CN113730988B

CN113730988B - Vehicular urea preparation is with retrieving filter residue device

Info

Publication number: CN113730988B
Application number: CN202110958047.9A
Authority: CN
Inventors: 黄素平
Original assignee: Shandong Laike Technology Co ltd
Current assignee: Shandong Laike Technology Co ltd
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2022-11-29
Anticipated expiration: 2041-08-20
Also published as: CN113730988A

Abstract

The invention relates to a recycling and residue filtering device for preparing vehicle urea, which comprises a cylinder body, supporting legs, a liquid outlet pipe, a supporting plate, a liquid inlet pipe, an arc-shaped plate, a first rotating shaft, a porous cylinder, a hollow pipe, a filter screen, a driving mechanism and a discharging mechanism, wherein the supporting legs are fixedly connected to two sides outside the cylinder body, the supporting plate is fixedly connected to the middle part of one side outside the cylinder body, and the arc-shaped plate is fixedly connected to one side of the cylinder body in a penetrating mode. According to the invention, the liquid inlet pipe is externally connected with the vehicle urea, the liquid outlet pipe is externally connected with the collecting container, the vehicle urea is discharged into the liquid inlet pipe, the vehicle urea drives the blanking mechanism to move downwards, when the blanking mechanism moves downwards to the maximum stroke, the vehicle urea is discharged into the porous cylinder, the filter screen filters slag in the vehicle urea, the filter screen can be replaced by twisting the first rotating shaft to rotate reversely, and the filter screen can be moved to the outside of the porous cylinder to be cleaned by an operator, so that the operator can clean the filtered slag conveniently, and the next use is not influenced.

Description

Filter residue recycling device for preparing automobile urea

Technical Field

The invention relates to a filter residue recycling device, in particular to a filter residue recycling device for preparing automobile urea.

Background

In the preparation process of automobile-used urea, automobile-used urea generally all needs just can prepare better quality through multichannel instrument, can have a large amount of dregs in the automobile-used urea, for making the subsequent result of use of automobile-used urea better, all can filter the dregs in the automobile-used urea and clear away, at present, most of all filter the dregs in the automobile-used urea through filtering the machine, because filter the long-time use of machine, it filters to filter the part and be blocked up the influence easily, and clear away the dregs on filtering the part through manual, just it is more troublesome.

Therefore, the filter residue recycling device for preparing the vehicle urea is required to be designed and developed, the filter residue in the vehicle urea can be filtered, the filtered filter residue can be removed, the next filtering is not affected, and the filter residue recycling device is convenient to prepare the vehicle urea.

Disclosure of Invention

In order to overcome because the long-time use of filter machine, filter the part and be blockked up easily and influence the filtration, and clear away the sediment on filtering the part through manual by the people, with regard to more troublesome shortcoming, the technical problem who solves: the utility model provides a can enough filter the sediment in the automobile-used urea, can also clear away the sediment that filters out, does not influence and filters next time, and more convenient automobile-used urea preparation is with retrieving filter residue device.

The technical scheme is as follows: the utility model provides a vehicle urea preparation is with retrieving residue device, includes barrel, landing leg, drain pipe, backup pad, feed liquor pipe, arc, first pivot, porous cylinder, hollow tube, filter screen, actuating mechanism and unloading mechanism, the outer both sides of barrel all the rigid coupling have the landing leg, the backup pad rigid coupling in the outer one side middle part of barrel, the fixed cross-under of arc is in barrel one side, the cross-under of first pivot pivoted type between barrel both sides middle part, the fixed suit of porous cylinder is in first pivot middle part, the slidingtype cross-under of iron plate interval is in the porous cylinder outside, the hollow tube rigid coupling is inboard in the iron plate, the hollow tube is located porous cylinder, the connection in the hollow tube inboard of filter screen interval rotary type, the drain pipe rigid coupling in barrel one side, the feed liquor pipe rigid coupling is in the barrel one side of keeping away from the drain pipe, actuating mechanism installs on the barrel, actuating mechanism and iron plate contact cooperation, unloading mechanism installs on the feed liquor pipe.

The driving mechanism comprises a guide rod, a movable magnetic block and a first spring, the guide groove is formed in the middle of one side of the cylinder body far away from the supporting leg, the guide rod is fixedly connected between two sides of the guide groove, the movable magnetic block is slidably sleeved on the guide rod and is in contact with one iron block, the first spring is connected between one side of the movable magnetic block and one side of the guide groove, and the first spring is wound on the guide rod.

Unloading mechanism is including the magnet ring, solid fixed ring, the diplopore piece, link plate, trough of belt sleeve, the movable rod, the second spring, the sprue, the contact lever, third spring and contact ring, contact ring rigid coupling in the intraductal one side of feed liquor, solid fixed ring rigid coupling in the intraductal one side of feed liquor of keeping away from the landing leg, the third spring rigid coupling in solid fixed ring bottom, diplopore piece rigid coupling in third spring tail end, diplopore piece and the intraductal wall contact cooperation of feed liquor, link plate rigid coupling in two downtheholes of diplopore piece, the wearing of trough of belt sleeve slidingtype is in link plate middle part, the sprue rigid coupling is in the trough of belt sleeve tip of keeping away from the landing leg, the hole contact of sprue and diplopore piece, placing in trough of belt sleeve of movable rod slidingtype, the contact lever rigid coupling is between two movable rod one ends, contact lever and contact ring cooperation, the second spring coupling is between movable rod one end and trough of belt sleeve inboard, the suit of magnet ring slidingtype is in the feed liquor outside, magnet ring and diplopore piece cooperation.

Preferably, still including complementary unit, complementary unit is including u template, dysmorphism frame, second pivot, contact wheel, support, trigger bar and elastic component, the support rigid coupling is in the magnet ring outside, and the quantity of support is two, and u template rigid coupling is between two support one sides, and the rigid coupling of dysmorphism frame symmetry formula is in the outer one side of u template, and the establishment of trigger bar slidingtype is close to the dysmorphism of barrel and is put up one end in, and elastic component connects between trigger bar one end and dysmorphism frame inside, and the cross-under of second pivot rotary type is in movable magnetic path one side, and the fixed suit of contact wheel is in second pivot both ends, and the contact wheel is located the dysmorphism frame.

Preferably, still including canceling release mechanical system, canceling release mechanical system includes limiting sleeve, kelly, fourth spring, fifth spring, the film rubber, wedge, piston rod and sixth spring, the cavity is opened in two even board outer ends, placing in the cavity of limiting sleeve slidingtype, limiting sleeve one end is run through even board and is located the telescopic inslot of trough of belt, place in limiting sleeve of kelly slidingtype, fourth spring coupling is between kelly inner and limiting sleeve are inboard, fifth spring coupling is in both sides outside the limiting sleeve, fifth spring tail end and cavity fixed connection, opening in the feed liquor pipe inner wall that is close to the contact ring of stock solution chamber symmetry formula, the film rubber rigid coupling is in stock solution intracavity one side, placing in stock solution intracavity of wedge slidingtype, wedge and kelly cooperation, sixth spring coupling is between wedge one side and stock solution chamber one side, the piston rod rigid coupling is in wedge one side, the piston rod contacts the cooperation with the stock solution chamber.

Preferably, the cleaning mechanism comprises a worm, a large gear, a guide gear, a worm wheel, a guide rack, a pinion, a rotating rod, a brush and a connecting shaft, wherein the guide rack is symmetrically and fixedly connected between two sides of the guide groove, the rotating rod is rotatably connected to two sides of an iron block in a penetrating manner, the guide gear is fixedly sleeved at the outer end of the rotating rod and is meshed with the guide rack, the large gear is fixedly sleeved at the inner end of the rotating rod and rotatably connected between two sides in the iron block, the pinion is fixedly sleeved at two sides of the worm, the pinion is meshed with the large gear, the worm wheel is fixedly sleeved at the outer side of one of the filter screens, the worm wheel is meshed with the worm, the connecting shaft is fixedly connected between the middle parts of the five filter screens in a penetrating manner, the brush is sleeved on the connecting shaft in an interval rotating manner, and two ends of the brush are fixedly connected with the inner wall of the hollow pipe.

Preferably, the device also comprises an n-type plate, a guide sleeve, a ratchet bar, a ratchet wheel, a guide block, a seventh spring and a magnet wheel, wherein the guide block is fixedly connected to one side outside the cylinder body, the guide sleeve is slidably sleeved at the tail end of the guide block, the seventh spring is connected between one side of the guide block and the inside of the guide sleeve, the ratchet bar is slidably connected in the guide sleeve in a penetrating manner, the magnet wheel is rotatably connected to the end part of the ratchet bar far away from the supporting leg, the ratchet wheel is fixedly sleeved at one end of a first rotating shaft and is meshed with the ratchet bar, the n-type plate is fixedly connected between two sides of the u-type plate, and the n-type plate is matched with the magnet wheel.

Preferably, still include gag lever post and eighth spring, the gag lever post interval slidingtype establish in porous cylinder both sides, eighth spring coupling is between gag lever post inner and porous cylinder inside, and both sides interval is slotted in the barrel, and the gag lever post outer end is located the inslot of barrel.

The invention has the beneficial effects that:

1. with the external automobile-used urea of feed liquor pipe, the external collection container of drain pipe, in arranging automobile-used urea into the feed liquor pipe, automobile-used urea drives unloading mechanism downstream, when unloading mechanism downstream reaches the maximum stroke, in the porous cylinder was arranged into to automobile-used urea, the filter screen then filters the sediment in the automobile-used urea, and through the reversal of the first pivot of wrench movement, can change the filter screen, can also remove the filter screen to the porous cylinder outside by operating personnel and clear away the sediment, therefore, make things convenient for operating personnel to clear away the sediment that filters out, do not influence next time and use.

2. In canceling release mechanical system's effect, when being filtered the sediment by the filter screen in the porous cylinder is all arranged into to automobile-used urea, can fix spacingly with the diplopore piece, so, need not operating personnel and hold the magnet ring with the hand and fix and make the diplopore piece fixed labour saving and time saving.

3. Under the effect of clean mechanism, can drive the filter screen and rotate, the sediment on the filter screen is then clear away to the brush, so, need not the manual sediment on the filter screen of operating personnel and clear away.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a first partial sectional structure of the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

FIG. 5 is a second partial sectional structural view of the present invention.

FIG. 6 is an enlarged view of part B of the present invention.

Fig. 7 is an enlarged view of part C of the present invention.

Fig. 8 is a third partial sectional structural view of the present invention.

Fig. 9 is an enlarged view of the portion D of the present invention.

Fig. 10 is a fourth partial sectional structural view of the present invention.

FIG. 11 is an enlarged schematic view of section E of the present invention.

FIG. 12 is a schematic view of a fifth partial sectional structure of the present invention.

Fig. 13 is an enlarged schematic view of part F of the present invention.

Fig. 14 is a partial sectional view of a sixth embodiment of the present invention.

Fig. 15 is a seventh partial sectional structural view of the present invention.

FIG. 16 is an enlarged schematic view of section G of the present invention.

Fig. 17 is an enlarged schematic view of part H of the present invention.

Reference numerals: 1_ cylinder, 2_ leg, 3_ liquid outlet, 4_ support plate, 5_ liquid inlet, 6_ arc plate, 7_ first rotating shaft, 8_ porous cylinder, 9_ hollow tube, 10_ filter screen, 101_ iron block, 11_ driving mechanism, 111_ guide groove, 112_ guide rod, 113_ movable magnetic block, 114_ first spring, 12_ blanking mechanism, 121_ magnet ring, 122_ fixed ring, 123_ double-hole block, 124_ connecting plate, 125_ grooved sleeve, 126_ movable rod, 127_ second spring, 128_ block, 129_ contact rod, 1210_ third spring, 1211_ contact ring, 13_ auxiliary mechanism, 131_shaped plate, 132_ shaped frame, 134_ second rotating shaft, 135_ contact wheel, 136_ bracket, 137_ trigger bar, 138_ elastic piece, 14_ reset mechanism, 141_ cavity, 142_ limit sleeve, 143_ clamping bar, 144_ fourth spring, 145_ fifth spring, 146_ reservoir chamber, 147_ rubber film, 148_ wedge block, 149_ piston rod, 1410_ sixth spring, 15_ cleaning mechanism, 152_ worm, 153_ large gear, 154_ guide gear, 155_ worm gear, 156_ guide rack, 157_ small gear, 158_ rotating rod, 159_ brush, 1510_ connecting shaft, 16 \ "type plate, 17_ guide sleeve, 18_ ratchet bar, 19_ ratchet wheel, 20_ guide block, 21_ seventh spring, 211_ magnet wheel, 22_ limit rod, 23_ eighth spring.

Detailed Description

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

Example (b): a residue recovering and filtering device for preparing vehicle urea.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 8, fig. 9, fig. 12 and fig. 13, the device comprises a cylinder 1, support legs 2, a liquid outlet pipe 3, a support plate 4, a liquid inlet pipe 5, an arc-shaped plate 6, a first rotating shaft 7, a porous cylinder 8, a hollow pipe 9, a filter screen 10, an iron block 101, a driving mechanism 11 and a blanking mechanism 12, wherein the support legs 2 are fixedly connected to the lower portions of the left side and the right side of the outside of the cylinder 1, the support plate 4 is fixedly connected to the middle of the upper portion of the right side of the outside of the cylinder 1, the arc-shaped plate 6 is fixedly connected to the middle of the upper portion of the right side of the cylinder 1 in a penetrating manner in a rotating manner, the first rotating shaft 7 is rotatably connected between the circle center positions of the left side and the right side of the cylinder 1, the porous cylinder 8 is fixedly connected with the four iron blocks 101 in a sliding manner at uniform intervals, the inner end of the iron block 101 is fixedly connected with the hollow pipe 9, the hollow pipe 9 is rotatably connected with five filter screens 10 in a rotating manner at uniform intervals, the middle of the top of the cylinder 1 is provided with the driving mechanism 11, the driving mechanism 11 is in contact with the iron block 101, the iron block, the cylinder is in a contact fit with the iron block 101, the cylinder 1, the lower portion of the cylinder is fixedly connected with the liquid inlet pipe 3 and communicated with the liquid outlet pipe 5, the liquid inlet pipe 5, and communicated with the feeding mechanism 12.

The driving mechanism 11 comprises a guide rod 112, a movable magnet 113 and a first spring 114, the middle of the top of the cylinder 1 is transversely provided with a guide groove 111, the guide rod 112 is fixedly connected between the left side and the right side of the guide groove 111, the movable magnet 113 is slidably sleeved on the guide rod 112, the movable magnet 113 is in contact fit with the iron block 101, the first spring 114 is connected between the left side surface of the movable magnet 113 and the left side of the guide groove 111, and the first spring 114 is wound on the guide rod 112.

The blanking mechanism 12 includes a magnet ring 121, a fixed ring 122, a double-hole block 123, a connecting plate 124, a slotted sleeve 125, a movable rod 126, a second spring 127, a blocking block 128, a contact rod 129, a third spring 1210 and a contact ring 1211, wherein the lower side in the liquid inlet pipe 5 is fixedly connected with the contact ring 1211, the upper side in the liquid inlet pipe 5 is fixedly connected with the fixed ring 122, the bottom of the fixed ring 122 is fixedly connected with the third spring 1210, the tail end of the third spring 1210 is fixedly connected with the double-hole block 123, the double-hole block 123 is in contact fit with the inner wall of the liquid inlet pipe 5, the connecting plate 124 is fixedly connected in the hole of the double-hole block 123, the slotted sleeve 125 is slidably connected in the middle of the connecting plate 124, the movable rod 126 is placed in the slotted sleeve 125, the second spring 127 is connected between the top end of the movable rod 126 and the top end of the slotted sleeve 125, the contact rod 129 is fixedly connected between the bottom ends of the two movable rods 126, the contact rod 129 is matched with the contact ring 1211, the top end of the slotted sleeve 125 is fixedly connected with the blocking block 128, the blocking block 128 is in contact fit with the hole of the double-hole 123, the magnet ring 121 is sleeved outside the liquid inlet pipe 5, and the double-hole 121.

Firstly, an operator connects a liquid inlet pipe 5 with vehicle urea externally, then connects a liquid outlet pipe 3 with a collecting container externally, the vehicle urea can be discharged into the liquid inlet pipe 5, the vehicle urea in the liquid inlet pipe 5 is contacted with a blanking mechanism 12, the vehicle urea drives the blanking mechanism 12 to move downwards, the blanking mechanism 12 moves downwards when moving downwards to the maximum stroke, the vehicle urea stops being discharged into the liquid inlet pipe 5, the operator fixes the blanking mechanism 12 by hand, the blanking mechanism 12 operates without blocking the vehicle urea, the vehicle urea is discharged into a barrel body 1, the vehicle urea is discharged into a porous cylinder 8 and is contacted with a filter screen 10, the filter screen 10 filters slag in the vehicle urea, the vehicle urea after filtering the slag is discharged into the liquid outlet pipe 3, the vehicle urea in the liquid outlet pipe 3 is discharged into the collecting container, when the vehicle urea after filtering the slag is completely discharged into the collecting container, the blanking mechanism 12 moves upwards to reset when the vehicle urea is released, the filter screen moves rightwards, the first rotating shaft 7 rotates with a reversing degree, the first rotating shaft 7 drives the porous cylinder 8 to rotate rightwards, the hollow pipe 9 drives the hollow pipe 10 to move rightwards, the hollow pipe 9 to drive the hollow pipe 10 to move rightwards repeatedly, the hollow pipe 10 to move rightwards, the hollow pipe 10 to drive the filter screen to move rightwards, the hollow pipe 9, the hollow pipe 10 to drive the hollow pipe 9 to drive the iron slag block to move rightwards, the hollow pipe 9 to drive the hollow pipe 10 to move rightwards, the hollow pipe 9 to drive the filter screen to move rightwards, the iron slag block to drive the iron slag block to move, the iron block to drive the iron block to move rightwards, the iron block to move, the iron block to drive the iron block to move rightwards, the slag that clears away drops to on backup pad 4, and the slag on the filter screen 10 of top is all clear away the back, loosens actuating mechanism 11 and moves left, and actuating mechanism 11 moves left and resets and drive top iron plate 101 and move left and reset, just also makes filter screen 10 of top move left and reset.

When the filter screen 10 after filtering slag is reversed to the upper side, the upper iron block 101 is contacted with the movable magnet 113, the movable magnet 113 is pulled to move rightwards, the first spring 114 is stretched, the movable magnet 113 moves rightwards to drive the upper iron block 101 to move rightwards, the upper iron block 101 moves rightwards to drive the upper hollow tube 9 to move rightwards, the upper filter screen 10 moves rightwards to be outside the porous cylinder 8, when the upper filter screen 10 moves rightwards to a proper position, the movable magnet 113 is stopped being pulled, the upper filter screen 10 stops moving rightwards to remove slag on the filter screen 10, the movable magnet 113 is loosened after the slag on the upper filter screen 10 is completely removed, due to the action of the first spring 114, the movable magnet 113 moves leftwards to drive the upper iron block 101 to move leftwards to reset, and the upper filter screen 10 moves leftwards to reset.

When the vehicle urea is discharged into the liquid inlet pipe 5, the vehicle urea contacts the two-hole block 123, the vehicle urea drives the two-hole block 123 to move downwards, the third spring 1210 is stretched, the two-hole block 123 moves downwards and drives the magnet ring 121 to move downwards through magnetic force, the magnet ring 121 also drives the blocking block 128 to move downwards, the blocking block 128 moves downwards and drives the grooved sleeve 125 to move downwards, the grooved sleeve 125 moves downwards and drives the movable rod 126 to move downwards through the second spring 127, the movable rod 126 moves downwards and drives the contact rod 129 to move downwards, when the contact rod 129 moves downwards and contacts the contact ring 1211, the contact ring 1211 stops moving the contact rod 129 downwards, the contact rod 129 stops moving downwards and the grooved sleeve 125 stops moving downwards through the second spring 127, the blocking block 128 stops moving downwards, the two-hole block 123 continues to move downwards and is separated from the blocking block 128, an operator fixes the two-hole block 121 by hand, the vehicle urea 123 stops discharging the vehicle urea into the liquid inlet pipe 5, the vehicle urea in the liquid inlet pipe 5 passes through the two-hole block 123, and the vehicle urea slag flows downwards, and the vehicle urea slag filter screen 10. After the automobile-used urea in the feed liquor pipe 5 all was discharged porous cylinder 8 in by the filtration sediment, loosened magnet ring 121, because of the effect of third spring 1210, diplopore piece 123 upward movement and sprue 128 cooperation, diplopore piece 123 drives sprue 128 rebound and resets, just also drives contact lever 129 rebound and resets, and diplopore piece 123 still drives magnet ring 121 rebound and resets.

Referring to fig. 1, 2, 3, 4, 5, 7, 8, 9, 10, 11, 12, 13, 15, 17, the auxiliary mechanism 13 further includes an auxiliary mechanism 13, the auxiliary mechanism 13 includes a u-shaped plate 131, a special-shaped frame 132, a second rotating shaft 134, a contact wheel 135, a bracket 136, a trigger bar 137 and an elastic member 138, the brackets 136 are fixedly connected to the front and rear sides of the magnet ring 121, the u-shaped plate 131 is fixedly connected between the upper portions of the right side surfaces of the two brackets 136, the special-shaped frame 132 is fixedly connected to the front and rear sides of the outer right side surface of the u-shaped plate 131, the second rotating shaft 134 is rotatably connected to the upper portion of the movable magnet block 113 in a penetrating manner, the contact wheels 135 are fixedly connected to the front and rear ends of the second rotating shaft 134, the contact wheels 135 on the front and rear sides are respectively located in the special-shaped frames 132, the trigger bar 137 is slidably disposed at the bottom end of the special-shaped frame 132, the elastic member 138 is connected between the top end of the trigger bar 137 and the contact wheel 135.

The resetting mechanism 14 comprises a limiting sleeve 142, a clamping rod 143, a fourth spring 144, a fifth spring 145, a rubber film 147, a wedge block 148, a piston rod 149 and a sixth spring 1410, wherein the outer ends of the connecting plates 124 on the left side and the right side are provided with cavities 141, the limiting sleeve 142 is placed in the cavities 141 in a sliding mode, the inner end of the limiting sleeve 142 penetrates through the connecting plates 124 to be in contact fit with a groove of the grooved sleeve 125, the fifth spring 145 is connected between the outer top and the outer bottom of the limiting sleeve 142 and the cavity 141, the clamping rod 143 is placed in the limiting sleeve 142 in a sliding mode, the clamping rod 143 penetrates through the double-hole block 123 to be in contact with the inner wall of the liquid inlet pipe 5, the fourth spring 144 is connected between the inner end of the clamping rod 143 and the inner side of the adjacent limiting sleeve 142, the liquid storage cavities 146 are formed in the left side and the right side of the lower side of the inner wall of the liquid inlet pipe 5, the wedge block 148 is arranged on the lower portion of the inner side of the wedge cavity 146 in a sliding mode, the wedge block 148 is matched with the clamping rod 143, the wedge block 1410 is connected between the bottom of the wedge block 148 and the bottom of the liquid storage cavity 146, the middle of the wedge block 148, the piston rod 149 is fixedly connected with the piston rod 149, and the inner wall of the inner side of the liquid storage cavity 146, and the rubber film 147 is fixedly connected with the rubber film 147.

The cleaning device comprises a cleaning mechanism 15, wherein the cleaning mechanism 15 comprises a worm 152, a large gear 153, a guide gear 154, a worm wheel 155, a guide rack 156, a pinion 157, a rotating rod 158, a brush 159 and a connecting shaft 1510, two guide racks 156 are fixedly connected between the left side and the right side of a guide groove 111, the upper sides of the left parts of the front side and the rear side of an iron block 101 are rotatably connected with the rotating rod 158 in a penetrating manner, the outer end of the rotating rod 158 is fixedly connected with the guide gear 154, the guide gear 154 is meshed with the guide rack 156, the inner end of the rotating rod 158 is fixedly connected with the large gear 153, the worm 152 is rotatably connected between the two sides of the inner lower part of the left part of the iron block 101, the front side and the rear side of the worm 152 are fixedly connected with the pinion 157, the pinion 157 is meshed with the large gear 153, the worm wheel 155 is fixedly connected with the worm 152 outside the filter screen 10 on the left side, the connecting shaft 1510 is fixedly connected with the connecting shafts 1510, four brushes 159 are rotatably connected with the brush in an evenly spaced manner and are positioned between the adjacent filter screens 10, and the front ends and rear ends of the brush 159 are fixedly connected with the inner wall of the hollow tube 9.

When the magnet ring 121 moves downward, the magnet ring 121 drives the bracket 136 to move downward, the bracket 136 moves downward to drive the u-shaped plate 131 to move downward, the u-shaped plate 131 moves downward to drive the special-shaped frame 132 to move downward, the special-shaped frame 132 moves downward to drive the trigger rod 137 to move downward, the special-shaped frame 132 moves downward to drive the contact wheel 135 to move rightward through the trigger rod 137, the contact wheel 135 moves rightward to drive the second rotating shaft 134 to move rightward, the second rotating shaft 134 moves rightward to drive the movable magnet 113 to move rightward, so that the upper filter screen 10 moves rightward, and further when the wave of the special-shaped frame 132 contacts the contact wheel 135, the special-shaped frame 132 makes the contact wheel 135 move leftward and rightward continuously, the contact wheel 135 moves leftward and moves leftward to drive the movable magnet 113 to move leftward and leftward, so that the filter screen 10 moves leftward and leftward, filtered slag is thrown onto the support plate 4, the contact wheel 135 is separated from the contact, due to the effect of the first spring 114, the movable magnet 113 moves leftward to drive the second rotating shaft 134 to move leftward and move leftward, so that the contact wheel 135 moves leftward and resets, when the support ring 121 moves upward, the trigger rod 137 moves upward, the trigger rod 135 moves upward, the trigger rod 137 and the trigger rod 135 moves upward, and the trigger rod 135 moves upward to reset, and the trigger rod 135 moves upward, and the contact wheel 135 moves upward, and the reset element 138 resets, and the contact wheel 135, and the trigger rod 135 moves upward, and the contact wheel 135 moves upward, and the trigger rod 137, and reset wheel 135 resets the contact wheel 135. Therefore, an operator does not need to pull the movable magnetic block 113 to move rightwards so that the filter screen 10 moves rightwards, and the operation is convenient and fast.

Initially, the fifth spring 145 is in a compressed state, a proper amount of hydraulic oil is filled in the liquid storage cavity 146, when the car urea drives the dual-hole block 123 to move downward, the connecting plate 124 moves downward to drive the limiting sleeve 142 to move downward, the limiting sleeve 142 moves downward to drive the clamping rod 143 to move downward, and further the dual-hole block 123 moves downward to slide on the rubber film 147, the car urea drives the rubber film 147 to stretch outward, the rubber film 147 stretches outward to extrude the hydraulic oil in the liquid storage cavity 146, the hydraulic oil is extruded to drive the piston rod 149 to move downward, the piston rod 149 moves downward to drive the wedge block 148 to move downward, the sixth spring 1410 is compressed, at this time, the contact rod 129 is limited by the contact ring 1211, so that the movable rod 126 stops moving downward, the limiting sleeve 142 continues to move downward to drive the slotted sleeve 125 to move downward, the second spring 127 is compressed, and the clamping rod 143 moves downward to correspond to the wedge block 148, because of the action of the fifth spring 145, the limiting sleeve 142 moves outwards, the clamping rod 143 drives the clamping rod 143 to move outwards through the fourth spring 144, the clamping rod 143 moves outwards to the lower part in the liquid storage cavity 146, the clamping rod 143 is limited by the liquid inlet pipe 5, the clamping rod 143 is limited to limit the double-hole block 123, the limiting sleeve 142 moves outwards to be separated from the groove of the grooved sleeve 125, the grooved sleeve 125 moves upwards to drive the blocking block 128 to move upwards to be separated from the hole of the double-hole block 123 due to the action of the second spring 127, the vehicle urea is discharged into the porous cylinder 8 through the double-hole block 123 to be filtered by the filter screen 10 to filter slag, the rubber film 147 is not limited after the vehicle urea in the liquid inlet pipe 5 is completely discharged, the rubber film 147 swings inwards to reset, the wedge block 148 moves upwards to drive the piston rod 149 to move upwards to reset due to the action of the sixth spring 1410, and the wedge block 148 drives the clamping rod 143 to move inwards to be separated from the liquid storage cavity 146, the inside removal of kelly 143 drives limiting sleeve 142 inwards to move and contact with grooved sleeve 125 through fourth spring 144, kelly 143 makes fourth spring 144 compressed, because of the effect of third spring 1210, diplopore piece 123 rebound resets and drives even board 124 rebound, also make limiting sleeve 142 rebound, when limiting sleeve 142 rebound corresponds with grooved sleeve 125's groove, because of the effect of fourth spring 144, limiting sleeve 142 inwards moves and inserts grooved sleeve 125's inslot, limiting sleeve 142 is fixed grooved sleeve 125. Therefore, the magnet ring 121 does not need to be pulled and fixed by an operator by hands, so that the double-hole block 123 is fixed, and time and labor are saved.

When the iron block 101 moves rightwards, the iron block 101 also drives the rotating rod 158 to move rightwards, the rotating rod 158 moves rightwards to drive the guide gear 154 to move rightwards, the guide gear 154 moves rightwards to rotate through the guide rack 156, the guide gear 154 rotates to drive the rotating rod 158 to rotate, the rotating rod 158 rotates to drive the large gear 153 to rotate, the large gear 153 rotates to drive the small gear 157 to rotate, the small gear 157 rotates to drive the worm 152 to rotate, the worm 152 rotates to drive the worm wheel 155 to rotate, the worm wheel 155 rotates to drive the leftmost filter screen 10 to rotate, the leftmost filter screen 10 rotates to drive the connecting shaft 1510 to rotate, the connecting shaft 1510 rotates to drive the rest filter screens 10 to rotate, the brushes 159 clean the slag on the filter screens 10 in rotation, similarly, when the iron block 101 moves leftwards to reset, the filter screens 10 continue to rotate, the brushes 159 continue to clean the slag on the filter screens 10, after the iron block 101 resets, the guide gear 154 stops rotating, and the filter screens 10 also stop rotating. Therefore, the slag on the filter screen 10 does not need to be manually removed by an operator.

Referring to fig. 1, 2, 3, 5, 14, 15 and 16, the device further includes an n-shaped plate 16, a guide sleeve 17, a ratchet bar 18, a ratchet 19, a guide block 20, a seventh spring 21 and a magnet wheel 211, the guide block 20 is fixedly connected to the rear side of the upper portion of the outer left side of the cylinder 1, the guide sleeve 17 is slidably sleeved at the left end of the guide block 20, the seventh spring 21 is connected between the right side of the inner portion of the guide sleeve 17 and the left side of the rear side of the guide block 20, the ratchet bar 18 is slidably connected in the guide sleeve 17 in a penetrating manner, the magnet wheel 211 is rotatably connected to the top end of the ratchet bar 18, the ratchet 19 is fixedly connected to the left end of the first rotating shaft 7, the ratchet 19 is engaged with the ratchet bar 18, the n-shaped plate 16 is fixedly connected to the left sides of the top portions of the front and rear sides of the u-shaped plate 131, and the n-shaped plate 16 is matched with the magnet wheel 211.

The multi-hole cylinder is characterized by further comprising a limiting rod 22 and an eighth spring 23, four limiting rods 22 are arranged on the left side surface and the right side surface of the multi-hole cylinder 8 in a sliding mode at uniform intervals, grooves are formed in the left side surface and the right side surface of the cylinder body 1 at uniform intervals, the outer end of each limiting rod 22 is located in each groove of the cylinder body 1, and the eighth spring 23 is connected between the inner end of each limiting rod 22 and the inside of the multi-hole cylinder 8.

When the u-shaped plate 131 moves downwards, the u-shaped plate 131 also drives the n-shaped plate 16 to move downwards, the n-shaped plate 16 moves downwards to be in contact with the magnet wheel 211, the n-shaped plate 16 drives the ratchet bars 18 to move downwards through the magnet wheel 211, due to the effect of the seventh spring 21, the ratchet bars 18 move downwards to slide on the ratchet wheel 19, and further when the u-shaped plate 131 moves upwards to reset, the u-shaped plate 131 drives the n-shaped plate 16 to move upwards to reset, because the n-shaped plate 16 is a ferrous product, the n-shaped plate 16 moves upwards to drive the magnet wheel 211 to move upwards, the magnet wheel 211 moves upwards to drive the ratchet bars 18 to move upwards, the ratchet bars 18 move upwards to drive the ratchet wheel 19 to rotate upwards, the ratchet wheel 19 rotates reversely to drive the first rotating shaft 7 to rotate reversely, so that the filter screen 10 rotates reversely, after the ratchet bars 18 moves upwards to reset, the ratchet bars 18 stops driving the ratchet wheel to rotate reversely, the filter screen 10 rotates reversely to move upwards, and the n-shaped plate 16 resets to be out of contact with the magnet wheel 211. Therefore, an operator does not need to twist the first rotating shaft 7 by hands, and the operation is convenient.

When the 8 reversals of porous cylinder, porous cylinder 8 still drives gag lever post 22 reversals, gag lever post 22 reversals and barrel 1's groove break away from the contact, barrel 1 makes gag lever post 22 inwards move, eighth spring 23 is compressed, and then when porous cylinder 8 reverses ninety degrees and stops the reversal, gag lever post 22 corresponds with barrel 1's groove, because of eighth spring 23's effect, gag lever post 22 outwards moves the inslot that inserts barrel 1, gag lever post 22 carries on spacingly with barrel 1's groove cooperation to porous cylinder 8. Thus, the contact between the iron block 101 and the movable magnetic block 113 can be prevented from being affected by too much reverse angle of the porous cylinder 8.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a vehicle urea preparation is with retrieving residue device, its characterized in that, including barrel (1), landing leg (2), drain pipe (3), backup pad (4), feed liquor pipe (5), arc (6), first pivot (7), porous cylinder (8), hollow tube (9), filter screen (10), actuating mechanism (11) and unloading mechanism (12), barrel (1) outer both sides all rigid coupling has landing leg (2), backup pad (4) rigid coupling in barrel (1) outer one side middle part, arc (6) fixed cross-under in barrel (1) one side, the cross-under of first pivot (7) rotary type is between barrel (1) both sides middle part, porous cylinder (8) fixed suit in first pivot (7) middle part, iron plate (101) interval slidingtype cross-under in porous cylinder (8) the outside, hollow tube (9) rigid coupling in iron plate (101) inboard, hollow tube (9) are located porous cylinder (8), filter screen (10) interval rotary type is connected in barrel (9) inboard, drain pipe (3) rigid coupling in drain pipe (1) one side, feed liquor pipe (5) rigid coupling in drain pipe (1) one side, drive mechanism (11) contact with iron plate (11) is installed in drain pipe (1) and actuating mechanism (11), the blanking mechanism (12) is arranged on the liquid inlet pipe (5);

the driving mechanism (11) comprises a guide rod (112), a movable magnetic block (113) and a first spring (114), a guide groove (111) is formed in the middle of one side of the cylinder body (1) far away from the supporting leg (2), the guide rod (112) is fixedly connected between two sides of the guide groove (111), the movable magnetic block (113) is slidably sleeved on the guide rod (112), the movable magnetic block (113) is in contact with one iron block (101), the first spring (114) is connected between one side of the movable magnetic block (113) and one side of the guide groove (111), and the first spring (114) is wound on the guide rod (112).

2. The recycling residue filtering apparatus for vehicle urea preparation as claimed in claim 1, wherein the feeding mechanism (12) comprises a magnet ring (121), a fixed ring (122), a double-hole block (123), a connecting plate (124), a sleeve with a groove (125), a movable rod (126), a second spring (127), a blocking block (128), a contact rod (129), a third spring (1210) and a contact ring (1211), the contact ring (1211) is fixedly connected to one side of the inside of the liquid inlet pipe (5), the fixed ring (122) is fixedly connected to one side of the inside of the liquid inlet pipe (5) away from the legs (2), the third spring (1210) is fixedly connected to the bottom of the fixed ring (122), the double-hole block (123) is fixedly connected to the tail end of the third spring (1210), the double-hole block (123) is in contact fit with the inner wall of the liquid inlet pipe (5), the connecting plate (124) is arranged in two holes of the double-hole block (123), the sleeve with a groove (125) is slidably connected to the middle of the connecting plate (124), the contact block (128) is fixedly connected to the contact block (123) away from the sleeve (125) away from the legs (2), the end of the sleeve (125) is fixedly connected to the movable rod (126), the contact rod (129) is arranged between the movable rod (126), the second spring (127) is connected between one end of the movable rod (126) and the inner side of the grooved sleeve (125), the magnet ring (121) is sleeved outside the liquid inlet pipe (5) in a sliding manner, and the magnet ring (121) is matched with the double-hole block (123).

3. The recycling residue filtering apparatus for vehicle urea preparation according to claim 2, further comprising an auxiliary mechanism (13), wherein the auxiliary mechanism (13) comprises two u-shaped plates (131), a special-shaped frame (132), a second rotating shaft (134), a contact wheel (135), a bracket (136), a trigger rod (137) and an elastic member (138), the brackets (136) are fixedly connected to the outer side of the magnet ring (121), the number of the brackets (136) is two, the u-shaped plates (131) are fixedly connected between one sides of the two brackets (136), the special-shaped frame (132) is symmetrically and fixedly connected to the outer side of the u-shaped plates (131), the trigger rod (137) is slidably arranged at one end of the special-shaped frame (132) close to the cylinder (1), the elastic member (138) is connected between one end of the trigger rod (137) and the inside of the special-shaped frame (132), the second rotating shaft (134) rotatably penetrates one side of the movable magnetic block (113), the contact wheel (135) is fixedly sleeved at two ends of the second rotating shaft (134), and the contact wheel (135) is located in the special-shaped frame (132).

4. The recycling residue filtering device for the vehicle urea preparation as claimed in claim 3, further comprising a restoring mechanism (14), wherein the restoring mechanism (14) comprises a limiting sleeve (142), a clamping rod (143), a fourth spring (144), a fifth spring (145), a rubber film (147), a wedge-shaped block (148), a piston rod (149) and a sixth spring (1410), the cavity (141) is arranged at the outer end of the two connecting plates (124), the limiting sleeve (142) is slidably arranged in the cavity (141), one end of the limiting sleeve (142) penetrates through the connecting plates (124) and is positioned in the groove of the slotted sleeve (125), the clamping rod (143) is slidably arranged in the limiting sleeve (142), the fourth spring (144) is connected between the inner end of the clamping rod (143) and the inner side of the limiting sleeve (142), the fifth spring (145) is connected to the outer sides of the limiting sleeve (142), the tail end of the fifth spring (145) is fixedly connected with the cavity (141), the liquid storage cavity (146) is symmetrically arranged on the side of the liquid inlet pipe (5) close to the contact ring (147), the wedge-shaped block (146) is connected with the inner side of the wedge-shaped block (146) and is matched with the wedge-shaped block (148), the piston rod (149) is fixedly connected to one side of the wedge block (148), and the piston rod (149) is in contact fit with the liquid storage cavity (146).

5. The recycling residue filtering device for the vehicle urea preparation according to claim 4, further comprising a cleaning mechanism (15), wherein the cleaning mechanism (15) comprises a worm (152), a gearwheel (153), a guide gear (154), a worm wheel (155), a guide rack (156), a pinion (157), a rotating rod (158), a brush (159) and a connecting shaft (1510), the guide rack (156) is symmetrically and fixedly connected between two sides of the guide groove (111), the rotating rod (158) is rotatably connected to two sides of the iron block (101) in a penetrating mode, the guide gear (154) is fixedly sleeved at the outer end of the rotating rod (158), the guide gear (154) is meshed with the guide rack (156), the large gear (153) is fixedly sleeved at the inner end of the rotating rod (158), the worm (152) is rotatably connected between two sides of the iron block (101), the small gear (157) is fixedly sleeved at two sides of the worm (152), the small gear (157) is meshed with the large gear (153), the worm gear (155) is fixedly sleeved at the outer side of one of the filter screens (10), the worm gear (155) is meshed with the worm (152), the connecting shaft (1510) is fixedly connected between the middles of five filter screens (10), the brushes (159) are rotatably sleeved on the connecting shaft (1510) at intervals, and two ends of the brushes (159) are fixedly connected with the inner wall of the hollow pipe (9).

6. The recycling residue filtering device for the preparation of urea for the vehicle as claimed in claim 5, further comprising an n-shaped plate (16), a guide sleeve (17), a ratchet bar (18), a ratchet wheel (19), a guide block (20), a seventh spring (21) and a magnet wheel (211), wherein the guide block (20) is fixedly connected to one side of the outside of the cylinder (1), the guide sleeve (17) is slidably sleeved at the tail end of the guide block (20), the seventh spring (21) is connected between one side of the guide block (20) and the inside of the guide sleeve (17), the ratchet bar (18) is slidably connected in the guide sleeve (17), the magnet wheel (211) is rotatably connected to the end of the ratchet bar (18) far away from the leg (2), the ratchet wheel (19) is fixedly sleeved at one end of the first rotating shaft (7), the ratchet wheel (19) is engaged with the ratchet bar (18), the n-shaped plate (16) is fixedly connected between two sides of the u-shaped plate (131), and the n (16) is matched with the magnet wheel (211).

7. The device for recovering and filtering residues for the preparation of automobile-used urea according to claim 1, further comprising a limiting rod (22) and an eighth spring (23), wherein the limiting rod (22) is arranged on both sides of the porous cylinder (8) in a sliding manner at intervals, the eighth spring (23) is connected between the inner end of the limiting rod (22) and the inside of the porous cylinder (8), the inner sides of the cylinder body (1) are spaced apart from each other with grooves, and the outer end of the limiting rod (22) is positioned in the grooves of the cylinder body (1).