CN112278896A - Environment-friendly carbon powder adds device - Google Patents
Environment-friendly carbon powder adds device Download PDFInfo
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- CN112278896A CN112278896A CN202011083862.7A CN202011083862A CN112278896A CN 112278896 A CN112278896 A CN 112278896A CN 202011083862 A CN202011083862 A CN 202011083862A CN 112278896 A CN112278896 A CN 112278896A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G65/00—Loading or unloading
- B65G65/30—Methods or devices for filling or emptying bunkers, hoppers, tanks, or like containers, of interest apart from their use in particular chemical or physical processes or their application in particular machines, e.g. not covered by a single other subclass
- B65G65/34—Emptying devices
- B65G65/40—Devices for emptying otherwise than from the top
Abstract
The invention relates to an adding device, in particular to an environment-friendly carbon powder adding device. The technical problems to be solved by the invention are as follows: provides an environment-friendly carbon powder adding device which can shake the selenium drum while adding carbon powder into the selenium drum. An environment-friendly carbon powder adding device comprises: a support; the lifting blanking assembly is arranged on the bracket; the storage component is arranged on the bracket; and the clamping assembly is arranged on the bracket. When carbon powder is added into the selenium drum, the carbon powder can directly enter the selenium drum through the material storage assembly, and the carbon powder cannot float out; when carbon powder is added into the toner cartridge, the toner cartridge can be fixed, so that the toner cartridge is prevented from toppling due to external force when the carbon powder is added, and the carbon powder is prevented from floating; when carbon powder is added into the selenium drum, the selenium drum and the storage component can shake, so that the carbon powder in the selenium drum is distributed more uniformly.
Description
Technical Field
The invention relates to an adding device, in particular to an environment-friendly carbon powder adding device.
Background
A toner cartridge, also known as a photosensitive drum, is generally composed of a base substrate made of aluminum, and a photosensitive material coated on the base substrate. In laser printers, more than 70% of the image forming components are concentrated in the cartridge, and the quality of printing is actually determined to a large extent by the cartridge. The cartridge determines not only the quality of the print, but also the amount of money the user spends during use. Before the selenium drum is used, carbon powder needs to be added into the selenium drum.
Patent No. CN108046200A discloses an environment-friendly carbon powder adding device, which comprises a base, a turnover device, a conveying device, a large fixing plate, a first positioning screw rod and the like; turning device and conveyor all are located the place ahead of big fixed plate, and the top of big fixed plate is provided with first positioning screw, and first positioning screw sets up to threaded connection with big fixed plate, and first briquetting, deflector and second positioning screw all are located the place ahead of big fixed plate, and the bottom of deflector sets up to fixed connection with the top of base. Although the device can add the carbon powder in the selenium drum, can not make the selenium drum shake, make the carbon powder that adds in the selenium drum pile up easily, distribute inhomogeneous to reduce the availability factor of selenium drum.
Therefore, there is a need to develop an environment-friendly toner adding device that can add toner into the toner cartridge and shake the toner cartridge.
Disclosure of Invention
In order to overcome the device of adding the carbon powder in the selenium drum at present can't make the selenium drum shake when adding the carbon powder in the selenium drum, make the carbon powder of adding in the selenium drum pile up easily, it is inhomogeneous to distribute to reduce the shortcoming of the availability factor of selenium drum, the technical problem who solves: provides an environment-friendly carbon powder adding device which can shake the selenium drum while adding carbon powder into the selenium drum.
The technical scheme is as follows: an environment-friendly carbon powder adding device comprises: a support; the lifting blanking assembly is arranged on the bracket; the storage component is arranged on the bracket and is matched with the lifting blanking component; and the clamping assembly is arranged on the bracket.
Further, lift unloading subassembly including: the speed reducing motor is arranged on the bracket; the rotating rod is arranged on an output shaft of the speed reducing motor through a coupler; the first clamping sleeve is arranged on the bracket and is rotatably matched with the rotating rod; the screw rod is arranged on the rotating rod; the screw sleeve is arranged on the screw rod through threads; the material blocking rod is arranged on the screw sleeve; the first material blocking block is arranged on the material blocking rod; and the second material blocking block is arranged on the material blocking rod.
Further, the magazine assembly includes: the first connecting rods are arranged on two sides of the bracket; the second clamping sleeve is arranged between the first connecting rods; the discharging barrel is slidably mounted on the second clamping sleeve, a first discharging port is formed in the discharging barrel, and the first discharging port is matched with the first material blocking block; the storage box is arranged on the discharging barrel; the telescopic discharge pipe is arranged on the discharge barrel; the discharging block is arranged on the telescopic discharging pipe, a second discharging hole is formed in the discharging block, and the second discharging hole is matched with the second material blocking block; the first spring is installed between the discharging block and the discharging barrel.
Further, the chucking assembly includes: the bracket is provided with a clamping groove, and the first clamping block is slidably arranged in the clamping groove; the second spring is arranged between the two sides of the first clamping block and the bracket; the second connecting rod is arranged on the other two sides of the first clamping block; the supporting plate is arranged on the second connecting rod; the at least two first telescopic spring rods are uniformly arranged on the supporting plate at intervals; at least two third springs are arranged on two sides of the supporting plate; and the second clamping block is arranged between the first telescopic spring rod and the third spring on the two sides.
Further, still shake the material subassembly including receiving the material, receive the material and shake the material subassembly including: the push rod is arranged on the first clamping sleeve in a sliding mode; the second telescopic spring rod is arranged on the push rod; the first wedge-shaped block is arranged on the second telescopic spring rod; at least two third telescopic spring rods are uniformly arranged on the bracket at intervals; the placing plate is arranged between the third telescopic spring rods and is provided with a sliding groove; the second wedge-shaped block is arranged on the placing plate; and the third clamping blocks are arranged on two sides of the bracket and are matched with the placing plate.
Further, still shake the material subassembly including the storage, the storage is shaken the material subassembly and is included: the third connecting rod is arranged on two sides of the threaded sleeve; the fourth telescopic spring rod is arranged on the third connecting rod; the first wedge-shaped disc is arranged between the fourth telescopic spring rods and is connected with the push rod; the third clamping sleeve is arranged between the first connecting rods and is matched with the material storage box in a sliding manner; at least two fifth telescopic spring rods are uniformly arranged on the third clamping sleeve at intervals; the at least two first stop blocks are uniformly arranged on the third clamping sleeve at intervals, and the first stop blocks are matched with the material storage box; the second wedge-shaped disc is arranged between the fifth telescopic spring rods and is simultaneously connected with the material storage box; and the second stop blocks are arranged on two sides of the third clamping sleeve and matched with the second wedge-shaped disc.
The invention has the beneficial effects that: 1. when carbon powder is added into the selenium drum, the carbon powder can directly enter the selenium drum through the material storage assembly, and the carbon powder cannot float out;
2. when carbon powder is added into the toner cartridge, the toner cartridge can be fixed, so that the toner cartridge is prevented from toppling due to external force when the carbon powder is added, and the carbon powder is prevented from floating;
3. when carbon powder is added into the selenium drum, the selenium drum and the storage assembly can shake, so that the carbon powder in the selenium drum is distributed more uniformly, and the carbon powder in the storage assembly can be prevented from being blocked and cannot flow into the selenium drum.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the lifting blanking assembly of the present invention.
Fig. 3 is a schematic view of a first partially separated body structure of the magazine assembly according to the present invention.
Fig. 4 is a schematic view of a second partially separated body structure of the magazine assembly of the present invention.
Fig. 5 is a perspective view of the clamping assembly of the present invention.
Fig. 6 is a schematic perspective view of the material receiving shaking assembly of the present invention.
Fig. 7 is a schematic perspective view of the material storage shaking assembly of the present invention.
Part names and serial numbers in the figure: 1: a bracket, 2: lifting blanking assembly, 21: gear motor, 22: rotating rod, 23: first ferrule, 24: screw rod, 25: screw sleeve, 26: plugging rod, 27: first plugging block, 28: second plugging block, 3: stock assembly, 31: first link, 32: second ferrule, 33: storage bin, 34: go out the feed cylinder, 35: first discharge port, 36: telescopic discharge tube, 37: first spring, 38: tapblock, 39: second discharge port, 4: clamping assembly, 41: card slot, 42: second spring, 43: first latch, 44: second link, 45: support plate, 46: first telescopic spring rod, 47: third spring, 48: a second latch, 5: receive material and shake material subassembly, 51: push rod, 52: second telescopic spring rod, 53: first wedge block, 54: second wedge block, 55: placing plate, 56: chute, 57: third telescopic spring rod, 58: third block, 6: storage shaking assembly, 61: third link, 62: fourth telescopic spring rod, 63: first wedge disk, 64: third ferrule, 65: fifth telescopic spring rod, 66: first stopper, 67: second wedge disk, 68: a second stop.
Detailed Description
The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.
Example 1
An environment-friendly carbon powder adding device is shown in figures 1-5 and comprises a support 1, a lifting blanking assembly 2, a material storage assembly 3 and a clamping assembly 4, wherein the lifting blanking assembly 2 is arranged on the support 1, the material storage assembly 3 is matched with the lifting blanking assembly 2, and the clamping assembly 4 is arranged on the lower portion of the support 1.
When using the device to carry out the carbon dust to the selenium drum and adding the time, at first add storage component 3 with the carbon dust in, then place the selenium drum in chucking component 4, press from both sides the selenium drum by chucking component 4 tightly, the income powder mouth department of selenium drum can contact with storage component 3, then control lift unloading subassembly 2 works, make the carbon dust in the storage component 3 begin to fall into in the selenium drum, add in the selenium drum after the carbon dust, alright control lift unloading subassembly 2 resets, after lift unloading subassembly 2 resets completely, alright control lift unloading subassembly 2 stop work, and take off the selenium drum from chucking component 4.
Lifting blanking assembly 2 is including gear motor 21, dwang 22, first cutting ferrule 23, lead screw 24, swivel nut 25, putty pole 26, first putty piece 27 and second putty piece 28, there is gear motor 21 on 1 upper portion of support through the bolt rigid coupling, there is dwang 22 through coupling joint on gear motor 21's the output shaft, 1 upper portion of support is connected with first cutting ferrule 23, first cutting ferrule 23 and the cooperation of dwang 22 rotary type, dwang 22 top is connected with lead screw 24, there is swivel nut 25 through threaded connection on the lead screw 24, be equipped with putty pole 26 on the swivel nut 25, putty pole 26 middle part is equipped with first putty piece 27, putty pole 26 lower part is equipped with second putty piece 28.
After the carbon powder and the selenium drum are placed, the speed reducing motor 21 can be controlled to start working, the speed reducing motor 21 can drive the screw rod 24 to rotate through the rotating rod 22, the screw rod 24 rotates to drive the material blocking rod 26, the first material blocking block 27 and the second material blocking block 28 to ascend through the screw sleeve 25, after the first material blocking block 27 and the second material blocking block 28 ascend, the carbon powder in the storage component 3 can flow into the selenium drum, after the selenium drum is filled with the carbon powder, the speed reducing motor 21 can be controlled to drive the screw rod 24 to rotate reversely, the screw sleeve 25 is reset, the material blocking rod 26, the first material blocking block 27 and the second material blocking block 28 are driven to reset, after the first material blocking block 27 and the second material blocking block 28 reset, the carbon powder in the storage component 3 can stop flowing down, and after the screw sleeve 25 completely resets, the speed reducing motor 21 can be controlled to stop working.
The material storage component 3 comprises a first connecting rod 31, a second clamping sleeve 32, a material storage box 33, a discharging barrel 34, a telescopic discharging pipe 36, a first spring 37 and a discharging block 38, the front side and the rear side of the support 1 are both connected with the first connecting rod 31, a second clamping sleeve 32 is connected between the upper portions of the first connecting rod 31, the middle portion of the second clamping sleeve 32 is slidably provided with the discharging barrel 34, the upper portion of the discharging barrel 34 is provided with the material storage box 33, the inside of the discharging barrel 34 is provided with a first discharging port 35, the first discharging port 35 is matched with the first blocking block 27, the lower portion of the discharging barrel 34 is provided with the telescopic discharging pipe 36, the lower portion of the telescopic discharging pipe 36 is provided with a discharging block 38, the discharging block 38 is connected with the first spring 37, the inside of the discharging block 38 is provided with a second.
When the device is used for adding carbon powder to the toner cartridge, the carbon powder is firstly added into the storage box 33, in a normal state, the first plugging block 27 is matched with the first discharge hole 35 on the discharge cylinder 34, so that the carbon powder in the storage box 33 cannot flow into the discharge cylinder 34, after the toner cartridge is clamped by the clamping assembly 4, the powder inlet of the toner cartridge is contacted with the discharge block 38, then the first plugging block 27 and the second plugging block 28 can move upwards through the speed reduction motor 21, after the first plugging block 27 and the second plugging block 28 move to be not matched with the first discharge hole 35 and the second discharge hole 39, the carbon powder in the storage box 33 can flow into the toner cartridge through the discharge cylinder 34, the telescopic discharge pipe 36 and the discharge block 38, and after the toner cartridge is fully added with the carbon powder, the first plugging block 27 and the second plugging block 28 can be controlled to reset, so that the carbon powder stops flowing into the toner cartridge.
The clamping assembly 4 comprises a second spring 42, a first clamping block 43, a second connecting rod 44, a supporting plate 45, first telescopic spring rods 46, third springs 47 and a second clamping block 48, a clamping groove 41 is formed in the lower portion of the support 1, the first clamping block 43 is arranged in the clamping groove 41 in a sliding mode, the second spring 42 is connected between the upper side and the lower side of the first clamping block 43 and the support 1, the second connecting rod 44 is arranged on the front side and the rear side of the first clamping block 43, the supporting plate 45 is fixedly connected to the right portion of the second connecting rod 44 through bolts, four first telescopic spring rods 46 are uniformly arranged in the middle of the inner side of the supporting plate 45 at intervals, four third springs 47 are connected to the left portion and the right portion of the inner side of the supporting plate 45, and the second clamping block 48 is connected between the first telescopic spring rods 46 and the third springs 47 on the front side and between the first telescopic spring rods.
When the device is used for adding carbon powder to the toner cartridge, the second fixture blocks 48 on the two sides are pushed towards the direction of separation, so that the second fixture blocks 48 are far away from each other, the first telescopic spring rod 46 and the third spring 47 are compressed at the moment, then the toner cartridge is placed between the second fixture blocks 48, the toner inlet of the toner cartridge is in contact with the toner outlet block 38, the second fixture blocks 48 can be loosened at the moment, then the first telescopic spring rod 46 and the third spring 47 can reset to drive the second fixture blocks 48 to reset, the toner cartridge is clamped and fixed, after the carbon powder is added into the toner cartridge, the second fixture blocks 48 can be pushed towards the direction of separation, the toner cartridge is taken down, the second fixture blocks 48 are loosened, and the second fixture blocks 48 are reset automatically.
Example 2
On the basis of the embodiment 1, as shown in fig. 1, 6 and 7, the material collecting and shaking assembly 5 is further included, the material collecting and shaking assembly 5 includes a push rod 51, a second telescopic spring rod 52, a first wedge-shaped block 53, a second wedge-shaped block 54, a placing plate 55, a third telescopic spring rod 57 and a third wedge-shaped block 58, the push rod 51 is slidably disposed on the right side of the first ferrule 23, the second telescopic spring rod 52 is connected to the lower portion of the push rod 51, the first wedge-shaped block 53 is connected to the right side of the second telescopic spring rod 52, four third telescopic spring rods 57 are uniformly spaced on the right side of the support 1, the placing plate 55 is connected between the top ends of the third telescopic spring rods 57, a sliding groove 56 is formed on the placing plate 55, the second wedge-shaped block 54 is fixedly connected to the left side of the placing plate 55 through a bolt, the second wedge-shaped block 54 is matched with the first wedge-shaped block 53, the third wedge-shaped blocks 58 are fixedly connected to the, the third block 58 is engaged with the placing plate 55.
When the toner cartridge is clamped by the second clamping block 48, the toner cartridge can be located in the sliding groove 56 of the placing plate 55 at the same time, in a normal state, the first wedge block 53 is lower than the second wedge block 54, when carbon powder is added into the toner cartridge, the push rod 51 can be pulled upwards, the push rod 51 moves upwards to drive the second telescopic spring rod 52 and the first wedge block 53 to move upwards, the first wedge block 53 moves upwards to contact with the second wedge block 54 and drive the second wedge block 54 to move upwards, the second wedge block 54 moves upwards to drive the placing plate 55 to move upwards, at the moment, the third telescopic spring rod 57 is stretched, when the placing plate 55 moves upwards, the toner cartridge moves along with the toner cartridge, the clamping assembly 4 also moves, at the moment, the second spring 42 on the upper side is compressed, the second spring 42 on the lower side is stretched, the discharging block 38 is pushed upwards when the toner cartridge moves upwards, the discharging block 38 enables the telescopic discharging pipe 36 and the first spring 37 to be compressed, when the placing plate 55 moves upwards to contact with the third fixture block 58, the upward movement cannot be continued, at this time, the first wedge block 53 moves leftwards while moving upwards under the blocking of the second wedge block 54, at this time, the second telescopic spring rod 52 is compressed, after the first wedge block 53 moves to be out of cooperation with the second wedge block 54, the third telescopic spring rod 57 resets to drive the second wedge block 54 and the placing plate 55 to reset, at this time, the second telescopic spring rod 52 also resets to drive the first wedge block 53 to reset, when the placing plate 55 resets, the second spring 42 also resets, the chucking assembly 4 also moves along with the third telescopic spring 37, at the same time, the first spring 37 resets to reset the telescopic discharging pipe 36 and the discharging block 38, then the push rod 51, the second telescopic spring rod 52 and the first wedge block 53 can be controlled to reset, when the first wedge block 53 resets, the first wedge block 53 again contacts with the second wedge block 54, thereby pushing the second wedge-shaped block 54 and the placing plate 55 to move downwards, so that the third telescopic spring rod 57 is compressed, the clamping assembly 4 moves along with the third telescopic spring rod, the discharging block 38 moves downwards along with the third telescopic spring rod, the telescopic discharging pipe 36 and the first spring 37 are stretched, when the placing plate 55 cannot move downwards continuously, the first wedge-shaped block 53 moves leftwards under the block of the second wedge-shaped block 54 while moving downwards, the second telescopic spring rod 52 is compressed again, when the first wedge-shaped block 53 moves to be not matched with the second wedge-shaped block 54, the third telescopic spring rod 57 resets and drives the second wedge-shaped block 54 and the placing plate 55 to reset, at the moment, the clamping assembly 4, the discharging block 38, the telescopic discharging pipe 36 and the first spring 37 reset along with the second telescopic spring rod 52 resets and drives the first wedge-shaped block 53 to reset, and thus, the toner cartridge can be controlled to shake when being added into the toner cartridge, the carbon powder in the toner cartridge is distributed more uniformly.
The material storage shaking assembly 6 comprises a third connecting rod 61, a fourth telescopic spring rod 62, a first wedge-shaped disc 63, a third sleeve 64, a fifth telescopic spring rod 65, a first stop block 66, a second wedge-shaped disc 67 and a second stop block 68, wherein the front side and the rear side of the screw sleeve 25 are respectively connected with the third connecting rod 61, the lower part of the third connecting rod 61 is connected with the fourth telescopic spring rod 62, the first wedge-shaped disc 63 is connected between the right sides of the fourth telescopic spring rod 62, the first wedge-shaped disc 63 is connected with the push rod 51, the upper part of the first connecting rod 31 is connected with the third sleeve 64, the third sleeve 64 is in sliding fit with the material storage box 33, four fifth telescopic spring rods 65 are uniformly arranged on the third sleeve 64 at intervals, four first stop blocks 66 are uniformly arranged on the third sleeve 64 at intervals, the first stop block 66 is matched with the material storage box 33, and the upper part of the fifth telescopic spring rods 65 is connected with the second wedge-shaped disc 67, the second wedge-shaped disc 67 is connected with the material storage box 33 simultaneously, the front side and the rear side of the third clamping sleeve 64 are fixedly connected with a second stopper 68 through bolts, and the second stopper 68 is matched with the second wedge-shaped disc 67.
In a normal state, the first wedge-shaped disc 63 is lower than the second wedge-shaped disc 67, when the screw sleeve 25 moves upwards, the third connecting rod 61 and the fourth telescopic spring rod 62 drive the first wedge-shaped disc 63 to move upwards, the first wedge-shaped disc 63 drives the push rod 51 to move when moving, so that the push rod 51 can be moved without manually pulling the push rod 51, when the first wedge-shaped disc 63 moves upwards, the first wedge-shaped disc 63 contacts the second wedge-shaped disc 67 to drive the second wedge-shaped disc 67 to move upwards, the second wedge-shaped disc 67 moves upwards to drive the material storage box 33 and other parts on the material storage box 33 to move upwards, at the moment, the fifth telescopic spring rod 65 is stretched, the first stopper 66 limits the position of the material storage box 33 to prevent the material storage box 33 from tilting, when the second wedge-shaped disc 67 moves upwards to contact the second stopper 68, the first wedge-shaped disc 63 can not push the second wedge-shaped disc 67 to move upwards, at the moment, the first wedge-shaped disc 63 moves upwards and moves to the left under the block of the second wedge-shaped disc 67, the fourth telescopic spring rod 62 is compressed, when the first wedge-shaped disc 63 moves to be out of fit with the second wedge-shaped disc 67, the fifth telescopic spring rod 65 resets and drives the second wedge-shaped disc 67 to reset, the second wedge-shaped disc 67 resets and drives the storage box 33 and other parts on the storage box 33 to reset, the fourth telescopic spring rod 62 resets and drives the first wedge-shaped disc 63 to reset, when the screw sleeve 25 resets, the third connecting rod 61, the fourth telescopic spring rod 62 and the first wedge-shaped disc 63 are driven to move downwards and reset, when the first wedge-shaped disc 63 moves downwards, the first wedge-shaped disc 63 contacts with the second wedge-shaped disc 67 again to push the second wedge-shaped disc 67 to move downwards, the second wedge-shaped disc 67 moves downwards and drives the storage box 33 and other parts on the storage box 33 to move downwards, at this moment, the fifth telescopic spring rod 65 is compressed, after the second wedge-shaped disc 67 moves to the position incapable of moving downwards, the first wedge-shaped disc 63 moves continuously and moves downwards under the blocking of the second wedge-shaped disc 67, the fourth telescopic spring rod 62 is compressed at this moment, after the first wedge-shaped disc 63 moves to the position incapable of being matched with the second wedge-shaped disc 67, the fifth telescopic spring rod 65 can reset to drive the second wedge-shaped disc 67 to reset, the second wedge-shaped disc 67 resets to drive the storage box 33 and other parts on the storage box 33 to reset, the fourth telescopic spring rod 62 resets at this moment, the first wedge-shaped disc 63 is driven to reset, and therefore, the storage box 33 can shake when carbon powder is added into the toner cartridge, and the carbon powder in the storage box 33 is prevented from being blocked.
It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.
Claims (6)
1. An environment-friendly carbon powder adding device is characterized by comprising:
a support (1);
the lifting blanking assembly (2) is arranged on the bracket (1);
the material storage component (3) is arranged on the support (1), and the material storage component (3) is matched with the lifting blanking component (2);
and the clamping assembly (4) is arranged on the bracket (1).
2. An environment-friendly carbon powder adding device as defined in claim 1, wherein the lifting and blanking assembly (2) comprises:
the speed reducing motor (21) is arranged on the bracket (1);
the rotating rod (22) is arranged on an output shaft of the speed reducing motor (21) through a coupler;
the first clamping sleeve (23) is arranged on the bracket (1), and the first clamping sleeve (23) is rotatably matched with the rotating rod (22);
a screw rod (24) mounted on the rotating rod (22);
the screw sleeve (25) is arranged on the screw rod (24) through threads;
the material blocking rod (26) is arranged on the threaded sleeve (25);
a first plugging block (27) mounted on the plugging rod (26);
and the second material plugging block (28) is arranged on the material plugging rod (26).
3. An environment-friendly toner adding device as defined in claim 2, wherein the storage assembly (3) comprises:
the first connecting rods (31) are arranged on two sides of the bracket (1);
a second ferrule (32) mounted between the first links (31);
the discharging barrel (34) is slidably mounted on the second clamping sleeve (32), a first discharging hole (35) is formed in the discharging barrel (34), and the first discharging hole (35) is matched with the first plugging block (27);
the storage box (33) is arranged on the discharging barrel (34);
a telescopic discharge pipe (36) arranged on the discharge barrel (34);
the discharging block (38) is arranged on the telescopic discharging pipe (36), a second discharging hole (39) is formed in the discharging block (38), and the second discharging hole (39) is matched with the second plugging block (28);
the first spring (37) is arranged between the discharging block (38) and the discharging barrel (34).
4. An environment-friendly toner adding apparatus as defined in claim 3 wherein the chucking assembly (4) comprises:
the bracket (1) is provided with a clamping groove (41), and the first clamping block (43) is arranged in the clamping groove (41) in a sliding manner;
the second spring (42) is arranged between the two sides of the first clamping block (43) and the bracket (1);
the second connecting rod (44) is arranged on the other two sides of the first clamping block (43);
a support plate (45) mounted on the second link (44);
the first telescopic spring rods (46), at least two first telescopic spring rods (46) are uniformly arranged on the supporting plate (45) at intervals;
third springs (47), at least two third springs (47) are arranged on two sides of the support plate (45);
and the second clamping block (48) is arranged between the first telescopic spring rod (46) and the third spring (47) at two sides.
5. An environment-friendly carbon powder adding device according to claim 4, further comprising a material receiving and shaking assembly (5), wherein the material receiving and shaking assembly (5) comprises:
the push rod (51) is arranged on the first clamping sleeve (23) in a sliding mode;
a second telescopic spring rod (52) mounted on the push rod (51);
a first wedge block (53) mounted on the second telescopic spring rod (52);
the at least two third telescopic spring rods (57) are uniformly arranged on the bracket (1) at intervals;
a placing plate (55) which is arranged between the third telescopic spring rods (57), and a sliding groove (56) is formed on the placing plate (55);
a second wedge block (54) mounted on the placement plate (55);
and the third clamping blocks (58) are installed on two sides of the bracket (1), and the third clamping blocks (58) are matched with the placing plate (55).
6. An environment-friendly carbon powder adding device according to claim 5, further comprising a material storage shaking component (6), wherein the material storage shaking component (6) comprises:
the third connecting rod (61) is arranged on two sides of the threaded sleeve (25);
a fourth telescopic spring rod (62) mounted on the third connecting rod (61);
the first wedge-shaped disc (63) is arranged between the fourth telescopic spring rods (62), and the first wedge-shaped disc (63) is connected with the push rod (51);
the third clamping sleeve (64) is arranged between the first connecting rods (31), and the third clamping sleeve (64) is matched with the material storage box (33) in a sliding manner;
the fifth telescopic spring rods (65), at least two fifth telescopic spring rods (65) are uniformly arranged on the third clamping sleeve (64) at intervals;
the first stop blocks (66), at least two first stop blocks (66) are uniformly arranged on the third clamping sleeve (64) at intervals, and the first stop blocks (66) are matched with the material storage box (33);
the second wedge-shaped disc (67) is arranged between the fifth telescopic spring rods (65), and the second wedge-shaped disc (67) is connected with the material storage box (33) at the same time;
and the second stop blocks (68) are arranged on two sides of the third clamping sleeve (64), and the second stop blocks (68) are matched with the second wedge-shaped disc (67).
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| CN202011083862.7A CN112278896B (en) | 2020-10-12 | 2020-10-12 | Environment-friendly carbon powder adding device |
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| CN202011083862.7A CN112278896B (en) | 2020-10-12 | 2020-10-12 | Environment-friendly carbon powder adding device |
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| CN112278896A true CN112278896A (en) | 2021-01-29 |
| CN112278896B CN112278896B (en) | 2022-06-21 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115848705A (en) * | 2023-02-21 | 2023-03-28 | 广州市达远智能办公设备有限公司 | Carbon powder filling and packaging machine with water vapor detection function |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN115848705A (en) * | 2023-02-21 | 2023-03-28 | 广州市达远智能办公设备有限公司 | Carbon powder filling and packaging machine with water vapor detection function |
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| CN112278896B (en) | 2022-06-21 |
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