CN109289972A - A kind of reuse of solid waste device - Google Patents

Abstract

The invention discloses a kind of reuse of solid waste devices, including crush box, disintegrating mechanism is provided in the crush box, the disintegrating mechanism includes crusher chamber and chamber fine crushing, a transmission mechanism is provided on the right side of the crusher chamber, the transmission mechanism includes the hydraulic mechanism of the disintegrating mechanism side-to-side movement in crusher chamber in driving crusher chamber, and the transmission mechanism further includes drive cavity, and there are two the ratchet mechanisms moved by hydraulic mechanism for setting in the drive cavity；In present invention work, and the device well separates and collects smashed each product, to the more efficient and rational utilization of Support Resource, to the broken apart more thorough of solid waste, to easily facilitate operator to the secondary use of solid waste, the utilization rate of resource is improved, passes through mechanical transmission, make device to power source using it is upper more rationally and efficiently, improve the utilization of the energy.

Description

A kind of reuse of solid waste device

Technical field

The present invention relates to waste process field, specially a kind of reuse of solid waste device.

Background technique

Currently, the building facility of modernization is gradually being risen with the gradually quickening of urban construction, it is followed by that Old building is removed at this stage to transport these solid waste rubbish mostly so that producing a large amount of building wastes enters concrete block etc. To garbage disposal area, landfill disposal is carried out, the use in soil is significantly increased, is unfavorable for economizing the land resource, and at this stage To the reuse means of solid waste, big multipair concrete block is all smashed, but smashes inefficient, and that smashes is not thorough, no The rubble just in concrete, iron block or timber can be efficiently separated, causes to waste, and be easy to produce a large amount of dust, causes sky Gas pollution.

Summary of the invention

It is mentioned above in the background art to solve the purpose of the present invention is to provide a kind of reuse of solid waste device Problem.

To achieve the above object, it the invention provides the following technical scheme: a kind of reuse of solid waste device, including crushes Case is provided with disintegrating mechanism in the crush box, and the disintegrating mechanism includes crusher chamber and chamber fine crushing, sets on the right side of the crusher chamber It is equipped with a transmission mechanism, the transmission mechanism includes the liquid of the disintegrating mechanism side-to-side movement in crusher chamber in driving crusher chamber Press mechanism, the transmission mechanism further includes drive cavity, and there are two pass through hydraulic mechanism movement for setting in the drive cavity Ratchet mechanism, the ratchet mechanism rear side are provided with the drive pulley of ratchet mechanism driving, set on rear side of the chamber fine crushing It is equipped with driven chamber, the driven intracavitary drive pulley that is provided with drives the driven pulley and driving pulley rotated, It is provided with the press mechanism of a collection intracavitary ironware fine crushing on the right side of the chamber fine crushing, is provided with a seperator on the downside of the chamber fine crushing Structure, the separating mechanism include disengagement chamber, and there are two the output cavity of output separating objects, institutes for setting at left and right sides of the disengagement chamber The conveying mechanism for being provided with separation rubble in disengagement chamber is stated, sieve is provided on the downside of the conveying mechanism, is set on the downside of the sieve It is equipped with the collection geosynclinal block for collecting fine particle, is provided with through press mechanism with right side as power source on rear side of the disengagement chamber The compression mechanism of side-to-side movement is driven, the compression mechanism includes compression chamber, and a telescopic gas is provided in the compression chamber Pad.

Preferably, the disintegrating mechanism includes crusher chamber, a crusher chamber, the crusher chamber are provided in the crush box The feeding inlet of a connection free surrounding space and crusher chamber is provided in upper end wall, it is fine crushing to be provided with one in the crusher chamber lower end wall Chamber is provided with the connecting pipe for being connected to crusher chamber Yu chamber fine crushing, the intracavitary setting fine crushing between the crusher chamber and chamber fine crushing There is an exhausted magnet drum, a magnet roller is provided on the right side of the exhausted magnet drum, crusher chamber left end wall is fixedly connected with one tiltedly Face pressure block, is provided with the inclined-plane pressing plate being slidably connected with crusher chamber on the right side of the inclined-plane briquetting, effect be by from feeding inlet into The mass concrete entered in crusher chamber is crushed to fritter, be again introduced into it is fine crushing it is intracavitary after be crushed to smaller fragment and powder again End.

Preferably, the transmission mechanism includes drive cavity, it is described to be provided with a hydraulic mechanism positioned in crusher chamber, A drive cavity is provided in the crusher chamber right end wall, the drive cavity front bulkhead bilateral symmetry is rotatably connected to a support shaft, The support shaft rear end is fixedly connected with a ratchet mechanism, and the drive cavity aft bulkhead bilateral symmetry is rotatably connected to a ratchet Axis, the ratchet shaft rear end are fixedly connected with a drive pulley, and a driven chamber is provided in the cavity rear end wall fine crushing, described Driven cavity rear end wall is rotatably connected to what a front end was fixedly connected through driven chamber front bulkhead with exhausted magnet drum and with exhausted magnet drum Driven shaft, the driven shaft front end and chamber front bulkhead fine crushing are rotatablely connected, be provided on the right side of the driven shaft front end run through from Dynamic chamber front bulkhead and magnet roller and the transmission shaft being fixedly connected with magnet roller, the transmission shaft front end and chamber front bulkhead fine crushing Rotation connection, it is described positioned at driven intracavitary driven shaft be fixedly connected with one connect with the left side drive pulley belt from Dynamic belt pulley, it is described, a driven gear being fixedly connected with driven shaft, the driven tooth are provided on rear side of the driven pulley Wheel right end engagement is connected with the transmission gear being fixedly connected with transmission shaft, is provided on front side of the transmission gear and fixes with transmission shaft The driving pulley of connection, the driving pulley are connect with the right side drive pulley belt, and effect is in hydraulic press Ratchet mechanism rotation is driven under the drive of structure, driven shaft and transmission shaft can be driven to rotate by the transmission of belt, be passed through two spine Hydraulic mechanism rotates driven shaft according to identical direction of rotation always with transmission shaft in side-to-side movement when taking turns mechanism.

Preferably, the hydraulic mechanism includes hydraulic block, the crusher chamber right end wall is fixedly connected with a hydraulic block, institute It states and is provided with a hydraulic cavities in hydraulic block, a hydraulic plate is slidably connected in the hydraulic cavities, is set in the hydraulic cavities lower end wall It is equipped with the hydraulic pipeline of hydraulic cavities at left and right sides of a connection hydraulic plate, is provided with a hydraulic pump, the liquid in the hydraulic pipeline Pressing plate left end wall is fixedly connected with the hydraulic stem that a left end is run through hydraulic cavities left end wall and is fixedly connected with inclined-plane pressing plate, the liquid Pressing plate right side is fixedly connected with a right end through crusher chamber right end wall and engages the drive of connection with the ratchet mechanism in drive cavity Lever, effect are to push ratchet mechanism rotation transmission dynamic while pushing inclined-plane pressing plate side-to-side movement crushing concrete block Power.

Preferably, the ratchet mechanism includes ratchet wheel block, the support shaft rear end is fixedly connected with a ratchet wheel block, described The ratchet slot of aft bulkhead connection drive cavity is provided in ratchet wheel block, the ratchet shaft front end is through ratchet slot aft bulkhead and is located at In ratchet slot, the ratchet shaft front end is fixedly connected with a ratchet, and it is close to be symmetrically arranged with one in the upper and lower end wall of the ratchet slot The spring groove of the end wall connection ratchet slot of ratchet shaft, the spring groove are fixedly connected with a compression bullet far from the end wall of ratchet shaft Spring, the compressed spring are fixedly connected with one close to one end of ratchet shaft and run through spring groove close to ratchet close to one end of ratchet shaft The end wall of axis and the spring block being located in ratchet slot, the ratchet rotation direction for controlling the ratchet in two ratchet mechanisms is different, It is ratchet mechanism to be driven when drive rod moves downward, but right-side ratchet mechanism drives the rotation of right-side ratchet axis, passes through that it, which is acted on, The transmission of belt drives transmission shaft rotation, to drive driven shaft to rotate backward by the transmission of gear, pass through the transmission of belt It drives left side ratchet shaft to rotate backward, to make the idle running opposite with ratchet of the ratchet wheel block of the ratchet mechanism in left side, is similarly driving When bar moves downward, the idle running opposite with ratchet of right-side ratchet ratchet wheel block within the organization, but guarantee driven shaft and transmission shaft edge always Same direction rotation.

Preferably, the press mechanism includes pushing chamber, left end wall connection is provided in the chamber right end wall fine crushing The pushing chamber of chamber fine crushing, the pushing chamber upper end wall are fixedly connected with a left end through pushing chamber left end wall and connect with magnet roller The scraper plate of connection is touched, the pushing chamber lower end wall bilateral symmetry is fixedly connected with an adjustable spring, described to push intracavitary sliding company The lower platen for being slidably connected and being fixedly connected with adjustable spring due to pushing chamber is connect, the lower platen left end is through pushing chamber left end Wall and be located at it is fine crushing intracavitary, be provided in the pushings chamber right end wall one be tilted to the right downwards and connection free surrounding space with pushing chamber Discharge line, it is described push chamber right end wall in be provided with one be discharged pipeline right end wall run through left hand end wall spring cavity, institute It states and slidably connects a baffler in spring cavity, the baffler lower end, which is fixedly connected with Ei, has a lower end to be fixedly connected with spring cavity Connecting spring, effect is to scrape ironware on the upside of magnet roller by scraper plate to fall into lower platen, so that lower platen be driven to decline, To output power.

Preferably, the separating mechanism includes disengagement chamber, a connection disengagement chamber is provided in the disengagement chamber upper end wall With the falling duct of chamber fine crushing, the disengagement chamber upper end wall left side is provided with the water inlet pipe of a connection free surrounding space and disengagement chamber Road is symmetrically arranged with the output cavity of a connection disengagement chamber in the disengagement chamber left hand end wall, and output cavity connects on the left of the disengagement chamber Lead to free surrounding space and disengagement chamber, is provided with an output mechanism, the transmission belt outer end face in the output mechanism in the disengagement chamber Multiple pushing blocks are fixedly connected with, the sieve being fixedly connected with disengagement chamber, the sieve downside are provided on the downside of the output mechanism It is provided with a collection geosynclinal block, the promotion slot of a connection free surrounding space and disengagement chamber, institute are provided on the downside of the wall of the disengagement chamber left end It states to push and is fixedly connected with an active electromagnetic switch in slot, the collection geosynclinal block left end is through promotion slot right end wall and is located at promotion It is described to collect the mud extraction pipeline that lower end wall connection disengagement chamber is provided in geosynclinal block in slot, one is provided in the mud extraction pipeline It is driven electromagnetic switch, a mobile cavity is provided in the disengagement chamber aft bulkhead, is provided with a connection in the disengagement chamber aft bulkhead Free surrounding space and disengagement chamber and aft bulkhead run through the outlet conduit of mobile cavity, slidably connect a movable block in the mobile cavity, Under the action of its effect is the water in disengagement chamber, separation stone, wooden unit and powder, to efficiently separate collection.

Preferably, the compression mechanism includes compression chamber, a compression chamber is provided in the disengagement chamber right end wall, it is described It is provided with the lifting groove that a connection pushes chamber and compression chamber in compression chamber upper end wall, slidably connects a upper end in the lifting groove Through lifting groove upper end wall and the elevating lever that is fixedly connected with lower platen, lower end wall connection lifting is provided in the elevating lever The lifting chamber of slot, the lifting chamber upper end wall are fixedly connected with a lifting spring, and the lifting spring lower end is fixedly connected with one Lower end is provided with an air cushion in lifting groove lower end wall and the mandril in compression chamber, the compression chamber, and the air cushion is left Side is provided with a mobile bar, and the shifting chute of lower end wall connection compression chamber, the shifting chute upper end are provided in the mobile bar Wall is fixedly connected with a mobile spring, the mobile spring lower end be fixedly connected with a lower end through shifting chute lower end wall and with pressure The mobile column that contracting chamber is slidably connected, mobile bar upper end right side are fixedly connected with a translation bar, set on the right side of the translation bar It is equipped with the translation column that a upper surface is connect with ejector pin contact, the translation of left end wall connection compression chamber is provided in the translation column Slot, the translation bar right end is through translation slot left end wall and is located in translation slot, and the translation bar right end is fixedly connected with a right side End with translate the translation spring that is fixedly connected of slot right end wall, the mobile bar left end is fixedly connected with a connecting rod, described in front side Connecting rod left end in compression chamber is fixedly connected through compression chamber left end wall and with geosynclinal block is collected, in the rear side compression chamber Connecting rod left end through compression chamber left end wall and being fixedly connected with movable block, the translation column in the compression chamber of front side and barrier Plate is connected by chain, and effect is the pushing by lower platen, is pushed by the compression of air cushion, to realize a left side for connecting rod Right movement.

The beneficial effects of the present invention are: active electromagnet and transmission electromagnet are in closed state in present invention work, and It collects geosynclinal block right end to contact with disengagement chamber right end wall, and the air cushion in compression mechanism is in normal expanded condition, to make to obstruct Discharge line is truncated in plate, is full of water in disengagement chamber；

In use, concrete block is put into crusher chamber, hydraulic mechanism works at this time, drives hydraulic plate under the action of hydraulic pump It moves downward, so that the transmission by hydraulic stem drives inclined-plane pressing plate to move downward, thus the concrete that will be fallen into crusher chamber Block becomes fritter from bulk, and hydraulic mechanism, which can provide powerful thrust, makes the process more efficient quick of breaking concrete block, liquid Pressing plate moves downward, and drive rod is driven to move downward, so that two ratchet mechanisms be driven to rotate counterclockwise, ratchet wheel block is inverse at this time The ratchet wheel block rotation of hour hands rotation, right side drives right-side ratchet rotation, to pass through right side drive pulley and driving pulley Between transmission belt moving magnet roller rotate counterclockwise, drive driven shaft to rotate clockwise by the transmission of gear, by driven The transmission of belt pulley and left side drive pulley drives left side ratchet to rotate clockwise, to make the ratchet in the ratchet mechanism of left side Block idle running opposite with ratchet, when hydraulic mechanism drives inclined-plane pressing plate return, drive rod is moved right, at this time according to above-mentioned steps Reverse operation makes ratchet mechanism still guarantee that exhausted magnet drum remains unchanged with magnet roller direction of rotation while rotating backward；

By exhausted magnet drum and again second compression of the magnet roller to the small concrete block fallen, smaller fragment is made to fall into separation Chamber, and ironware is accumulated on magnet roller, is made on the right side of the rotation of magnet roller, under the action of scraper plate, ironware falls into lower platen Upside, to make lower platen constantly decline under the continuous accumulation of ironware, to drive adjustable spring to compress, to drive front and back Two elevating levers are gradually reduced, and elevating lever declines in rear side compression mechanism, after by lifting spring compression to a certain extent under Mobile column is pressed, so that air cushion longitudinal direction diameter be made to become smaller, trans D becomes larger, to push mobile bar to move downward, from then Lateral connector bar pushes movable block gradually to move downward, and is connected to free surrounding space with disengagement chamber to make when movable block moves downward, opening Active electromagnet makes front side compression mechanism according to the motion of above-mentioned rear side compression mechanism, so that front side be pushed to connect Bar moves downward, so that collection geosynclinal block be made to move downward, by pushing slot to enter in free surrounding space, opens transmission electromagnet, makes Geosynclinal block is collected in the mud discharge of collection, at the same the wooden unit swum on the upside of the water surface with water outflow free surrounding space to collecting, front side The work of compression mechanism makes to translate column decline, to drive baffler to decline, so that the ironware on the upside of lower platen be made gradually to be discharged To free surrounding space, to make that press mechanism and compression mechanism is made to return to original state under the reaction force of spring, it is then shut off actively Electromagnet and transmission electromagnet, and the crushed stone constantly fallen into disengagement chamber is constantly exported by conveying mechanism, when movable block again After the connection of secondary truncation free surrounding space and disengagement chamber, water is added into disengagement chamber, returns to the liquid level of original state, so that accumulation repeats again Upper step out.

In conclusion it is convenient to operate the medicine have the advantages that present apparatus structure structure is simple, pass through double-deck crushing Mechanism makes concrete block obtain higher, the higher fritter of degree of crushing, thus simplify next to the processing of concrete block, and The device well separates and collects smashed each product, so that the utilization that Support Resource is more efficient and rational, right Solid waste it is broken apart more thoroughly, to easily facilitate operator to the secondary use of solid waste, improve resource Utilization rate, by mechanical transmission, make device to power source using it is upper more rationally and efficiently, improve the benefit of the energy With.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of schematic view of the front view of reuse of solid waste device entirety complete section of the present invention；

Fig. 2 is a kind of vertical view enlarged structure schematic diagram of reuse of solid waste device disintegrating mechanism partial cutaway of the present invention；

Fig. 3 is a kind of vertical view amplification view schematic diagram of reuse of solid waste device transmission mechanism partial cutaway of the present invention；

Fig. 4 is a kind of main view amplification view schematic diagram of reuse of solid waste device compression mechanism complete section of the present invention.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

Fig. 1-4 is please referred to, a kind of embodiment provided by the invention: a kind of reuse of solid waste device, including crush box 1, it is provided with disintegrating mechanism 70 in the crush box 1, the disintegrating mechanism 70 includes crusher chamber 5 and chamber fine crushing 64, described broken A transmission mechanism 71 is provided on the right side of chamber 5, the transmission mechanism 71 includes the crushing in crusher chamber 5 in driving crusher chamber 5 The hydraulic mechanism 72 of 70 side-to-side movement of mechanism, the transmission mechanism 71 further include drive cavity 13, are set in the drive cavity 13 Pass through the ratchet mechanism 22 that hydraulic mechanism 72 moves there are two setting, is provided with ratchet mechanism 22 on rear side of the ratchet mechanism 22 The drive pulley 78 of driving is provided with driven chamber 73 on rear side of the chamber 64 fine crushing, is provided with master in the driven chamber 73 Dynamic belt pulley 78 drives the driven pulley 75 and driving pulley 76 of rotation, and it is thin to be provided with a collection on the right side of the chamber 64 fine crushing The press mechanism 26 of ironware in broken chamber 64, a separating mechanism 51 is provided on the downside of the chamber 64 fine crushing, and the separating mechanism 51 wraps Disengagement chamber 80 is included, there are two the output cavity 60 of output separating objects, the disengagement chambers 80 for setting at left and right sides of the disengagement chamber 80 It is inside provided with the conveying mechanism 59 of separation rubble, sieve 55 is provided on the downside of the conveying mechanism 59, is set on the downside of the sieve 55 It is equipped with the collection geosynclinal block 58 for collecting fine particle, the disengagement chamber side after 80s and right side are provided with through 26 conduct of press mechanism The compression mechanism 42 of power source drive side-to-side movement, the compression mechanism 42 include compression chamber 36, setting in the compression chamber 36 There is a telescopic air cushion 44.

Valuably, the disintegrating mechanism 70 includes crusher chamber 5, and a crusher chamber 5 is provided in the crush box 1, described broken It is provided with the feeding inlet 4 of a connection free surrounding space Yu crusher chamber 5 in broken 5 upper end wall of chamber, is provided in 5 lower end wall of crusher chamber One chamber 64 fine crushing, is provided with the connecting pipe 69 for being connected to crusher chamber 5 Yu chamber 64 fine crushing between the crusher chamber 5 and chamber 64 fine crushing, It is provided with an exhausted magnet drum 67 in the chamber fine crushing 64, a magnet roller 68 is provided on the right side of the exhausted magnet drum 67, it is described broken Broken 5 left end wall of chamber is fixedly connected with an inclined-plane briquetting 2, be provided on the right side of the inclined-plane briquetting 2 be slidably connected with crusher chamber 5 it is oblique Face pressure plate 7, effect are that the mass concrete entered in crusher chamber 5 from feeding inlet 4 is crushed to fritter, are again introduced into chamber fine crushing It is crushed to smaller fragment and powder again after in 64.

Valuably, the transmission mechanism 71 includes drive cavity 13, described to be provided with a hydraulic press positioned in crusher chamber 5 Structure 72, a drive cavity 13 is provided in the 5 right end wall of crusher chamber, and 13 front bulkhead of the drive cavity bilateral symmetry is rotatably connected to One support shaft 81,81 rear end of support shaft are fixedly connected with a ratchet mechanism 22,13 aft bulkhead of the drive cavity bilateral symmetry It is rotatably connected to a ratchet shaft 21,21 rear end of ratchet shaft is fixedly connected with a drive pulley 78, after the chamber 64 fine crushing Be provided with a driven chamber 73 in end wall, driven 73 aft bulkhead of chamber be rotatably connected to a front end through driven 73 front bulkhead of chamber with Exhausted magnet drum 67 and the driven shaft 65 being fixedly connected with exhausted magnet drum 67,65 front end of driven shaft and 64 front bulkhead of chamber fine crushing turn Dynamic connection, be provided on the right side of the driven shaft 65 front end through driven 73 front bulkhead of chamber and magnet roller 68 and with magnet roller 68 transmission shafts 66 being fixedly connected, 66 front end of transmission shaft and 64 front bulkhead of chamber fine crushing are rotatablely connected, described to be located at driven chamber Driven shaft 65 in 73 is fixedly connected with a driven pulley 75 connecting with left side 78 belt of drive pulley, described, A driven gear 74 being fixedly connected with driven shaft 65,74 right end of driven gear are provided on rear side of the driven pulley 75 Engagement is connected with the transmission gear 77 being fixedly connected with transmission shaft 66, is provided on front side of the transmission gear 77 solid with transmission shaft 66 Surely the driving pulley 76 connected, the driving pulley 76 are connect with right side 78 belt of drive pulley, and effect is It drives ratchet mechanism 22 to rotate under the drive of hydraulic mechanism 72, driven shaft 65 and transmission shaft 66 can be driven by the transmission of belt Rotation, through hydraulic mechanism 72 when two ratchet mechanisms 22 in side-to-side movement, make driven shaft 65 and transmission shaft 66 always according to Identical direction of rotation rotation.

Valuably, the hydraulic mechanism 72 includes hydraulic block 8, and the 5 right end wall of crusher chamber is fixedly connected with a hydraulic block 8, a hydraulic cavities 9 are provided in the hydraulic block 8, and a hydraulic plate 12, the hydraulic cavities 9 are slidably connected in the hydraulic cavities 9 The hydraulic pipeline 10 of 12 left and right sides hydraulic cavities 9 of a connection hydraulic plate, setting in the hydraulic pipeline 10 are provided in lower end wall Have a hydraulic pump 11, the 12 left end wall of hydraulic plate be fixedly connected with a left end through 9 left end wall of hydraulic cavities and with inclined-plane pressing plate 7 The hydraulic stem 6 being fixedly connected, 12 right side of hydraulic plate be fixedly connected with a right end through 5 right end wall of crusher chamber and with transmission The drive rod 14 of the engagement connection of ratchet mechanism 22 in chamber 13, effect are to push 7 side-to-side movement of inclined-plane pressing plate crushing coagulation Ratchet mechanism 22 is pushed to rotate transfer motion power while soil block.

Valuably, the ratchet mechanism 22 includes ratchet wheel block 18, and 81 rear end of support shaft is fixedly connected with a ratchet wheel block 18, the ratchet slot 19 of aft bulkhead connection drive cavity 13 is provided in the ratchet wheel block 18, spine is run through in 21 front end of ratchet shaft 19 aft bulkhead of race and be located at ratchet slot 19 in, 21 front end of ratchet shaft is fixedly connected with a ratchet 20, the ratchet slot 19 A spring groove 15 close to the end wall connection ratchet slot 19 of ratchet shaft 21 is symmetrically arranged in upper and lower end wall, the spring groove 15 is remote End wall from ratchet shaft 21 is fixedly connected with a compressed spring 16, and the compressed spring 16 is close to the fixed company in one end of ratchet shaft 21 It is connected to one and runs through spring groove 15 close to the end wall of ratchet shaft 21 and the spring in ratchet slot 19 close to one end of ratchet shaft 21 The ratchet rotation direction of block 17, the ratchet 20 in two ratchet mechanisms 22 in left and right is different, effect be drive rod 14 to the left Ratchet mechanism 22 is driven when movement, but right-side ratchet mechanism 22 drives right-side ratchet axis 21 to rotate, driven by the transmission of belt Transmission shaft 66 rotates, to drive driven shaft 65 to rotate backward by the transmission of gear, drives left side spine by the transmission of belt Wheel shaft 21 rotates backward, to make the ratchet wheel block 18 of the ratchet mechanism 22 in left side and the opposite idle running of ratchet 20, similarly in drive rod 14 when moving downward, and the ratchet wheel block 18 and ratchet 20 in right-side ratchet mechanism 22 are opposite to dally, but guarantees driven shaft 65 and transmission Axis 66 rotates in the same direction always.

Valuably, the press mechanism 26 includes pushing chamber 24, is provided with a left end wall in the 64 right end wall of chamber fine crushing Be connected to the pushing chamber 24 of chamber 64 fine crushing, 24 upper end wall of pushing chamber be fixedly connected with a left end through push 24 left end wall of chamber and The scraper plate 3 connected with magnet roller 68,24 lower end wall of the pushing chamber bilateral symmetry are fixedly connected with an adjustable spring 23, It is described to push the lower platen 25 for being slidably connected in chamber 24 and being slidably connected and be fixedly connected with adjustable spring 23 due to pushing chamber 24, institute 25 left end of lower platen is stated through pushing 24 left end wall of chamber and being located in chamber 64 fine crushing, is provided with one in the 24 right end wall of pushing chamber It is tilted to the right downwards and is connected to free surrounding space and pushes the discharge line 31 of chamber 24, be provided with one in the 24 right end wall of pushing chamber It is discharged the spring cavity 29 that 31 right end wall of pipeline runs through left hand end wall, slidably connects a baffler 27 in the spring cavity 29, 27 lower end of baffler is fixedly connected with the connecting spring 30 that Ei has a lower end to be fixedly connected with spring cavity 29, and effect is by magnetic 68 upside ironware of iron roller is scraped by scraper plate 3 falls into lower platen 25, to drive lower platen 25 to decline, thus output power.

Valuably, the separating mechanism 51 includes disengagement chamber 80, and a connection point is provided in 80 upper end wall of disengagement chamber Falling duct 63 from chamber 80 and chamber 64 fine crushing, be provided on the left of 80 upper end wall of disengagement chamber a connection free surrounding space with separate The water inlet pipe 61 of chamber 80 is symmetrically arranged with the output cavity 60 of a connection disengagement chamber 80, institute in 80 left hand end wall of disengagement chamber 80 left side output cavity 60 of disengagement chamber connection free surrounding space and disengagement chamber 80 are stated, is provided with an output mechanism in the disengagement chamber 80 59, the transmission belt outer end face in the output mechanism 59 is fixedly connected with multiple pushing blocks 52, is arranged on the downside of the output mechanism 59 There is the sieve 55 being fixedly connected with disengagement chamber 80, a collection geosynclinal block 58 is provided on the downside of the sieve 55, the disengagement chamber 80 is left It is provided with the promotion slot 56 of a connection free surrounding space Yu disengagement chamber 80 on the downside of end wall, it is main that one is fixedly connected in the promotion slot 56 Dynamic electromagnetic switch 57,58 left end of collection geosynclinal block is through promotion 56 right end wall of slot and is located in promotion slot 56, the collecting tank It is provided with the mud extraction pipeline 54 of lower end wall connection disengagement chamber 80 in block 58, is provided with a transmission electromagnetism in the mud extraction pipeline 54 Switch 53 is provided with a mobile cavity 79 in the disengagement chamber end wall after 80s, is provided with a connection in the disengagement chamber end wall after 80s Free surrounding space and disengagement chamber 80 and aft bulkhead run through the outlet conduit 49 of mobile cavity 79, slidably connect one in the mobile cavity 79 Movable block 50, under the action of effect is the water in disengagement chamber 80, separation stone, wooden unit and powder, to efficiently separate It collects.

Valuably, the compression mechanism 42 includes compression chamber 36, is provided with a compression chamber in the 80 right end wall of disengagement chamber 36, the lifting groove 35 that a connection pushes chamber 24 and compression chamber 36, the lifting groove 35 are provided in 36 upper end wall of compression chamber Inside slidably connect the elevating lever 28 that a upper end is run through 35 upper end wall of lifting groove and is fixedly connected with lower platen 25, the elevating lever The lifting chamber 33 of lower end wall connection lifting groove 35 is provided in 28,33 upper end wall of lifting chamber is fixedly connected with a lifting bullet Spring 32,32 lower end of lifting spring are fixedly connected with a lower end through 35 lower end wall of lifting groove and the top in compression chamber 36 Bar 34 is provided with an air cushion 41 in the compression chamber 36, a mobile bar 45, the mobile bar 45 is provided on the left of the air cushion 41 It is inside provided with the shifting chute 43 of lower end wall connection compression chamber 36,43 upper end wall of shifting chute is fixedly connected with a mobile spring 44,44 lower end of mobile spring is fixedly connected with a lower end through 43 lower end wall of shifting chute and is slidably connected with compression chamber 36 Mobile column 46, the 45 upper end right side of mobile bar are fixedly connected with a translation bar 39, are provided with one on the right side of the translation bar 39 The translation column 37 that upper surface and mandril 34 connect, described translate are provided with the flat of left end wall connection compression chamber 36 in column 37 Slot 40 is moved, 39 right end of translation bar is through translation 40 left end wall of slot and is located in translation slot 40, and 39 right end of translation bar is solid Surely it is connected with the translation spring 38 that a right end is fixedly connected with translation 40 right end wall of slot, 45 left end of mobile bar is fixedly connected with One connecting rod 47,47 left end of connecting rod in the compression chamber 36 of front side are through 36 left end wall of compression chamber and solid with geosynclinal block 58 is collected Fixed to connect, 47 left end of connecting rod in the rear side compression chamber 36 is through 36 left end wall of compression chamber and fixed with movable block 50 It connects, the translation column 37 in the compression chamber 36 of front side is connect with baffler 27 by chain, and effect is by lower platen 25 Pushing, pushed by the compression of air cushion 41, to realize the side-to-side movement of connecting rod 47.

In the following, applicant will refer to attached drawing 1-4 and a kind of reuse of solid waste device of the application described above Concrete composition introduce a kind of application method of reuse of solid waste device of the application in detail: firstly, in original state When, active electromagnet 57 and transmission electromagnet 53 are in closed state, and collect 58 right end of geosynclinal block and connect with 80 right end wall of disengagement chamber Touching, and the air cushion in compression mechanism 42 is in normal expanded condition, to make baffler 27 that discharge line 31, disengagement chamber 80 be truncated It is interior to be full of water.

In use, concrete block is put into crusher chamber 5, hydraulic mechanism 72 works at this time, under the action of hydraulic pump 11 Hydraulic plate 12 is driven to move downward, so that the transmission by hydraulic stem 6 drives inclined-plane pressing plate 7 to move downward, to will fall into brokenly Concrete block in broken chamber 5 becomes fritter from bulk, and hydraulic mechanism 72, which can provide powerful thrust, makes the mistake of breaking concrete block Cheng Gengjia efficient quick, hydraulic plate 12 move downward, and drive rod 14 is driven to move downward, to drive two ratchet mechanisms 22 It rotates counterclockwise, ratchet wheel block 18 rotates counterclockwise at this time, and the rotation of ratchet wheel block 18 on right side drives right-side ratchet 20 to rotate, thus logical The transmission belt moving magnet roller 68 crossed between right side drive pulley 78 and driving pulley 76 rotates counterclockwise, and passes through gear Transmission drives driven shaft 65 to rotate clockwise, and drives left side spine by the transmission of driven pulley 75 and left side drive pulley 78 Wheel 20 rotates clockwise, to make ratchet wheel block 18 and ratchet 20 in the ratchet mechanism 20 of left side are opposite to dally, when hydraulic mechanism 72 When driving 7 return of inclined-plane pressing plate, drive rod 14 is moved right, and at this time according to above-mentioned steps reverse operation, ratchet mechanism 20 is made to exist Still guarantee that exhausted magnet drum 67 remains unchanged with 68 direction of rotation of magnet roller while rotating backward；

By exhausted magnet drum 67 and again second compression of the magnet roller 68 to the small concrete block fallen, fall into smaller fragment point From chamber, and ironware is accumulated on magnet roller 68, is made on the right side of the rotation of magnet roller 68, under the action of scraper plate 3, ironware is fallen into 25 upside of lower platen, thus decline lower platen 25 constantly under the continuous accumulation of ironware, so that adjustable spring 23 is driven to compress, To driving the elevating lever 28 of front and back two to be gradually reduced, the decline of elevating lever 38 in rear side compression mechanism 42, by lifting spring 32 Mobile column 37 is pressed under compression is backward to a certain extent, so that the longitudinal diameter of air cushion 41 be made to become smaller, trans D becomes larger, to push away Dynamic mobile bar 45 moves downward, so that rear side connecting rod 47 pushes movable block 50 gradually to move downward, when movable block 50 is transported to the left Moving, which is connected to free surrounding space with disengagement chamber 80, makes, and opens active electromagnet 57, makes front side compression mechanism 42 according to above-mentioned rear side pressure The motion of contracting mechanism 42, so that collection geosynclinal block 58 be made to move downward, leads to so that front side connecting rod be pushed to move downward It crosses promotion slot 56 to enter in free surrounding space, opens transmission electromagnet 53, so that the mud collected discharge is collected geosynclinal block 58, float simultaneously With water outflow free surrounding space to collect, the work of front side compression mechanism 42 makes to translate the decline of column 37 wooden unit on the upside of the water surface, To drive baffler 27 to decline, to make the ironware of 25 upside of lower platen gradually be discharged to free surrounding space, to make in spring Reaction force under make press mechanism 26 and compression mechanism 42 returns to original state, be then shut off active electromagnet 57 and transmission electromagnet 53, and constantly fall into the crushed stone in disengagement chamber 80 and constantly exported by conveying mechanism 59, when the external world is truncated in movable block 50 again After the connection of space and disengagement chamber 80, water is added into disengagement chamber 80, returns to the liquid level of original state, so that accumulation repeats to walk again Suddenly.

The beneficial effects of the present invention are: present apparatus structure structure is simple, it is convenient to operate, and by double-deck disintegrating mechanism, makes Concrete block obtains higher, the higher fritter of degree of crushing, to simplify next to the processing of concrete block, and the device is very Good separates and collects smashed each product, thus the utilization that Support Resource is more efficient and rational, to solid waste It is broken apart more thoroughly, to easily facilitate operator to the secondary use of solid waste, improve the utilization rate of resource, By mechanical transmission, make device to power source using it is upper more rationally and efficiently, improve the utilization of the energy.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (8)

1. a kind of reuse of solid waste device, including crush box, it is characterised in that: be provided with pulverizer in the crush box Structure, the disintegrating mechanism include crusher chamber and chamber fine crushing, are provided with a transmission mechanism, the transmission mechanism on the right side of the crusher chamber The hydraulic mechanism of the disintegrating mechanism side-to-side movement in crusher chamber is driven in crusher chamber including being located at, the transmission mechanism also wraps Drive cavity is included, there are two the ratchet mechanisms moved by hydraulic mechanism, the ratchet mechanism rear side to set for setting in the drive cavity It is equipped with the drive pulley driven by ratchet mechanism, is provided with driven chamber, the driven intracavitary setting on rear side of the chamber fine crushing There are the driven pulley and driving pulley that rotation is driven by drive pulley, it is thin to be provided with a collection on the right side of the chamber fine crushing The press mechanism of broken intracavitary ironware, the chamber downside fine crushing are provided with a separating mechanism, and the separating mechanism includes disengagement chamber, institute The output cavity of output separating objects there are two settings at left and right sides of disengagement chamber is stated, is provided with the defeated of separation rubble in the disengagement chamber Mechanism is sent, sieve is provided on the downside of the conveying mechanism, the collection geosynclinal block for collecting fine particle, institute are provided on the downside of the sieve It states on rear side of disengagement chamber and right side is provided with the compression mechanism by press mechanism as power source drive side-to-side movement, the pressure Contracting mechanism includes compression chamber, and a telescopic air cushion is provided in the compression chamber.

2. a kind of reuse of solid waste device according to claim 1, it is characterised in that: the disintegrating mechanism includes broken Broken chamber is provided with a crusher chamber in the crush box, and a connection free surrounding space and broken is provided in the crusher chamber upper end wall The feeding inlet of chamber is provided with a chamber fine crushing in the crusher chamber lower end wall, is provided with and is connected between the crusher chamber and chamber fine crushing The connecting pipe of crusher chamber and chamber fine crushing, it is described it is fine crushing it is intracavitary be provided with an exhausted magnet drum, be provided on the right side of the exhausted magnet drum One magnet roller, crusher chamber left end wall are fixedly connected with an inclined-plane briquetting, are provided with and are crushed on the right side of the inclined-plane briquetting The inclined-plane pressing plate that chamber is slidably connected, effect be the mass concrete entered in crusher chamber from feeding inlet is crushed to fritter, then It is secondary enter it is fine crushing it is intracavitary after be crushed to smaller fragment and powder again.

3. a kind of reuse of solid waste device according to claim 2, it is characterised in that: the transmission mechanism includes passing Dynamic chamber, it is described to be provided with a hydraulic mechanism positioned in crusher chamber, a drive cavity, institute are provided in the crusher chamber right end wall It states drive cavity front bulkhead bilateral symmetry and is rotatably connected to a support shaft, the support shaft rear end is fixedly connected with a ratchet mechanism, The drive cavity aft bulkhead bilateral symmetry is rotatably connected to a ratchet shaft, and the ratchet shaft rear end is fixedly connected with a drive pulley It takes turns, a driven chamber is provided in the cavity rear end wall fine crushing, the driven cavity rear end wall is rotatably connected to a front end through driven Chamber front bulkhead and exhausted magnet drum and the driven shaft being fixedly connected with exhausted magnet drum, the driven shaft front end and chamber front bulkhead fine crushing turn It moves and connects, a front end is provided on the right side of the driven shaft through driven chamber front bulkhead and magnet roller and fixes company with magnet roller The transmission shaft connect, the transmission shaft front end and chamber front bulkhead fine crushing are rotatablely connected, described to fix positioned at driven intracavitary driven shaft It is connected with a driven pulley connecting with the left side drive pulley belt, described, setting on rear side of the driven pulley There is a driven gear being fixedly connected with driven shaft, the driven gear right end engagement is connected with the biography being fixedly connected with transmission shaft Moving gear, the transmission gear front side are provided with the driving pulley being fixedly connected with transmission shaft, the driving pulley and the right side The connection of drive pulley belt described in side, effect are that ratchet mechanism rotation is driven under the drive of hydraulic mechanism, pass through belt Transmission driven shaft and transmission shaft can be driven to rotate, through hydraulic mechanism when two ratchet mechanisms in side-to-side movement, make driven Axis is rotated according to identical direction of rotation always with transmission shaft.

4. a kind of reuse of solid waste device according to claim 3, it is characterised in that: the hydraulic mechanism includes liquid Briquetting, the crusher chamber right end wall are fixedly connected with a hydraulic block, and a hydraulic cavities, the hydraulic cavities are provided in the hydraulic block A hydraulic plate is inside slidably connected, the hydraulic of a connection hydraulic plate left and right sides hydraulic cavities is provided in the hydraulic cavities lower end wall Pipeline, a hydraulic pump is provided in the hydraulic pipeline, and hydraulic plate left end wall is fixedly connected with a left end through hydraulic cavities Left end wall and the hydraulic stem being fixedly connected with inclined-plane pressing plate, the hydraulic plate right side are fixedly connected with a right end through crusher chamber Right end wall and the drive rod that connection is engaged with the ratchet mechanism in drive cavity, effect are to push inclined-plane pressing plate side-to-side movement pressure Ratchet mechanism is pushed to rotate transfer motion power while broken concrete.

5. a kind of reuse of solid waste device according to claim 3, it is characterised in that: the ratchet mechanism includes spine Block is taken turns, the support shaft rear end is fixedly connected with a ratchet wheel block, and aft bulkhead connection drive cavity is provided in the ratchet wheel block Ratchet slot, the ratchet shaft front end is through ratchet slot aft bulkhead and is located in ratchet slot, and the ratchet shaft front end is fixedly connected with One ratchet, the ratchet slot are symmetrically arranged with a spring groove close to the end wall connection ratchet slot of ratchet shaft, institute in end wall up and down It states spring groove and is fixedly connected with a compressed spring far from the end wall of ratchet shaft, the compressed spring is fixed close to one end of ratchet shaft It is connected with one and runs through spring groove close to the end wall of ratchet shaft and the spring block in ratchet slot, left and right close to one end of ratchet shaft The ratchet rotation direction of ratchet in two ratchet mechanisms is different, and effect is the drive ratchet machine when drive rod moves downward Structure, but right-side ratchet mechanism drives the rotation of right-side ratchet axis, transmission shaft rotation is driven by the transmission of belt, to pass through gear Transmission, drive driven shaft to rotate backward, drive left side ratchet shaft to rotate backward by the transmission of belt, to make the spine in left side Take turns mechanism ratchet wheel block it is opposite with ratchet dallies, similarly when drive rod moves downward, right-side ratchet ratchet wheel block within the organization and Ratchet is opposite to dally, but guarantees that driven shaft rotates in the same direction always with transmission shaft.

6. a kind of reuse of solid waste device according to claim 1, it is characterised in that: under the press mechanism includes Chamber is pressed, is provided with the pushing chamber that a left end wall is connected to chamber fine crushing in the chamber right end wall fine crushing, the pushing chamber upper end wall is fixed A left end is connected with through the scraper plate for pushing chamber left end wall and connecting with magnet cylinder contact, described pushing chamber lower end wall or so pair Title is fixedly connected with an adjustable spring, described to push intracavitary be slidably connected since pushing chamber is slidably connected and fixes with adjustable spring The lower platen of connection, the lower platen left end through push chamber left end wall and be located at it is fine crushing intracavitary, in the pushing chamber right end wall It is provided with one to be tilted to the right downwards and be connected to free surrounding space and push the discharge line of chamber, be provided in the pushing chamber right end wall One is discharged the spring cavity that pipeline right end wall runs through left hand end wall, slidably connects a baffler, the resistance in the spring cavity Partition lower end is fixedly connected with the connecting spring that Ei has a lower end to be fixedly connected with spring cavity, and effect is by iron on the upside of magnet roller Device is scraped by scraper plate and falls into lower platen, to drive lower platen to decline, thus output power.

7. a kind of reuse of solid waste device according to claim 1, it is characterised in that: the separating mechanism includes point From chamber, the falling duct of a connection disengagement chamber and chamber fine crushing, the disengagement chamber upper end wall are provided in the disengagement chamber upper end wall Left side is provided with the water inlet pipe of a connection free surrounding space and disengagement chamber, is symmetrically arranged with a company in the disengagement chamber left hand end wall The output cavity of logical disengagement chamber, disengagement chamber left side output cavity are connected to free surrounding space and disengagement chamber, are provided in the disengagement chamber One output mechanism, the transmission belt outer end face in the output mechanism are fixedly connected with multiple pushing blocks, set on the downside of the output mechanism It is equipped with the sieve being fixedly connected with disengagement chamber, a collection geosynclinal block, disengagement chamber left end wall downside are provided on the downside of the sieve It is provided with the promotion slot of a connection free surrounding space and disengagement chamber, is fixedly connected with an active electromagnetic switch, institute in the promotion slot It states and collects geosynclinal block left end through pushing slot right end wall and being located in promotion slot, lower end wall connection is provided in the collection geosynclinal block The mud extraction pipeline of disengagement chamber is provided with a transmission electromagnetic switch in the mud extraction pipeline, is provided in the disengagement chamber aft bulkhead One mobile cavity is provided with a connection free surrounding space and disengagement chamber in the disengagement chamber aft bulkhead and aft bulkhead going out through mobile cavity Waterpipe slidably connects a movable block in the mobile cavity, under the action of effect is the water in disengagement chamber, separates stone Block, wooden unit and powder, to efficiently separate collection.

8. a kind of reuse of solid waste device according to claim 1, it is characterised in that: the compression mechanism includes pressure Contracting chamber is provided with a compression chamber in the disengagement chamber right end wall, be provided in the compression chamber upper end wall connection push chamber with The lifting groove of compression chamber slidably connects a upper end in the lifting groove through lifting groove upper end wall and is fixedly connected with lower platen Elevating lever, the lifting chamber of lower end wall connection lifting groove, the fixed company of the lifting chamber upper end wall are provided in the elevating lever It is connected to a lifting spring, the lifting spring lower end is fixedly connected with a lower end through lifting groove lower end wall and is located in compression chamber Mandril, an air cushion is provided in the compression chamber, a mobile bar is provided on the left of the air cushion, is provided in the mobile bar One lower end wall is connected to the shifting chute of compression chamber, and the shifting chute upper end wall is fixedly connected with a mobile spring, the mobile spring Lower end is fixedly connected with the mobile column that a lower end runs through shifting chute lower end wall and is slidably connected with compression chamber, the mobile bar upper end Right side is fixedly connected with a translation bar, is provided with the translation column that a upper surface is connect with ejector pin contact on the right side of the translation bar, Be provided in the translation column left end wall connection compression chamber translation slot, the translation bar right end through translate slot left end wall and In translation slot, the translation bar right end is fixedly connected with the translation spring that a right end is fixedly connected with translation slot right end wall, The mobile bar left end is fixedly connected with a connecting rod, and compression chamber left end wall is run through in the connecting rod left end in the compression chamber of front side And with collect geosynclinal block be fixedly connected, the connecting rod left end in the rear side compression chamber through compression chamber left end wall and with movement Block is fixedly connected, and the translation column in the compression chamber of front side is connect with baffler by chain, and effect is by lower platen It pushes, is pushed by the compression of air cushion, to realize the side-to-side movement of connecting rod.