CN108663922B

CN108663922B - Carbon powder box for printer

Info

Publication number: CN108663922B
Application number: CN201810448383.7A
Authority: CN
Inventors: 夏领兵; 吴贺
Original assignee: Zhongshan Yuanyang Office Consumables Co ltd
Current assignee: Zhongshan Yuanyang office consumables Co.,Ltd.
Priority date: 2018-05-11
Filing date: 2018-05-11
Publication date: 2021-06-18
Anticipated expiration: 2038-05-11
Also published as: CN108663922A

Abstract

The invention relates to the field of printing consumable equipment, in particular to a toner cartridge for a printer, which comprises a storage cylinder, a flow gathering sleeve, a guide sleeve, a sealing end cover, a driving structure, a stirring rod and a limiting structure, wherein the storage cylinder is arranged on the storage cylinder; the bottom end of the storage cylinder of a cylindrical structure for storing the carbon powder is provided with a flow gathering sleeve of a truncated cone-shaped structure for guiding the carbon powder; one end of the storage cylinder close to the flow gathering sleeve is provided with a guide sleeve of which the bottom end is of a circular truncated cone-shaped structure and which is used for adding carbon powder to printing equipment or a storage box body; the bottom end of the guide sleeve is provided with a sealing end cover and a limiting structure which are used for sealing the guide sleeve; one end of the storage cylinder, which is far away from the flow gathering sleeve, is provided with a driving structure for driving the stirring rod. The flow gathering sleeve is of a round table-shaped structure, so that various packaged carbon powder can be conveniently added into the storage cylinder, and the guide sleeve is matched with the round table-shaped guide sleeve for use, so that the carbon powder can be conveniently added into printing equipment, or the storage box body is replaced with the carbon powder, the operation is more convenient, the leakage of the carbon powder is effectively prevented, and the adding quality is improved.

Description

Carbon powder box for printer

Technical Field

The invention relates to the field of printing consumable equipment, in particular to a carbon powder box for a printer.

Background

The printer, also called as a printer, is a computer output device, which can permanently output data stored in a computer to paper or transparent film in a text or graphic manner, and the toner cartridges used in the printer are divided into two types: one is a copying consumable product provided for a multifunctional copying machine and a laser printer and directly connected with the printer, and the other is a box body for storing and adding carbon powder of the printer.

However, the traditional toner cartridge for printers easily causes leakage of toner when toner is added to the screen printer, and inconveniently controls the addition amount of toner in the adding process, so that the toner in various packages is not conveniently treated. In view of the above, the present invention provides a toner cartridge for a printer, which has the following characteristics:

(1) according to the carbon powder box for the printer, the flow gathering sleeve is of a round table-shaped structure, so that various packaged carbon powder can be conveniently added into the storage cylinder, and meanwhile, the carbon powder can be conveniently added into printing equipment or the storage box body is conveniently replaced by the carbon powder by matching with the use of the round table-shaped guide sleeve, so that the operation is more convenient, the carbon powder is effectively prevented from leaking, and the adding quality is improved.

(2) According to the toner cartridge for the printer, the driving structure drives the stirring rod inside the storage cylinder to rotate, so that the toner can be stirred conveniently, the toner is more uniform, and the toner is effectively prevented from being accumulated inside the storage cylinder.

(3) According to the toner cartridge for the printer, the limiting structure matched with the guide sleeve to seal the storage cylinder is arranged at the bottom end of the driving structure, so that the adding amount of the carbon powder is more conveniently controlled, the carbon powder in the device is smoothed, the device or the storage cartridge body is prevented from being shaken in the adding process of the carbon powder, and the operation is more convenient and quicker.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the carbon powder box for the printer, the flow gathering sleeve is of a round table-shaped structure, so that various packaged carbon powder can be conveniently added into the storage cylinder, and meanwhile, the carbon powder can be conveniently added into printing equipment by matching with the use of the round table-shaped guide sleeve, or the storage box body is replaced by the carbon powder, so that the operation is more convenient, the leakage of the carbon powder is effectively prevented, the adding quality is improved, the driving structure drives the stirring rod in the storage cylinder to rotate, the carbon powder is conveniently stirred, the carbon powder is more uniform, meanwhile, the accumulation of carbon powder in the storage cylinder is effectively prevented, the bottom end of the driving structure is provided with a limit structure which is matched with the guide sleeve to seal the storage cylinder, so that the addition amount of the carbon powder is more conveniently controlled, meanwhile, the device has a floating effect on the carbon powder in the device, so that the device or the storage box body is prevented from shaking in the adding process of the carbon powder, and the operation is more convenient and faster.

The technical scheme adopted by the invention for solving the technical problems is as follows: a toner cartridge for a printer comprises a storage cylinder, a flow gathering sleeve, a guide sleeve, a sealing end cover, a driving structure, a stirring rod and a limiting structure; the bottom end of the storage cylinder of a cylindrical structure for storing the carbon powder is provided with the flow gathering sleeve of a truncated cone-shaped structure for guiding the carbon powder, and the flow gathering sleeve is in threaded connection with the storage cylinder; one end of the storage cylinder, which is close to the flow gathering sleeve, is provided with the guide sleeve, the bottom end of which is of a truncated cone-shaped structure, and the guide sleeve is used for adding carbon powder to printing equipment or a storage box body, and the guide sleeve is in threaded connection with the storage cylinder; the bottom end of the guide sleeve is provided with the sealing end cover for sealing the cylindrical structure of the guide sleeve, and the sealing end cover is in threaded connection with the guide sleeve; the limiting structure used for sealing the guide sleeve is arranged between the guide sleeve and the sealing end cover; one end of the storage cylinder, which deviates from the flow gathering sleeve, is provided with a driving structure for driving the stirring rod, and one end of the limiting structure, which deviates from the sealing end cover, is connected with the driving structure.

Specifically, a second anti-slip structure is arranged at one end, close to the storage cylinder, of the guide sleeve, the second anti-slip structure comprises a second anti-slip sleeve and a plurality of limiting columns, the annular second anti-slip sleeve is clamped with the guide sleeve, the limiting columns of a plurality of semi-cylinder structures are circumferentially distributed on the circumference of the second anti-slip sleeve in an array mode in the circumferential direction, and the limiting columns are abutted to the flow gathering sleeve; when adding the carbon dust, hold the second antiskid cover, make spacing post and hand contact have increased hand frictional force, make and use more comfortablely, twist simultaneously and move the second antiskid cover makes the uide bushing with the storage cylinder separation, then make and be close to the vertical up of one end of uide bushing pours the carbon dust into the inside of converging the cover, it is the round platform shape structure to converge the cover, has increased the area of pouring of carbon dust, makes the carbon dust get into automatically under the action of gravity the inside of storage cylinder, then holds the second antiskid cover is twisted and is moved the uide bushing, works as spacing post is contradicted the frictional force grow of twisting when converging the cover, it is convenient for right the uide bushing is spacing, the effectual too big smooth silk of preventing the atress or damage the uide bushing.

Specifically, one end of the storage cylinder, which is far away from the flow gathering sleeve, is provided with a first anti-slip structure, the first anti-slip structure comprises a first anti-slip sleeve and two guide posts, the first anti-slip sleeve is sleeved with the storage cylinder, and the first anti-slip sleeve of the anti-slip annular structure is internally provided with the two guide posts which are symmetrically arranged and are used for limiting and have a semi-cylindrical structure; when installing first anti-skidding cover, will the guide post embedding the inside of storage cylinder makes first anti-skidding cover with storage cylinder block, the setting of guide post has strengthened the stability of first anti-skidding cover, it is simultaneously convenient for right first anti-skidding cover with storage cylinder carries on spacingly, makes to twist and moves prevent during the first anti-skidding cover slippage, the setting of first anti-skidding cover has increased the frictional force of the tip of storage cylinder makes the vertical placing of device more stable.

Specifically, the driving structure comprises a driving rod, a fixed sleeve, a driving ring, an accommodating groove and an overhauling sleeve, wherein the overhauling sleeve which is detachably connected and used for overhauling is arranged at one end, away from the flow gathering sleeve, of the storage cylinder, the accommodating groove which is provided with a cylindrical cavity and used for accommodating the driving rod and the driving ring is arranged inside the overhauling sleeve, the driving rod which is provided with a cylindrical structure with external threads is arranged inside the overhauling sleeve, the driving rod penetrates through the overhauling sleeve and extends to the stirring rod, the fixed sleeve is fixed at one end, away from the stirring rod, of the driving rod, and the driving ring is rotatably connected with the fixed sleeve; the driving ring with fixed cover rotate to be connected, be convenient for with the driving ring is accomodate the inside of accomodating the groove, simultaneously the setting of accomodating the groove is convenient for the driving lever is accomodate the inside of accomodating the groove is convenient for place the device is vertical, and the effectual carbon dust that prevents leaks.

Specifically, the stirring rod is arranged in the storage cylinder and extends to the guide sleeve, and the stirring rod is of a spiral structure; the fingers pull the driving ring and then rotate the driving ring, the driving ring drives the driving rod to rotate in a reciprocating mode, the driving rod drives the stirring rod to stir the carbon powder inside the storage barrel, the carbon powder is stirred more uniformly, and meanwhile the stirring rod is of a spiral structure, so that the stirring efficiency is higher.

Specifically, the limiting structure comprises a connecting rod, a sealing plug and a guide protrusion, the connecting rod penetrates through the guide sleeve and extends to the driving rod, one end, away from the driving rod, of the connecting rod of the cylindrical structure is provided with the sealing plug which is of a truncated cone-shaped structure and matched with the guide sleeve, the sealing plug is abutted against the guide sleeve, and one end, away from the connecting rod, of the sealing plug is provided with the guide protrusion which is of a hemispherical structure and used for guiding; when the actuating lever rotates, the connecting rod drive the reciprocating rotation of sealing plug, the effectual carbon dust that prevents is in the inside jam of uide bushing is convenient for simultaneously to the inside floating of storage box body, has avoided the carbon dust to rock equipment or storage box body at the interpolation in-process, makes the operation convenient and fast more, when adding the end, twists move the drive ring, makes the actuating lever drives the connecting rod rotates, makes the sealing plug with the uide bushing is contradicted, carries out one-time sealing, and the effectual carbon dust that prevents leaks, then twists end cover, works as end cover with during the protruding contact of direction, end cover frictional force grow, the protruding extrusion deformation of direction, the effectual prevention the sealing plug damages, prevents simultaneously end cover atress is too big smooth silk, has improved the carbon dust greatly and has added the quality.

The invention has the beneficial effects that:

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of a toner cartridge for a printer according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the connection structure of the flow concentrating sleeve and the storage cylinder shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 1;

FIG. 4 is an enlarged view of the portion B shown in FIG. 2;

FIG. 5 is an enlarged view of the portion C shown in FIG. 2;

fig. 6 is an enlarged view of the portion D shown in fig. 2.

In the figure: 1. storage cylinder, 2, first anti-skidding structure, 21, first anti-skidding cover, 22, guide post, 3, the cover that gathers flows, 4, guide sleeve, 5, second anti-skidding structure, 51, second anti-skidding cover, 52, spacing post, 6, end cover, 7, drive structure, 71, actuating lever, 72, fixed cover, 73, the drive ring, 74, accomodate the groove, 75, overhaul cover, 8, puddler, 9, limit structure, 91, connecting rod, 92, sealing plug, 93, the direction is protruding.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 and fig. 2 and fig. 6, the toner cartridge for a printer according to the present invention includes a storage cylinder 1, a flow-gathering sleeve 3, a guide sleeve 4, a sealing end cover 6, a driving structure 7, a stirring rod 8, and a limiting structure 9; the bottom end of the storage cylinder 1 with a cylindrical structure for storing carbon powder is provided with the flow gathering sleeve 3 with a truncated cone-shaped structure for guiding the carbon powder, and the flow gathering sleeve 3 is in threaded connection with the storage cylinder 1; one end of the storage cylinder 1 close to the flow gathering sleeve 3 is provided with the guide sleeve 4 with a truncated cone-shaped bottom end and used for adding carbon powder to printing equipment or a storage box body, and the guide sleeve 4 is in threaded connection with the storage cylinder 1; the bottom end of the guide sleeve 4 is provided with the sealing end cover 6 for sealing the cylindrical structure of the guide sleeve 4, and the sealing end cover 6 is in threaded connection with the guide sleeve 4; the limiting structure 9 used for sealing the guide sleeve 4 is arranged between the guide sleeve 4 and the sealing end cover 6; one end of the storage cylinder 1 departing from the flow gathering sleeve 3 is provided with a driving structure 7 for driving the stirring rod 8, and one end of the limiting structure 9 departing from the sealing end cover 6 is connected to the driving structure 7.

Specifically, as shown in fig. 1 and 5, in the toner cartridge for a printer according to the present invention, a second anti-slip structure 5 is disposed at one end of the guide sleeve 4 close to the storage cylinder 1, the second anti-slip structure 5 includes a second anti-slip sleeve 51 and a plurality of limiting posts 52, the second anti-slip sleeve 51 in a circular ring shape is engaged with the guide sleeve 4, the limiting posts 52 in a plurality of semi-cylindrical structures are circumferentially distributed in an array manner in a circumferential direction of the second anti-slip sleeve 51, and the limiting posts 52 are abutted against the flow-gathering sleeve 3; when adding the carbon dust, hold second antiskid cover 51, make spacing post 52 and hand contact have increased hand frictional force, make and use more comfortablely, twist simultaneously and move second antiskid cover 51 makes uide bushing 4 with storage cylinder 1 separation, then the messenger is close to the vertical up of one end of uide bushing 4 pours the carbon dust into the inside of converging flow sleeve 3, converging flow sleeve 3 is round platform shape structure, has increased the area of pouring of carbon dust, makes the carbon dust get into under the action of gravity automatically the inside of storage cylinder 1, then holds second antiskid cover 51 twists and move uide bushing 4, works as spacing post 52 conflicts the frictional force grow of twisting when converging flow sleeve 3, be convenient for right uide bushing 4 is spacing, the effectual too big smooth silk of preventing atress or damage uide bushing 4.

Specifically, as shown in fig. 3, according to the toner cartridge for a printer, a first anti-slip structure 2 is arranged at one end of the storage cylinder 1 away from the flow gathering sleeve 3, the first anti-slip structure 2 includes a first anti-slip sleeve 21 and two guide posts 22, the first anti-slip sleeve 21 is sleeved with the storage cylinder 1, and the guide posts 22 for limiting are arranged inside the first anti-slip sleeve 21 of the anti-slip annular structure, and are symmetrically arranged and have a semi-cylindrical structure; when installing first antiskid cover 21, will guide post 22 embedding the inside of a storage section of thick bamboo 1 makes first antiskid cover 21 with storage section of thick bamboo 1 block, the setting up of guide post 22 has strengthened first antiskid cover 21's stability, be convenient for simultaneously right first antiskid cover 21 with storage section of thick bamboo 1 carries on spacingly, makes to twist and moves prevent during first antiskid cover 21 slippage, the setting up of first antiskid cover 21 has increased the frictional force of the tip of a storage section of thick bamboo 1, makes the vertical placing of device more stable.

Specifically, as shown in fig. 3 and 4, the driving structure 7 of the toner cartridge for a printer according to the present invention includes a driving rod 71, a fixing sleeve 72, a driving ring 73, an accommodating groove 74 and an overhaul sleeve 75, wherein one end of the storage cylinder 1 away from the current collecting sleeve 3 is provided with the overhaul sleeve 75 detachably connected for overhaul, the inside of the overhaul sleeve 75 is provided with the accommodating groove 74 of a cylinder cavity for accommodating the driving rod 71 and the driving ring 73, the inside of the overhaul sleeve 75 is provided with the driving rod 71 of a cylinder structure with an external thread, the driving rod 71 penetrates through the overhaul sleeve 75 and extends to the stirring rod 8, the fixing sleeve 72 is fixed to one end of the driving rod 71 away from the stirring rod 8, and the driving ring 73 is rotatably connected with the fixing sleeve 72; the driving ring 73 is rotatably connected with the fixed sleeve 72, so that the driving ring 73 can be conveniently accommodated in the accommodating groove 74, and the accommodating groove 74 is convenient for the driving rod 71 to be accommodated in the accommodating groove 74, so that the device can be conveniently vertically placed, and carbon powder can be effectively prevented from leaking.

Specifically, as shown in fig. 4, in the toner cartridge for a printer, the stirring rod 8 is arranged inside the storage cylinder 1 and extends to the inside of the guide sleeve 4, and the stirring rod 8 has a spiral structure; the driving ring 73 is pulled by fingers, then the driving ring 73 is rotated, the driving ring 73 drives the driving rod 71 to rotate in a reciprocating manner, so that the driving rod 71 drives the stirring rod 8 to stir the carbon powder in the storage cylinder 1, the carbon powder is stirred more uniformly, and meanwhile, the stirring rod 8 is of a spiral structure, so that the stirring efficiency is higher.

Specifically, as shown in fig. 6, the limiting structure 9 of the toner cartridge for a printer includes a connecting rod 91, a sealing plug 92 and a guiding protrusion 93, the connecting rod penetrates through the guiding sleeve and extends to the driving rod, one end of the connecting rod of a cylindrical structure, which is away from the driving rod 71, is provided with the sealing plug 92 of a truncated cone structure, which is matched with the guiding sleeve 4, the sealing plug 92 abuts against the guiding sleeve 4, and one end of the sealing plug 92, which is away from the connecting rod 91, is provided with the guiding protrusion 93 of a hemispherical structure, which is used for guiding; when the driving rod 71 rotates, the connecting rod 91 drives the sealing plug 92 to rotate back and forth, which effectively prevents carbon powder from blocking in the guide sleeve 4, meanwhile, the inner part of the storage box body is convenient to be screeded, the device or the storage box body is prevented from being shaken in the adding process of the carbon powder, the operation is more convenient and faster, when the addition is finished, the driving ring 73 is screwed to drive the connecting rod 91 to rotate by the driving rod 71, so that the sealing plug 92 is abutted against the guide sleeve 4 to perform primary sealing, thereby effectively preventing the carbon powder from leaking, then, the end cap 6 is screwed, and when the end cap 6 comes into contact with the guide projection 93, the friction force of the sealing end cover 6 is increased, the guide projection 93 is extruded and deformed, the sealing plug 92 is effectively prevented from being damaged, meanwhile, the sealing end cover 6 is prevented from slipping due to excessive stress, and the adding quality of carbon powder is greatly improved.

Firstly screwing a sealing end cover 6, disassembling a sealing plug 92, then screwing a guide sleeve 4, adding carbon powder into the flow gathering sleeve 3, discharging the carbon powder into the storage cylinder 1 from the flow gathering sleeve 3, then fixing the guide sleeve 4 and the storage cylinder 1, fixing the sealing plug 92 on a connecting rod 91, when adding the carbon powder into printing equipment, firstly driving a stirring rod 8 to rotate through a driving structure 7 so as to fully stir the carbon powder in the storage cylinder 1, then aligning the guide sleeve 4 with a carbon powder adding port of a printer or a port of the storage box, rotating the driving structure 7, and enabling the stirring rod 8 and the connecting rod 91 to rotate in a reciprocating manner so as to uniformly discharge the carbon powder from the guide sleeve 4, and when the adding is finished, screwing the driving structure 7 so as to enable the sealing plug 92 to be abutted against the guide sleeve 4 and effectively prevent the carbon powder from leaking; the method specifically comprises the following steps:

(1) firstly, holding the second anti-slip sleeve 51 by hand to enable the limiting column 52 to be in contact with the hand, increasing the friction force of the hand and enabling the use to be more comfortable, screwing the sealing end cover 6, disassembling the sealing plug 92, screwing the second anti-slip sleeve 51 to enable the guide sleeve 4 to be separated from the storage cylinder 1, enabling one end close to the guide sleeve 4 to vertically face upwards, pouring carbon powder into the flow gathering sleeve 3, enabling the flow gathering sleeve 3 to be of a circular truncated cone-shaped structure, increasing the pouring area of the carbon powder, enabling the carbon powder to automatically enter the storage cylinder 1 under the action of gravity, then holding the second anti-slip sleeve 51 to screw the guide sleeve 4, increasing the screwing friction force when the limiting column 52 abuts against the flow gathering sleeve 3, facilitating the limiting of the guide sleeve 4, effectively preventing the guide wire from being excessively stressed or damaging the guide sleeve, fixing the guide sleeve 4 and the storage cylinder 1, and fixing the sealing plug 92 on the connecting rod 91;

(2) when carbon powder is added into printing equipment or a storage box body, a finger pulls the driving ring 73, then the driving ring 73 is rotated, the driving ring 73 drives the driving rod 71 to rotate in a reciprocating manner, so that the driving rod 71 drives the stirring rod 8 to stir the carbon powder in the storage barrel 1, the carbon powder is stirred more uniformly, and meanwhile, the stirring rod 8 is of a spiral structure, so that the stirring efficiency is higher;

(3) then, the guide sleeve 4 is aligned to a carbon powder adding port of a printer or a port of a storage box, the driving rod 71 is rotated, the stirring rod 8 and the connecting rod 91 rotate in a reciprocating mode, so that carbon powder is uniformly discharged from the guide sleeve 4, the connecting rod 91 drives the sealing plug 92 to rotate in a reciprocating mode, the carbon powder is effectively prevented from being blocked in the guide sleeve 4, meanwhile, the interior of the storage box body is conveniently leveled, the situation that the equipment or the storage box body is shaken in the adding process of the carbon powder is avoided, and the operation is more convenient and rapid;

(4) when the addition is finished, the driving ring 73 is screwed, the driving rod 71 drives the connecting rod 91 to rotate, the sealing plug 92 is abutted to the guide sleeve 4, primary sealing is carried out, carbon powder is effectively prevented from leaking, then the sealing end cover 6 is screwed, when the sealing end cover 6 is contacted with the guide bulge 93, the friction force of the sealing end cover 6 is increased, the guide bulge 93 is extruded and deformed, the sealing plug 92 is effectively prevented from being damaged, meanwhile, the sealing end cover 6 is prevented from being stressed too much and sliding wires, and the carbon powder addition quality is greatly improved;

(5) rotate drive ring 73, make drive ring 73 accomodate in the inside of accomodating groove 74, the setting of accomodating groove 74 simultaneously is convenient for the actuating lever 71 to accomodate in the inside of accomodating groove 74, be convenient for place the device vertically, effectually prevent that the carbon dust from leaking, when the first anti-skidding cover 21 of installation, with the inside of guide post 22 embedding storage cylinder 1, make first anti-skidding cover 21 and storage cylinder 1 block, the stability of first anti-skidding cover 21 has been strengthened in the setting of guide post 22, be convenient for simultaneously carry on spacingly to first anti-skidding cover 21 and storage cylinder 1, prevent first anti-skidding cover 21 slippage when making to twist and move first anti-skidding cover 21, the setting of first anti-skidding cover 21 has increased the frictional force of the tip of storage cylinder 1, make the vertical placing of device more stable.

The flow gathering sleeve 3 is of a truncated cone-shaped structure, so that carbon powder in various packages can be conveniently added into the storage cylinder 1, the guide sleeve 4 is matched with the truncated cone-shaped structure for use, the carbon powder can be conveniently added into printing equipment, or the storage box body is replaced with the carbon powder, the operation is more convenient, the carbon powder is effectively prevented from leaking, the adding quality is improved, the driving structure 7 drives the stirring rod 8 in the storage cylinder 1 to rotate, the carbon powder is conveniently stirred, the carbon powder is more uniform, the carbon powder is effectively prevented from being accumulated in the storage cylinder 1, the limiting structure 9 matched with the guide sleeve 4 for sealing the storage cylinder 1 is arranged at the bottom end of the driving structure 7, the adding amount of the carbon powder is more conveniently controlled, the leveling effect on the carbon powder in the equipment is achieved, the equipment or the storage box body is prevented from being shaken in the adding process of the carbon powder, and the operation is more convenient and.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a cartridge for printer which characterized in that: comprises a storage cylinder (1), a flow gathering sleeve (3), a guide sleeve (4), a sealing end cover (6), a driving structure (7), a stirring rod (8) and a limiting structure (9); the bottom end of the storage cylinder (1) of a cylindrical structure for storing carbon powder is provided with the flow gathering sleeve (3) of a truncated cone-shaped structure for guiding the carbon powder, and the flow gathering sleeve (3) is in threaded connection with the storage cylinder (1); one end of the storage cylinder (1) close to the flow gathering sleeve (3) is provided with a guide sleeve (4) with a truncated cone-shaped bottom end and used for adding carbon powder to printing equipment or a storage box body, and the guide sleeve (4) is in threaded connection with the storage cylinder (1); the bottom end of the guide sleeve (4) is provided with the sealing end cover (6) which is used for sealing the cylindrical structure of the guide sleeve (4), and the sealing end cover (6) is in threaded connection with the guide sleeve (4); the limiting structure (9) used for sealing the guide sleeve (4) is arranged between the guide sleeve (4) and the sealing end cover (6); one end, deviating from the flow gathering sleeve (3), of the storage cylinder (1) is provided with the driving structure (7) for driving the stirring rod (8), and one end, deviating from the sealing end cover (6), of the limiting structure (9) is connected to the driving structure (7);

a second anti-skid structure (5) is arranged at one end, close to the storage cylinder (1), of the guide sleeve (4), the second anti-skid structure (5) comprises a second anti-skid sleeve (51) and a plurality of limiting columns (52), the second anti-skid sleeve (51) in a circular ring shape is clamped with the guide sleeve (4), the limiting columns (52) in a plurality of semi-cylinder structures are distributed on the circumference of the second anti-skid sleeve (51) in a circumferential array manner, and the limiting columns (52) are abutted against the flow gathering sleeve (3);

a first anti-slip structure (2) is arranged at one end, away from the flow gathering sleeve (3), of the storage barrel (1), the first anti-slip structure (2) comprises a first anti-slip sleeve (21) and two guide posts (22), the first anti-slip sleeve (21) is sleeved with the storage barrel (1), and the guide posts (22) which are symmetrically arranged and are of a semi-cylinder structure and used for limiting are arranged inside the first anti-slip sleeve (21) of the anti-slip circular structure;

the driving structure (7) comprises a driving rod (71), a fixed sleeve (72), a driving ring (73), a containing groove (74) and an overhauling sleeve (75), one end of the storage cylinder (1) departing from the flow gathering sleeve (3) is provided with a detachable maintenance sleeve (75) for maintenance, the maintenance sleeve (75) is internally provided with a cylindrical cavity and the containing groove (74) which is used for containing the driving rod (71) and the driving ring (73), the interior of the maintenance sleeve (75) is provided with the driving rod (71) with a cylindrical structure with external threads, the driving rod (71) penetrates through the maintenance sleeve (75) and extends to the stirring rod (8), the fixed sleeve (72) is fixed at one end of the driving rod (71) departing from the stirring rod (8), and the driving ring (73) is rotationally connected with the fixed sleeve (72);

the stirring rod (8) is arranged in the storage cylinder (1) and extends into the guide sleeve (4), and the stirring rod (8) is of a spiral structure;

the limiting structure (9) comprises a connecting rod (91), a sealing plug (92) and a guide bulge (93), the connecting rod (91) penetrates through the guide sleeve (4) and extends to the driving rod (71), one end, away from the driving rod (71), of the connecting rod with a cylindrical structure is provided with the sealing plug (92) which is of a truncated cone-shaped structure and matched with the guide sleeve (4), the sealing plug (92) is abutted against the guide sleeve (4), and one end, away from the connecting rod (91), of the sealing plug (92) is provided with the guide bulge (93) which is of a hemispherical structure and used for guiding;

firstly, holding a second anti-slip sleeve (51) by hand, enabling a limiting column (52) to be in contact with a hand, screwing a sealing end cover (6), disassembling a sealing plug (92), screwing the second anti-slip sleeve (51), enabling a guide sleeve (4) to be separated from a storage cylinder (1), enabling one end close to the guide sleeve (4) to vertically move upwards, pouring carbon powder into the interior of a flow gathering sleeve (3), enabling the carbon powder to automatically enter the interior of the storage cylinder (1) under the action of gravity due to the fact that the flow gathering sleeve (3) is of a circular truncated cone-shaped structure, then holding the second anti-slip sleeve (51) by hand, screwing the guide sleeve (4), increasing the screwing friction force when the limiting column (52) abuts against the flow gathering sleeve (3), facilitating limiting of the guide sleeve (4), fixing the guide sleeve (4) and the storage cylinder (1), and fixing the sealing plug (92) on a connecting rod (91);

when carbon powder is added into printing equipment or a storage box body, fingers pull the driving ring (73), then the driving ring (73) is rotated, the driving ring (73) drives the driving rod (71) to rotate in a reciprocating mode, and the driving rod (71) drives the stirring rod (8) to stir the carbon powder in the storage barrel (1);

then, the guide sleeve (4) is aligned to a carbon powder adding port of a printer or a port of a storage box, a driving rod (71) is rotated, a stirring rod (8) and a connecting rod (91) rotate in a reciprocating mode, so that carbon powder is uniformly discharged from the guide sleeve (4), and the connecting rod (91) drives a sealing plug (92) to rotate in a reciprocating mode;

when the addition is finished, the driving ring (73) is screwed, the driving rod (71) drives the connecting rod (91) to rotate, the sealing plug (92) is abutted to the guide sleeve (4) to perform primary sealing, then the sealing end cover (6) is screwed, when the sealing end cover (6) is contacted with the guide bulge (93), the friction force of the sealing end cover (6) is increased, and the guide bulge (93) is extruded and deformed;

the driving ring (73) is rotated to enable the driving ring (73) to be stored in the storage groove (74), the storage groove (74) is arranged to enable the driving rod (71) to be stored in the storage groove (74), when the first anti-skid sleeve (21) is installed, the guide column (22) is embedded into the storage barrel (1), and the first anti-skid sleeve (21) is clamped with the storage barrel (1).