Disclosure of Invention
In order to overcome the defects that the existing laser printer generally does not have an exhaust gas purifying function, the discharged waste not only pollutes the environment, but also can harm the health of a human body, the technical problem to be solved is as follows: a laser printer capable of reducing environmental pollution and avoiding harm to human health and capable of purifying waste gas is provided.
The technical proposal is as follows: a laser printer capable of purifying waste gas, comprising: a printer body; the two support frames are arranged at the bottom of the printer body; a frame body mounted at a lower portion of one side of the printer body; the round tubes are at least two and are detachably arranged on the frame body; the filtering mechanism is arranged on the circular tube and is used for purifying waste gas; the pulling mechanism is arranged between the supporting frame and the frame body.
Further, the filtering mechanism comprises: the filter cartridges are at least two and are arranged on one side of the circular tube; the two connecting pipes are arranged between two similar filter cylinders; at least two cylinders are arranged on the filter cylinder; the at least two filter screens are arranged on the cylinder; the connecting rods are at least two and are arranged between the two similar cylinders; the sponge blocks are at least two and are all detachably arranged in the circular tube.
Further, the pulling mechanism comprises: the two sliding frames are arranged on one side of the support frame in a sliding manner; the square frame is arranged between the tops of the two sliding frames and sleeved between the outer parts of the three cylinders; the two net plates are arranged on one side of the square frame; the two mounting blocks are arranged on two sides of the square frame; the two sliding rods are arranged in the mounting block in a sliding manner; the two limiting blocks are arranged on one side of the sliding rod and are contacted with the mounting block; the connecting frame is arranged between the other sides of the two sliding rods; the handle is arranged in the middle of the connecting frame; the at least two guide rods are arranged on one side of the frame body; the two sliding plates are arranged between the two similar guide rods in a sliding manner, are connected with the square frame and are connected with the similar cylinder; and at least two first springs are arranged between the sliding plate and two similar guide rods.
Further, still include dust extraction, dust extraction includes: the gear motor is arranged in the middle of one side of the square frame, and one end of an output shaft of the gear motor is positioned in the square frame; the rotating shafts are at least two and are rotatably arranged at the center of the cylinder, and the rotating shaft in the middle is connected with the output shaft of the speed reducing motor through a coupler; at least two blades are arranged on one side of the rotating shaft and positioned in the cylinder; the belt pulleys are at least two and are arranged on the other side of the rotating shaft; a flat belt mounted between the three pulleys.
Further, still including clearance mechanism, clearance mechanism is including: the two vertical rods are arranged at the top of the frame body; the two first sliding sleeves are respectively and slidably arranged on the vertical rod; the two second springs are arranged between the first sliding sleeve and the similar vertical rod; and the scraping plate is arranged between the two first sliding sleeves and is connected with the frame body in a sliding manner.
Further, still include drop-down mechanism, drop-down mechanism includes: the two cross bars are arranged on the outer sides of the first sliding sleeve; the two stay wires are arranged at the outer ends of the cross bars; the fixed pulleys are two and are rotatably arranged at two sides of the frame body; the two second sliding sleeves are respectively arranged on one side of the sliding rod in a sliding manner, and the tail ends of the stay wires are respectively connected with the similar second sliding sleeves by bypassing the similar fixed pulleys; and two third springs are arranged between the second sliding sleeve and the similar sliding rod.
Further, the utility model also comprises a rotating mechanism, which comprises: the two mounting rods are arranged at the lower part of one side of the printer body; the two racks are arranged on the mounting rod; the two fourth springs are arranged between the rack and the similar mounting rod; the rotating rod is rotatably arranged at the lower part of the frame body; the two gears are arranged on two sides of the rotating rod and meshed with similar racks; the rotating plate is arranged on the rotating rod; the two contact blocks are arranged at the bottom of the square frame and are contacted with the similar racks.
Further, one end of each rack is bent upwards.
The invention has the beneficial effects that: 1. the waste gas exhausted by the printer body is filtered by the carbon powder through the sponge block in the circular tube, the filtered ozone enters the filter cartridge, the activated carbon in the filter cartridge is used for adsorbing the ozone, and the ozone is reduced to pure oxygen, so that the aim of purifying the waste gas is fulfilled.
2. After printing, the square frame moves forward by pulling the handle, and then the round tube is driven to move forward to separate from the frame body, so that the sponge block and the activated carbon are replaced conveniently by the staff.
3. The output shaft of the speed reducing motor rotates to enable the rotating shaft to drive the blades to rotate, so that gas in the filter cylinder is sucked outwards, and the speed of waste gas purification is accelerated.
4. The slide bar slides forward to make the stay wire drive first sliding sleeve and slide downwards, and then drives the scraper blade and moves down the carbon dust of piling up on the sponge piece, so, can clear up the carbon dust of piling up on the sponge piece before the pipe removes.
5. The square frame moves forwards to enable the rack to drive the gear to rotate, and then the rotating plate is driven to rotate downwards to be opened, and carbon powder in the frame body falls down along with the rotating plate, so that the collection of workers is facilitated.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic view of a partial perspective structure of the present invention.
Fig. 3 is a schematic perspective view of a first part of the filtering mechanism of the present invention.
Fig. 4 is a schematic perspective view of the filtering mechanism of the present invention.
Fig. 5 is a schematic perspective view of a second portion of the filter mechanism of the present invention.
Fig. 6 is a schematic perspective view of a third portion of the filter mechanism of the present invention.
Fig. 7 is a schematic perspective view of the pulling mechanism of the present invention.
Fig. 8 is a schematic perspective view of a dust suction mechanism according to the present invention.
Fig. 9 is a schematic view of a part of a dust suction mechanism according to the present invention.
Fig. 10 is a schematic perspective view of a cleaning mechanism according to the present invention.
FIG. 11 is a schematic perspective view of the cleaning mechanism and the pull-down mechanism of the present invention.
Fig. 12 is a schematic view of a part of a pull-down mechanism according to the present invention.
Fig. 13 is a schematic perspective view of a rotating mechanism according to the present invention.
Fig. 14 is a schematic perspective view of a first part of the rotating mechanism of the present invention.
Fig. 15 is a schematic perspective view of a second part of the rotating mechanism of the present invention.
Fig. 16 is a schematic perspective view of a third portion of the rotary mechanism of the present invention.
Reference numerals: 1_support, 2_printer body, 3_frame, 4_round tube, 6_filter mechanism, 61_filter cartridge, 62_connection tube, 63_round tube, 64_filter screen, 65_connection rod, 66_sponge block, 7_pull mechanism, 71_carriage, 72_square frame, 73_mesh plate, 74_mounting block, 75_slide bar, 76_stopper, 77_connection frame, 78_handle, 79_guide bar, 791_slide plate, 792_first spring, 8_dust suction mechanism, 81_gear motor, 82_spindle, 83_blade, 84_pulley, 85_flat belt, 9_purge mechanism, 91_vertical bar, 92_first slide, 93_second spring, 94_scraper, 10_pull mechanism, 101_cross bar, 102_pull wire, 103_fixed pulley, 104_second slide, 105_third spring, 11_rotation mechanism, 111_mounting bar, 112_rack, 113_fourth spring, 114_slide bar, 115_gear, 116_rotary plate, 117_contact block.
Detailed Description
The invention is further described below with reference to the drawings and examples.
Example 1
The utility model provides a laser printer of cleanable waste gas, as shown in fig. 1-7, including support frame 1, printer body 2, framework 3, pipe 4, filtering mechanism 6 and pulling mechanism 7, printer body 2 bottom left and right sides all has support frame 1 through bolted connection, and printer body 2 front side lower part is equipped with framework 3, and horizontal equidistance detachably is equipped with three pipe 4 on the framework 3, is equipped with filtering mechanism 6 on the pipe 4, and filtering mechanism 6 is used for purifying waste gas, is equipped with pulling mechanism 7 between support frame 1 and the framework 3.
When using the device, the staff uses printer body 2 to print the work, in the in-process of printing, in the waste gas that printer body 2 produced gets into framework 3, reentrant pipe 4, filter waste gas through filter mechanism 6, after the printing is accomplished, the staff drives filter mechanism 6 through pulling mechanism 7 and moves forward, and then drive pipe 4 and move forward and break away from with framework 3, at this moment, the staff can replace filter mechanism 6's part, after accomplishing, the staff unclamps pulling mechanism 7, and then make filter mechanism 6 drive pipe 4 and move backward and reset, the convenience is followed to purify waste gas.
The filtering mechanism 6 comprises a filtering cylinder 61, a connecting pipe 62, cylinders 63, a filtering net 64, connecting rods 65 and sponge blocks 66, wherein the front side of the circular tube 4 is connected with the filtering cylinder 61 through bolts, the connecting pipes 62 are connected between the two adjacent filtering cylinders 61, the filtering cylinders 63 are arranged on the filtering cylinder 61, the filtering net 64 is symmetrically arranged on the front side of the filtering cylinder 63, three connecting rods 65 are connected between the two adjacent cylinders 63, and the sponge blocks 66 are detachably arranged on the rear side in the circular tube 4.
The pulling mechanism 7 comprises a sliding frame 71, square frames 72, a screen 73, mounting blocks 74, sliding rods 75, limiting blocks 76, connecting frames 77, handles 78, guide rods 79, sliding plates 791 and first springs 792, wherein the sliding frames 71 are arranged on the front sides of the supporting frames 1 in a sliding mode, the square frames 72 are arranged between the tops of the left and right sliding frames 71, the square frames 72 are sleeved outside the three cylinders 63, the screen 73 is symmetrically arranged on the front sides of the square frames 72 in a left-right mode, the mounting blocks 74 are connected with the left and right sides of the square frames 72 through bolts, the sliding rods 75 are arranged in the mounting blocks 74 in a sliding mode, the rear sides of the sliding rods 75 are connected with the limiting blocks 76 through bolts, the limiting blocks 76 move forwards to be in contact with the mounting blocks 74, the connecting frames 77 are arranged between the front sides of the left and right sliding rods 75, the handles 78 are arranged in the middle of the connecting frames 77, the two guide rods 79 are connected with each other through bolts, the sliding plates 791 are arranged between the two similar guide rods 79 in a sliding mode, the sliding plates 791 are connected with the square frames 63, the sliding plates 791 are connected with the similar cylinders 63, and the first springs are connected between the sliding plates 791.
When the device is used, an operator puts activated carbon into the filter cylinder 61, after waste gas enters the circular tube 4, the waste gas is filtered through the sponge block 66, carbon powder mixed in waste is blocked in the frame body 3 by the sponge block 66, filtered ozone enters the filter cylinder 61 again, the activated carbon in the filter cylinder 61 adsorbs the ozone and reduces the ozone into pure oxygen, the purified pure oxygen enters the cylinder 63 through the activated carbon in the filter cylinder 61 and is discharged into the square frame 72 through the filter screen 64 and is discharged through the screen plate 73, when the printer body 2 is used, the operator pulls the handle 78 to move forwards, the handle 78 moves forwards and drives the slide bar 75 to slide forwards through the connecting frame 77, the slide bar 75 slides forwards and drives the limiting block 76 to move forwards, after the limiting block 76 moves forwards to be contacted with the mounting block 74, the slide bar 75 continues to move forwards and drives the mounting block 74 to move forwards through the limiting block 76, the mounting block 74 moves forward to drive the square frame 72 to move forward, the sliding frame 71 slides forward on the supporting frame 1, the square frame 72 moves forward to drive the sliding plate 791 to slide forward on the guide rod 79, the first spring 792 deforms, the square frame 72 moves forward and simultaneously drives the cylinder 63 to move forward, the cylinder 63 moves forward to drive the round tube 4 to move forward through the filter cylinder 61 and separate from the frame body 3, at the moment, a worker can replace the sponge block 66 and the activated carbon, after the replacement is completed, the worker releases the handle 78, under the action of the reset of the first spring 792, the sliding plate 791 drives the square frame 72 to move backward to reset, the filter cylinder 61 drives the round tube 4 to move backward to reset, and the round tube 4 is reinserted into the frame body 3 after being moved backward to reset, so that waste gas can be purified, and simultaneously, and the cleaning material can be replaced by staff conveniently.
Example 2
On the basis of embodiment 1, as shown in fig. 1, 8, 9, 10, 11, 12, 13, 14, 15 and 16, the dust collection device further comprises a dust collection mechanism 8, the dust collection mechanism 8 comprises a gear motor 81, a rotating shaft 82, blades 83, a belt pulley 84 and a flat belt 85, the middle part of the front side of the square frame 72 is provided with the gear motor 81, one end of an output shaft of the gear motor 81 is positioned in the square frame 72, the center position of the front side of the cylinder 63 is provided with the rotating shaft 82 in a rotating manner, the rotating shaft 82 in the middle part is connected with the output shaft of the gear motor 81 through a coupling, the rear side of the rotating shaft 82 is provided with the blades 83, the blades 83 are positioned in the cylinder 63, the front side of the rotating shaft 82 is provided with the belt pulley 84, and the flat belt 85 is connected between the three belt pulleys 84 in a winding manner.
When the device is used, a worker starts the gear motor 81, the output shaft of the gear motor 81 rotates to drive the rotating shaft 82 in the middle to rotate, further, the belt pulley 84 and the flat belt 85 are matched to drive other rotating shafts 82 to rotate, the rotating shaft 82 rotates to drive the blades 83 to rotate, the blades 83 rotate to suck gas in the filter drum 61 outwards, the speed of waste gas purification is accelerated, and after the device is used, the worker closes the gear motor 81, so that the speed of waste gas purification can be accelerated.
Still including clearance mechanism 9, clearance mechanism 9 is including montant 91, first sliding sleeve 92, second spring 93 and scraper blade 94, and both sides all have montant 91 through bolted connection about framework 3 top, all slidingtype be equipped with first sliding sleeve 92 on the montant 91, and all the round joint has second spring 93 between first sliding sleeve 92 and the similar montant 91, is equipped with scraper blade 94 between two left and right sides first sliding sleeve 92, and scraper blade 94 is connected with framework 3 slidingtype.
The pull-down mechanism 10 comprises a cross rod 101, a pull-down wire 102, fixed pulleys 103, a second sliding sleeve 104 and a third spring 105, wherein the cross rod 101 is arranged on the outer side of the first sliding sleeve 92, the pull-down wire 102 is arranged at the outer end of the cross rod 101, the fixed pulleys 103 are arranged on the left side and the right side of the frame body 3 in a rotary mode, the second sliding sleeve 104 is arranged on the rear side of the sliding rod 75 in a sliding mode, the tail ends of the pull-down wires 102 are connected with the second sliding sleeve 104 by bypassing the similar fixed pulleys 103, and the third spring 105 is connected between the second sliding sleeve 104 and the similar sliding rod 75.
When the device is used, when a worker pulls the handle 78 to enable the sliding rod 75 to slide forwards, the second sliding sleeve 104 moves forwards along with the handle, the second sliding sleeve 104 moves forwards to pull the cross rod 101 to move downwards through the pull wire 102, the cross rod 101 moves downwards to drive the first sliding sleeve 92 to slide downwards, the second spring 93 is deformed, the first sliding sleeve 92 moves downwards to drive the scraping plate 94 to slide downwards to scrape carbon powder accumulated on the sponge block 66 down, so that the carbon powder falls in the frame body 3, when the sliding rod 75 continues to slide forwards to drive the square frame 72 to move forwards, at this time, the sliding rod 75 slides forwards in the second sliding sleeve 104, the third spring 105 is deformed, when the worker releases the handle 78, the sliding rod 75 slides backwards under the reset action of the third spring 105, at this time, the square frame 72 moves backwards to drive the second sliding sleeve 104 to slide backwards through the sliding rod 75, the pull wire 102 is relaxed, and under the reset action of the second spring 93, the first sliding sleeve 92 drives the scraping plate 94 to slide upwards to reset, so that the accumulated carbon powder on the sponge block 66 can be cleaned before the round tube 4 moves forwards.
The printer is characterized by further comprising a rotating mechanism 11, wherein the rotating mechanism 11 comprises a mounting rod 111, racks 112, fourth springs 113, rotating rods 114, gears 115, rotating plates 116 and contact blocks 117, the mounting rods 111 are arranged on the left side and the right side of the lower portion of the front side of the printer body 2, the racks 112 are arranged on the mounting rods 111 in a sliding mode, the front sides of the racks 112 are bent upwards and are convenient to contact with the contact blocks 117, the fourth springs 113 are connected between the racks 112 and the similar mounting rods 111, the rotating rods 114 are arranged on the lower portion of the frame body 3 in a rotating mode, the gears 115 are arranged on the left side and the right side of the rotating rods 114, the gears 115 are meshed with the similar racks 112, the rotating plates 116 are arranged on the rotating rods 114, the contact blocks 117 are symmetrically arranged on the left side and the right side of the bottom of the square frame 72, and the contact blocks 117 move forwards and are contacted with the similar racks 112.
When the device is used, the square frame 72 moves forwards to drive the contact block 117 to move forwards, when the contact block 117 moves forwards to be in contact with the rack 112, the contact block 117 moves forwards to drive the rack 112 to slide forwards, the fourth spring 113 deforms, the rack 112 slides forwards to drive the gear 115 to rotate, the gear 115 rotates to drive the rotary plate 116 to rotate downwards to open through the rotary rod 114, filtered carbon powder in the frame 3 falls down along with the frame, workers collect the filtered carbon powder, when the square frame 72 drives the contact block 117 to move backwards, under the reset action of the fourth spring 113, the rack 112 slides backwards along with the reset action of the fourth spring 113, the rack 112 slides backwards to drive the gear 115 to rotate reversely, and the gear 115 rotates reversely to drive the rotary plate 116 to rotate upwards to be closed through the rotary rod 114, so that the filtered carbon powder in the frame 3 can be more conveniently collected by the workers.
While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.