston rod (501) and the deformation layer (502), one end of the piston rod (501) close to the deformation layer (502) is in sliding fit with the inner wall of the disc (5), the piston rod (501) is in a transverse T shape, the deformation layer (502) is in a wavy shape, and the thickness of the deformation layer (502) is smaller than 0.5cm.