CN108046200B

CN108046200B - Environment-friendly carbon powder adds device

Info

Publication number: CN108046200B
Application number: CN201711260509.XA
Authority: CN
Inventors: 饶胜智; 张健润; 许荷东
Original assignee: Zhuhai Linxiao Printing Technology Co Ltd
Current assignee: ZHUHAI MEGAIN TECHNOLOGY Co.,Ltd.
Priority date: 2017-12-04
Filing date: 2017-12-04
Publication date: 2020-05-05
Anticipated expiration: 2037-12-04
Also published as: CN108046200A

Abstract

The invention relates to a carbon powder adding device, in particular to an environment-friendly carbon powder adding device. The invention aims to provide an environment-friendly carbon powder adding device. In order to solve the technical problems, the invention provides 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. The environment-friendly carbon powder adding device provided by the invention is provided with the turnover device and the conveying device, and the carbon powder can be conveyed in a closed manner by combining the turnover device and the conveying device, so that the carbon powder is completely added into the selenium drum.

Description

Environment-friendly carbon powder adds device

Technical Field

The invention relates to a carbon powder adding device, in particular to an environment-friendly carbon powder adding device.

Background

The main component of the carbon powder is not carbon, but most of the carbon powder is composed of resin, carbon black, a charge agent, magnetic powder and the like. The carbon powder is melted into the paper fibers at high temperature and the resin is oxidized to form a gas with a pungent odor, known as ozone. This gas has only one benefit of protecting the earth and reducing the damage of solar radiation. The medicine has no benefit to human body, can cause irritation to human mucosa, and is easy to improve the asthma incidence rate or nasal allergy, even dizziness, vomit and other phenomena. Many cartridges are sold in the market as individual toners because they can be added by the user and reused after the original toner is used up. By adding the toner by itself, the use cost of the consumable material of the user is greatly reduced. 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. The cartridge determines not only the quality of the print, but also the amount of money the user spends during use. 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. Selenium is a non-metallic chemical element and the chemical symbol is Se. Can be used as photosensitive material, catalyst in electrolytic manganese industry, nutrient elements necessary for animal bodies, nutrient elements beneficial for plants and the like.

The carbon powder is used up the back in the selenium-enriched drum all to current people, directly takes the carbon powder bottle to fall the carbon powder in the selenium-enriched drum, nevertheless at the in-process to the selenium-enriched drum filling, and the carbon powder takes place to leak easily, spills to the air to cause office environment's pollution, seriously endanger people's healthy, be unfavorable for people's production and life, consequently need urgent research and development an environment-friendly carbon powder and add the device.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that people directly take a carbon powder bottle to pour carbon powder into a toner cartridge after the carbon powder in the toner cartridge is used up, but the carbon powder is easy to leak and spill into the air during the filling process of the toner cartridge, thereby causing the pollution of the office environment, and the invention provides an environment-friendly carbon powder adding device to solve the technical problem.

(2) Technical scheme

In order to solve the technical problems, the invention provides 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, a first pressing block, a guide plate and a second positioning screw rod, wherein the base is provided with a base seat; the turnover device and the conveying device are arranged above the base, the turnover device and the conveying device are positioned in front of the large fixing plate, the top of the large fixing plate is provided with a first positioning screw rod, the first positioning screw rod and the large fixing plate are in threaded connection, the first pressing block, the guide plate and the second positioning screw rod are positioned in front of the large fixing plate, the bottom of the guide plate and the top of the base are fixedly connected, the guide plate is provided with a threaded hole which penetrates through the guide plate from left to right, the second positioning screw rod is positioned in the threaded hole of the guide plate, the second positioning screw rod and the guide plate are in threaded connection, the second positioning screw rod is connected with the first pressing block and the first pressing block, the guide plate and the second positioning screw are arranged in a bilateral symmetry mode, the first pressing blocks arranged in the bilateral symmetry mode are located between the guide plates arranged in the bilateral symmetry mode, the top of the base is provided with a groove, and the groove of the base is located between the first pressing blocks arranged in the bilateral symmetry mode.

Preferably, the turning device comprises a rotating shaft, a concave connecting plate, an annular rotating ring, a small connecting block, a fixing ring, a second pressing block and a third positioning screw rod; the upper part of the large fixing plate is provided with a hole which penetrates through the large fixing plate from front to back, the rotating shaft is positioned in the hole on the upper part of the large fixing plate, the rotating shaft and the large fixing plate are rotatably connected, a first positioning screw rod is contacted with the rotating shaft, the front end of the rotating shaft and the middle part of the rear side wall of the concave connecting plate are fixedly connected, the concave connecting plate is positioned in front of the large fixing plate, the annular rotating ring is positioned in the concave connecting plate, the annular rotating ring and the concave connecting plate are fixedly connected, the top of the annular rotating ring is provided with a hole which penetrates through the annular rotating ring from top to bottom, the bottom of the annular rotating ring is provided with a threaded hole, two sides of the fixing ring are symmetrically provided with small connecting blocks in a left-right mode, the fixing ring and the small connecting blocks are fixedly connected, the small connecting blocks, the third positioning screw rod is positioned in a threaded hole at the bottom of the annular rotating ring, the third positioning screw rod is in threaded connection with the annular rotating ring, and the upper end of the third positioning screw rod is fixedly connected with the bottom of the second pressing block.

Preferably, the conveying device comprises a cannula, a first cover body, a valve, a hose, a conical pipe and a second cover body; the intubate is located the downthehole at annular rotatory circle top, the intubate sets up to fixed connection with annular rotatory circle, first lid cover is on the intubate, first lid sets up to fixed connection with the intubate, the lower part of first lid and intubate all is located annular rotatory circle, intubate and first lid all are located solid fixed ring directly over, install the valve on the intubate, the valve is located the top of annular rotatory circle, the hose is located the upper right side of annular rotatory circle, the one end and the intubate of hose set up to fixed connection, the hose is linked together with the intubate, the other end of hose is connected with the conical duct, the conical duct is linked together with the hose, second lid cover is on the conical duct, second lid and conical duct set up to fixed connection.

Preferably, the device also comprises a first gear, a second gear, a connecting shaft, a bearing seat, a rotating disk and an L-shaped fixing plate; the first gear is located the rear of big fixed plate, first gear sets up to fixed connection with the rear end of rotation axis, the second gear is located the below of first gear, the second gear meshes with first gear mutually, the front end of connecting axle sets up to fixed connection with the second gear, the middle part of bearing in the bearing frame and connecting axle sets up to the interference and is connected, the preceding lateral wall of rotary disk sets up to fixed connection with the rear end of connecting axle, L shape fixed plate is located the below of bearing frame, L shape fixed plate sets up to fixed connection with the bearing frame, L shape fixed plate is located the rear of big fixed plate, L shape fixed plate sets up to fixed connection with big fixed plate.

Preferably, the device also comprises a small support, a first guide sleeve, a first guide rod, a second guide sleeve, a second guide rod, an inserted rod, a small connecting plate, an L-shaped clamping plate and a plate spring; the small bracket is positioned at the right front part of the large fixing plate, the lower end of the small bracket is fixedly connected with the top of the base, the bottom of the first guide sleeve is fixedly connected with the upper end of the small bracket, the first guide rod is slidably positioned in the first guide sleeve, the left end of the first guide rod is fixedly connected with the right side wall of the second guide sleeve, the second guide rod is slidably positioned in the second guide sleeve, the upper end of the inserted link is fixedly connected with the lower end of the second guide rod, small connecting plates are arranged at the two sides of the inserted link in a bilateral symmetry manner, the small connecting plates and the inserted link are fixedly connected, L-shaped clamping plates are arranged at the two sides of the inserted link in a bilateral symmetry manner, the L-shaped clamping plates are positioned at the front part of the small connecting plates and are rotatably connected, leaf springs are arranged at the two sides of the inserted link in a bilateral symmetry manner, one end of each leaf spring is fixedly connected with the inserted link, and the other, the plate spring is positioned above the small connecting plate.

Preferably, the device also comprises a first spring, a fourth positioning screw and a second spring; the first spring sleeve is arranged on the first guide rod, the first spring is located on the right side of the first guide sleeve, the top of the first guide sleeve is provided with a fourth positioning screw rod, the fourth positioning screw rod is in threaded connection with the first guide sleeve, the second spring sleeve is arranged on the second guide rod, and the second spring is located above the second guide sleeve.

Preferably, the device also comprises a handle, a first roller and a second roller; the bilateral symmetry formula of the both sides of big fixed plate is provided with the handle, and the handle sets up to fixed connection with big fixed plate, and the bottom of base is connected with first gyro wheel and second gyro wheel.

The working principle is as follows: because the invention comprises a base, a turnover device, a conveying device, a large fixed plate, a first positioning screw rod, a first pressing block, a guide plate and a second positioning screw rod, in the invention, a carbon powder bottle can be firstly placed on the turnover device, then a cover of the carbon powder bottle is screwed off, the carbon powder bottle is tightly clamped by the turnover device to avoid the carbon powder from being splashed in the air, the surrounding environment is protected, then the first positioning screw rod is unscrewed, then the turnover device is turned over, the turnover device, the conveying device and the carbon powder bottle are turned to a set position, then the first positioning screw rod is screwed down, so that the turnover device, the conveying device and the carbon powder bottle are fixed, then the conveying device is connected with a selenium drum right below, at the moment, the selenium drum is disassembled, the conveying device can enter a feeding hole of the selenium drum, and then the carbon powder is conveyed into the selenium drum safely and environmentally friendly by the turnover device and the conveying device, the selenium drum is favorable for protecting the health of people, the selenium drum can be inserted into the groove of the base, and people can tightly clamp the selenium drum positioned in the middle of the first pressing blocks arranged in the bilateral symmetry mode by screwing the second positioning screw rod, so that the selenium drum is prevented from being toppled over, and carbon powder is conveniently added.

Because the turnover device comprises the rotating shaft, the concave connecting plate, the annular rotating ring, the small connecting block, the fixing ring, the second pressing block and the third positioning screw rod, when the turnover device is used, the carbon powder bottle can be firstly loaded into the fixing ring, then the third positioning screw rod is screwed, the third positioning screw rod drives the second pressing block to move upwards and move upwards to the position of the carbon powder bottle, then the bottom of the carbon powder bottle is supported, then the cover of the carbon powder bottle is screwed off, the fixing ring is used for fixing the carbon powder bottle, the carbon powder bottle is prevented from overturning, then the third positioning screw rod is continuously screwed upwards, the third positioning screw rod drives the carbon powder bottle to move upwards through the second pressing block, the bottleneck of the carbon powder bottle is upwards inserted into the conveying device, and the carbon powder bottle can be tightly clamped through the second pressing block and the conveying device.

Because the conveying device comprises the inserting tube, the first cover body, the valve, the hose, the conical tube and the second cover body, when the conveying device is used, the carbon powder bottle is driven to move upwards through the overturning device, the carbon powder bottle is combined with the conveying device, the second pressing block tightly supports the carbon powder bottle, the bottle opening of the carbon powder bottle is inserted into the first cover body, the lower end of the inserting tube is also inserted into the bottle opening of the carbon powder bottle, the inserting tube and the first cover body are tightly combined together to prevent carbon powder from spilling out, when people invert the carbon powder bottle through the overturning device and the conveying device, people can insert the conical tube downwards into the feeding hole of the selenium drum to prevent the carbon powder from spilling out, the carbon powder is completely added into the selenium drum, meanwhile, the second cover body can cover the feeding hole of the selenium drum to further protect the surrounding environment, avoid the carbon dust to enter into the air, then people open the valve, can carry the carbon dust through the hose.

Because still including first gear, the second gear, the connecting axle, the bearing frame, rotary disk and L shape fixed plate, so when will turning over the turning device, conveyor and carbon powder bottle overturn, can unscrew first positioning screw earlier, rotate the rotary disk again, the rotary disk drives the connecting axle and rotates, the bearing frame provides the rotation support for the connecting axle, the connecting axle drives the second gear and rotates, the second gear drives first gear and rotates, first gear drives conveyor and carbon powder bottle through turning device and overturns, it is not only steady to rotate, and labour saving and time saving more, when turning over the turning device again, when conveyor and carbon powder bottle overturn the position of settlement, it can be fixed turning over device, conveyor and carbon powder bottle to tighten first positioning screw again.

Because the toner cartridge also comprises a small support, a first guide sleeve, a first guide rod, a second guide sleeve, a second guide rod, an inserted rod, a small connecting plate, an L-shaped clamping plate and a plate spring, after the carbon powder is added into the toner cartridge, people can slide the first guide rod leftwards, drive the second guide sleeve and the second guide rod to move leftwards together through the first guide rod, move the inserted rod and the hole plug leftwards to be right above the feed hole of the toner cartridge, at the moment, people manually pull the second guide rod, so that the hole plug can be positioned right above the feed hole of the toner cartridge, drive the hole plug to move downwards through the second guide rod and the inserted rod, insert the hole plug downwards into the feed hole of the toner cartridge, pull the L-shaped clamping plate outwards to loosen the hole plug, continue to press the hole plug through the inserted rod, and firmly insert the hole plug into the feed hole of the toner cartridge, and the feeding hole of the toner cartridge is tightly covered, so that all the possibility that hands contact the carbon powder is avoided, and the toner cartridge is safer and more environment-friendly.

Because still including first spring, fourth positioning screw and second spring, so after first guide bar moved the position of settlement, people can be through screwing up fourth positioning screw to realize the fixed of first guide bar, can prevent about the second guide bar in disorder to shake, first spring provides the support that resets for first guide bar, and the second spring provides the support that resets for the second guide bar simultaneously, makes things convenient for people's operation.

Because the handle, the first roller and the second roller are further included, people can carry the multifunctional trolley conveniently through the handle, and the multifunctional trolley can be moved conveniently and quickly through the first roller and the second roller.

(3) Advantageous effects

The environment-friendly carbon powder adding device provided by the invention is provided with the overturning device and the conveying device, and can carry out closed conveying on carbon powder by combining the overturning device and the conveying device, so that the carbon powder is completely added into the selenium drum, the carbon powder is prevented from being splashed into the air, the office environment is protected, the health of people is protected, the environment is protected, the resource is saved, the cost is reduced, the structure is simple, the operation is convenient, the maintenance and the repair are easy, the maintenance and the repair cost is low, the production and the manufacture are easy, and the production and the manufacture cost is low.

Drawings

Fig. 1 is a schematic front view structure of the present invention.

Fig. 2 is a schematic perspective view of the annular rotating ring of the present invention.

Fig. 3 is a schematic front sectional view of a second cover according to the present invention.

Fig. 4 is a left side view structural diagram of the first gear of the present invention.

Fig. 5 is a front view structure diagram of the small bracket of the invention.

Fig. 6 is a front view structural schematic diagram of a second guide sleeve of the present invention.

Fig. 7 is a front view structural schematic diagram of a fourth positioning screw of the present invention.

Fig. 8 is a front view structural schematic diagram of the handle of the present invention.

The labels in the figures are: 1-base, 2-turning device, 3-conveying device, 4-large fixed plate, 5-first positioning screw, 6-first pressing block, 7-guide plate, 8-second positioning screw, 11-groove, 12-selenium drum, 13-hole plug, 14-carbon powder bottle, 21-rotating shaft, 22-concave connecting plate, 23-annular rotating ring, 24-small connecting block, 25-fixing ring, 26-second pressing block, 27-third positioning screw, 31-inserting pipe, 32-first cover body, 33-valve, 34-hose, 35-conical pipe, 36-second cover body, 41-first gear, 42-second gear, 43-connecting shaft, 44-bearing seat, 45-rotating disk, 46-L-shaped fixed plate, 51-small support, 52-first guide sleeve, 53-first guide rod, 54-second guide sleeve, 55-second guide rod, 56-inserted rod, 57-small connecting plate, 58-L-shaped clamping plate, 59-plate spring, 61-first spring, 62-fourth positioning screw rod, 63-second spring, 71-handle, 72-first roller and 73-second roller.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

An environment-friendly carbon powder adding device is shown in figures 1-8 and comprises a base 1, a turnover device 2, a conveying device 3, a large fixing plate 4, a first positioning screw rod 5, a first pressing block 6, a guide plate 7 and a second positioning screw rod 8; the turnover device 2 and the conveying device 3 are arranged above the base 1, the turnover device 2 and the conveying device 3 are both positioned in front of the large fixing plate 4, the top of the large fixing plate 4 is provided with a first positioning screw 5, the first positioning screw 5 and the large fixing plate 4 are in threaded connection, the first pressing block 6, the guide plate 7 and the second positioning screw 8 are all positioned in front of the large fixing plate 4, the bottom of the guide plate 7 and the top of the base 1 are in fixed connection, the guide plate 7 is provided with a threaded hole which penetrates left and right, the second positioning screw 8 is positioned in the threaded hole of the guide plate 7, the second positioning screw 8 and the guide plate 7 are in threaded connection, the second positioning screw 8 is connected with the first pressing block 6, the guide plate 7 and the second positioning screw 8 are in bilateral symmetry arrangement, the first pressing block 6 in bilateral symmetry arrangement is positioned between the guide plates 7 in bilateral symmetry arrangement, the top of the base 1 is provided with a groove 11, and the groove 11 of the base 1 is positioned between the first pressing blocks 6 which are arranged in a bilateral symmetry manner.

Example 2

The turning device 2 comprises a rotating shaft 21, a concave connecting plate 22, an annular rotating ring 23, a small connecting block 24, a fixing ring 25, a second pressing block 26 and a third positioning screw 27; the upper portion of big fixed plate 4 is opened with the hole that runs through from beginning to end, rotation axis 21 is located the hole on big fixed plate 4 upper portion, rotation axis 21 sets up to the rotary type with big fixed plate 4 and is connected, first positioning screw rod 5 contacts with rotation axis 21, the middle part of rotation axis 21's front end and concave connecting plate 22 back side wall sets up fixed connection, concave connecting plate 22 is located the place ahead of big fixed plate 4, annular rotating ring 23 is located concave connecting plate 22, annular rotating ring 23 sets up fixed connection with concave connecting plate 22, the top of annular rotating ring 23 is opened has the hole that runs through from top to bottom, the bottom of annular rotating ring 23 is opened threaded hole, the bilateral symmetry formula of fixed ring 25 is provided with little connecting block 24, fixed ring 25 sets up fixed connection with little connecting block 24, little connecting block 24 and fixed ring 25 all are located annular rotating ring 23, little connecting block 24 sets up fixed, the second pressing block 26 is located in the annular rotating ring 23, the second pressing block 26 is located under the fixing ring 25, the third positioning screw 27 is located in a threaded hole in the bottom of the annular rotating ring 23, the third positioning screw 27 and the annular rotating ring 23 are in threaded connection, and the upper end of the third positioning screw 27 and the bottom of the second pressing block 26 are in fixed connection.

Example 3

The conveying device 3 comprises an insertion pipe 31, a first cover body 32, a valve 33, a hose 34, a conical pipe 35 and a second cover body 36; the inserting pipe 31 is located in a hole in the top of the annular rotating ring 23, the inserting pipe 31 and the annular rotating ring 23 are fixedly connected, the first cover body 32 is sleeved on the inserting pipe 31, the first cover body 32 and the inserting pipe 31 are fixedly connected, the lower portions of the first cover body 32 and the inserting pipe 31 are located in the annular rotating ring 23, the inserting pipe 31 and the first cover body 32 are located right above the fixing ring 25, a valve 33 is installed on the inserting pipe 31, the valve 33 is located above the annular rotating ring 23, the hose 34 is located above the annular rotating ring 23, one end of the hose 34 and the inserting pipe 31 are fixedly connected, the hose 34 is communicated with the inserting pipe 31, the other end of the hose 34 is connected with a conical pipe 35, the conical pipe 35 is communicated with the hose 34, the second cover body 36 is sleeved on the conical pipe 35, and the second cover body 36 and the.

Example 4

The device also comprises a first gear 41, a second gear 42, a connecting shaft 43, a bearing seat 44, a rotating disk 45 and an L-shaped fixing plate 46; the first gear 41 is located behind the large fixing plate 4, the first gear 41 is fixedly connected with the rear end of the rotating shaft 21, the second gear 42 is located below the first gear 41, the second gear 42 is meshed with the first gear 41, the front end of the connecting shaft 43 is fixedly connected with the second gear 42, a bearing in the bearing seat 44 is in interference connection with the middle of the connecting shaft 43, the front side wall of the rotating disc 45 is fixedly connected with the rear end of the connecting shaft 43, the L-shaped fixing plate 46 is located below the bearing seat 44, the L-shaped fixing plate 46 is fixedly connected with the bearing seat 44, the L-shaped fixing plate 46 is located behind the large fixing plate 4, and the L-shaped fixing plate 46 and the large fixing plate 4 are fixedly connected.

The device also comprises a small bracket 51, a first guide sleeve 52, a first guide rod 53, a second guide sleeve 54, a second guide rod 55, an inserted rod 56, a small connecting plate 57, an L-shaped clamping plate 58 and a plate spring 59; the small bracket 51 is positioned at the right front of the large fixing plate 4, the lower end of the small bracket 51 is fixedly connected with the top of the base 1, the bottom of the first guide sleeve 52 is fixedly connected with the upper end of the small bracket 51, the first guide rod 53 is slidably positioned in the first guide sleeve 52, the left end of the first guide rod 53 is fixedly connected with the right side wall of the second guide sleeve 54, the second guide rod 55 is slidably positioned in the second guide sleeve 54, the upper end of the insertion rod 56 is fixedly connected with the lower end of the second guide rod 55, the two sides of the insertion rod 56 are bilaterally symmetrically provided with small connecting plates 57, the small connecting plates 57 and the insertion rod 56 are fixedly connected, the two sides of the insertion rod 56 are bilaterally symmetrically provided with L-shaped clamping plates 58, the L-shaped clamping plates 58 are positioned at the front of the small connecting plates 57, the L-shaped clamping plates 58 and the small connecting plates 57 are rotatably connected, the two sides of the insertion rod 56 are bilaterally symmetrically, one end of the plate spring 59 is fixedly connected with the inserted rod 56, the other end of the plate spring 59 is fixedly connected with the L-shaped clamping plate 58, and the plate spring 59 is positioned above the small connecting plate 57.

The device also comprises a first spring 61, a fourth positioning screw 62 and a second spring 63; the first spring 61 is sleeved on the first guide rod 53, the first spring 61 is positioned on the right side of the first guide sleeve 52, the top of the first guide sleeve 52 is provided with a fourth positioning screw 62, the fourth positioning screw 62 is in threaded connection with the first guide sleeve 52, the second spring 63 is sleeved on the second guide rod 55, and the second spring 63 is positioned above the second guide sleeve 54.

The device also comprises a handle 71, a first roller 72 and a second roller 73; handles 71 are symmetrically arranged on the two sides of the large fixing plate 4 in a bilateral mode, the handles 71 and the large fixing plate 4 are fixedly connected, and a first roller 72 and a second roller 73 are connected to the bottom of the base 1.

The working principle is as follows: because the invention comprises a base 1, a turnover device 2, a conveying device 3, a large fixing plate 4, a first positioning screw 5, a first pressing block 6, a guide plate 7 and a second positioning screw 8, in the invention, a carbon powder bottle 14 can be firstly placed on the turnover device 2, then the cover of the carbon powder bottle 14 is screwed off, then the carbon powder bottle 14 is tightly clamped by the turnover device 2, the carbon powder is prevented from being splashed in the air, the surrounding environment is protected, then the first positioning screw 5 is unscrewed, then the turnover device 2 is overturned by the turnover device 2, the conveying device 3 and the carbon powder bottle 14 are overturned to the set position, then the first positioning screw 5 is screwed down, so that the turnover device 2, the conveying device 3 and the carbon powder bottle 14 are fixed, then the conveying device 3 is connected with a selenium drum 12 right below, and at this time, the selenium drum 12 is completely disassembled, conveying device 3 can enter into the feed inlet of selenium drum 12, then in carrying selenium drum 12 with carbon powder safety ring through turning device 2 and conveying device 3, be favorable to protecting people's healthy, in selenium drum 12 can insert the recess 11 of base 1, people are through screwing up second positioning screw 8, thereby can be with being located the tight jam of selenium drum 12 in the middle of the first briquetting 6 that bilateral symmetry formula set up, avoid selenium drum 12 to empty, be convenient for the interpolation of carbon powder.

Because the turnover device 2 comprises the rotating shaft 21, the concave connecting plate 22, the annular rotating ring 23, the small connecting block 24, the fixing ring 25, the second pressing block 26 and the third positioning screw 27, when the turnover device 2 is to be used, the toner bottle 14 can be first loaded into the fixing ring 25, then the third positioning screw 27 is screwed, the third positioning screw 27 drives the second pressing block 26 to move upwards, and moves upward to the position of the carbon powder bottle 14, and then supports the bottom of the carbon powder bottle 14, then the cap of the carbon powder bottle 14 is screwed off, the fixing ring 25 provides the carbon powder bottle 14 with fixing, the carbon powder bottle 14 is prevented from overturning, then, the third positioning screw 27 is continuously screwed upwards, the third positioning screw 27 drives the carbon powder bottle 14 to move upwards through the second pressing block 26, and the mouth of the carbon powder bottle 14 is inserted upwards into the conveying device 3, and the carbon powder bottle 14 is tightly clamped by the second pressing block 26 and the conveying device 3.

Because the conveying device 3 comprises the inserting tube 31, the first cover body 32, the valve 33, the hose 34, the tapered tube 35 and the second cover body 36, when the conveying device 3 is used, the carbon powder bottle 14 is driven to move upwards by the overturning device 2, the carbon powder bottle 14 is combined with the conveying device 3, at the moment, the second pressing block 26 tightly supports the carbon powder bottle 14, the bottle opening of the carbon powder bottle 14 is inserted into the first cover body 32, the lower end of the inserting tube 31 is also inserted into the bottle opening of the carbon powder bottle 14, the inserting tube 31 and the first cover body 32 are tightly combined together, the carbon powder can be prevented from spilling, when people invert the carbon powder bottle 14 by the overturning device 2 and the conveying device 3, people can insert the tapered tube 35 downwards into the feeding hole of the toner cartridge 12, the carbon powder can be prevented from spilling, the carbon powder can be completely added into the toner cartridge 12, and the second cover body 36 can cover the feeding hole of the toner cartridge 12, further protecting the surrounding environment and preventing carbon powder from entering the air, then people open the valve 33 and can convey the carbon powder through the hose 34.

Because the first gear 41, the second gear 42, the connecting shaft 43, the bearing seat 44, the rotating disk 45 and the L-shaped fixing plate 46 are also included, therefore, when the turnover device 2, the conveying device 3 and the carbon powder bottle 14 are to be turned over, the first positioning screw 5 can be unscrewed, the rotating disc 45 is rotated, the rotating disc 45 drives the connecting shaft 43 to rotate, the bearing seat 44 provides a rotating support for the connecting shaft 43, the connecting shaft 43 drives the second gear 42 to rotate, the second gear 42 drives the first gear 41 to rotate, the first gear 41 drives the conveying device 3 and the carbon powder bottle 14 to turn over through the turnover device 2, the rotation is not only stable, and is more time-saving and labor-saving, when the turnover device 2, the conveying device 3 and the carbon powder bottle 14 are turned over to the set positions, and then the first positioning screw 5 is screwed down, so that the overturning device 2, the conveying device 3 and the carbon powder bottle 14 can be fixed.

Because the toner cartridge further comprises the small bracket 51, the first guide sleeve 52, the first guide rod 53, the second guide sleeve 54, the second guide rod 55, the inserting rod 56, the small connecting plate 57, the L-shaped clamping plate 58 and the plate spring 59, after the carbon powder is completely added into the toner cartridge 12, people can slide the first guide rod 53 leftwards, drive the second guide sleeve 54 and the second guide rod 55 to move leftwards together through the first guide rod 53, move the inserting rod 56 and the hole plug 13 leftwards to be right above the feeding hole of the toner cartridge 12, at the moment, people manually pull the second guide rod 55, so that the hole plug 13 can be positioned right above the feeding hole of the toner cartridge 12, then drive the hole plug 13 downwards through the second guide rod 55 and the inserting rod 56 to move downwards, insert the hole plug 13 into the feeding hole of the toner cartridge 12, and then pull the L-shaped clamping plate 58 outwards to loosen the hole plug 13, and the hole plug 13 is continuously pressed through the inserting rod 56, so that the hole plug 13 is firmly inserted into the feeding hole of the toner cartridge 12 and the feeding hole of the toner cartridge 12 is tightly covered, all the possibility that hands contact with carbon powder is eliminated, and the toner cartridge is safer and more environment-friendly.

Because still including first spring 61, fourth positioning screw 62 and second spring 63, so after first guide bar 53 moved the position of settlement, people can be through screwing up fourth positioning screw 62 to realize the fixed of first guide bar 53, can prevent that second guide bar 55 from controlling the indiscriminate shake, first spring 61 provides the support that resets for first guide bar 53, and second spring 63 provides the support that resets for second guide bar 55 simultaneously, makes things convenient for people's operation.

Because the handle 71, the first roller 72 and the second roller 73 are further included, people can carry the invention conveniently through the handle 71, and can move the invention conveniently and quickly through the first roller 72 and the second roller 73.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An environment-friendly carbon powder adding device is characterized by comprising a base (1), a turnover device (2), a conveying device (3), a large fixing plate (4), a first positioning screw (5), a first pressing block (6), a guide plate (7) and a second positioning screw (8); the top of base (1) is provided with turning device (2) and conveyor (3), turning device (2) and conveyor (3) all are located the place ahead of big fixed plate (4), the top of big fixed plate (4) is provided with first positioning screw (5), first positioning screw (5) set up to threaded connection with big fixed plate (4), first briquetting (6), deflector (7) and second positioning screw (8) all are located the place ahead of big fixed plate (4), the bottom of deflector (7) sets up to fixed connection with the top of base (1), deflector (7) are opened and are controlled the screw hole that runs through, second positioning screw (8) are located the threaded hole of deflector (7), second positioning screw (8) set up to threaded connection with deflector (7), second positioning screw (8) are connected with first briquetting (6), first briquetting (6), The guide plates (7) and the second positioning screws (8) are arranged in a bilateral symmetry mode, the first pressing blocks (6) arranged in the bilateral symmetry mode are located between the guide plates (7) arranged in the bilateral symmetry mode, the top of the base (1) is provided with a groove (11), and the groove (11) of the base (1) is located between the first pressing blocks (6) arranged in the bilateral symmetry mode; the turning device (2) comprises a rotating shaft (21), a concave connecting plate (22), an annular rotating ring (23), a small connecting block (24), a fixing ring (25), a second pressing block (26) and a third positioning screw (27); the upper part of a large fixing plate (4) is provided with a hole which penetrates through the large fixing plate in the front and back direction, a rotating shaft (21) is positioned in the hole on the upper part of the large fixing plate (4), the rotating shaft (21) and the large fixing plate (4) are set to be connected in a rotating mode, a first positioning screw rod (5) is contacted with the rotating shaft (21), the front end of the rotating shaft (21) and the middle part of the rear side wall of a concave connecting plate (22) are set to be fixedly connected, the concave connecting plate (22) is positioned in the front of the large fixing plate (4), an annular rotating ring (23) is positioned in the concave connecting plate (22), the annular rotating ring (23) and the concave connecting plate (22) are set to be fixedly connected, the top of the annular rotating ring (23) is provided with a hole which penetrates through the upper part and the lower part, the bottom of the annular rotating ring (23) is provided with a, the small connecting block (24) and the fixing ring (25) are both located in the annular rotating ring (23), the small connecting block (24) and the annular rotating ring (23) are fixedly connected, the second pressing block (26) is located in the annular rotating ring (23), the second pressing block (26) is located under the fixing ring (25), the third positioning screw (27) is located in a threaded hole in the bottom of the annular rotating ring (23), the third positioning screw (27) and the annular rotating ring (23) are in threaded connection, and the upper end of the third positioning screw (27) is fixedly connected with the bottom of the second pressing block (26); the conveying device (3) comprises an insertion pipe (31), a first cover body (32), a valve (33), a hose (34), a conical pipe (35) and a second cover body (36); the insertion pipe (31) is positioned in a hole at the top of the annular rotating ring (23), the insertion pipe (31) and the annular rotating ring (23) are fixedly connected, a first cover body (32) is sleeved on the insertion pipe (31), the first cover body (32) and the insertion pipe (31) are fixedly connected, the lower parts of the first cover body (32) and the insertion pipe (31) are both positioned in the annular rotating ring (23), the insertion pipe (31) and the first cover body (32) are both positioned right above the fixing ring (25), a valve (33) is installed on the insertion pipe (31), the valve (33) is positioned above the annular rotating ring (23), a hose (34) is positioned right above the annular rotating ring (23), one end of the hose (34) and the insertion pipe (31) are fixedly connected, the hose (34) is communicated with the insertion pipe (31), the other end of the hose (34) is connected with a tapered pipe (35), and the tapered pipe (35) is communicated with the hose (34), the second cover body (36) is sleeved on the conical pipe (35), and the second cover body (36) is fixedly connected with the conical pipe (35); the device also comprises a first gear (41), a second gear (42), a connecting shaft (43), a bearing seat (44), a rotating disc (45) and an L-shaped fixing plate (46); the first gear (41) is located behind the large fixing plate (4), the first gear (41) is fixedly connected with the rear end of the rotating shaft (21), the second gear (42) is located below the first gear (41), the second gear (42) is meshed with the first gear (41), the front end of the connecting shaft (43) is fixedly connected with the second gear (42), a bearing in the bearing seat (44) is in interference connection with the middle of the connecting shaft (43), the front side wall of the rotating disc (45) is fixedly connected with the rear end of the connecting shaft (43), the L-shaped fixing plate (46) is located below the bearing seat (44), the L-shaped fixing plate (46) is fixedly connected with the bearing seat (44), the L-shaped fixing plate (46) is located behind the large fixing plate (4), and the L-shaped fixing plate (46) is fixedly connected with the large fixing plate (4); the device also comprises a small support (51), a first guide sleeve (52), a first guide rod (53), a second guide sleeve (54), a second guide rod (55), an inserted rod (56), a small connecting plate (57), an L-shaped clamping plate (58) and a plate spring (59); the small support (51) is positioned at the right front of the large fixing plate (4), the lower end of the small support (51) is fixedly connected with the top of the base (1), the bottom of the first guide sleeve (52) is fixedly connected with the upper end of the small support (51), the first guide rod (53) is slidably positioned in the first guide sleeve (52), the left end of the first guide rod (53) is fixedly connected with the right side wall of the second guide sleeve (54), the second guide rod (55) is slidably positioned in the second guide sleeve (54), the upper end of the inserted rod (56) is fixedly connected with the lower end of the second guide rod (55), small connecting plates (57) are arranged at the two sides of the inserted rod (56) in a left-right symmetrical mode, the small connecting plates (57) are fixedly connected with the inserted rod (56), L-shaped clamping plates (58) are arranged at the two sides of the inserted rod (56) in a left-right symmetrical mode, and the L-shaped clamping plates (58) are positioned in front of the small connecting plates (57), l shape cardboard (58) set up to the rotary type with small connecting plate (57) and are connected, and the bilateral symmetry formula in both sides of inserted bar (56) is provided with leaf spring (59), and the one end and inserted bar (56) of leaf spring (59) set up to fixed connection, and the other end and the L shape cardboard (58) of leaf spring (59) set up to fixed connection, and leaf spring (59) are located the top of small connecting plate (57).

2. An environment-friendly toner adding device as defined in claim 1 further comprising a first spring (61), a fourth positioning screw (62) and a second spring (63); first spring (61) cover is on first guide bar (53), and first spring (61) are located the right side of first uide bushing (52), and the top of first uide bushing (52) is provided with fourth positioning screw (62), and fourth positioning screw (62) set up to threaded connection with first uide bushing (52), and second spring (63) cover is on second guide bar (55), and second spring (63) are located the top of second uide bushing (54).

3. An environment-friendly toner adding apparatus as defined in claim 2 further comprising a handle (71), a first roller (72) and a second roller (73); handles (71) are arranged on the two sides of the large fixing plate (4) in a bilateral symmetry mode, the handles (71) and the large fixing plate (4) are fixedly connected, and a first roller (72) and a second roller (73) are connected to the bottom of the base (1).