Summary of the invention
Technical problem: there is no the equipment for the processing of silicate industry solid refuse at present, and it is solid can to handle silicate industry
The building solid refuse treatment plant of body rubbish only has crushing function substantially, can not further be located to smashed powder
Reason.
To solve the above problems, this example devises a kind of silicate industry solid-waste treatment facility, a kind of silicon of this example
Hydrochlorate industrial solid refuse treatment plant, including shaping box, the shaping box is interior to be equipped with forming cavity, is equipped with benefit in the forming cavity
Mixed raw material is pressed into the molding machine of brick with pressure, is equipped with above the molding machine and is able to achieve continuous brickmaking
Indexing mechanism, the indexing mechanism left side are equipped with for raw material to be mixed and fills mixed feedstock transportation to the molding
The agitating device set, the shaping box is interior to be equipped with the translation chamber for being located at and communicating above the forming cavity and with the forming cavity,
The translation is intracavitary to be equipped with the proportioning device that coagulator can be quantitatively conveyed into the agitating device, end face on the upside of the translation chamber
On be fixedly connected with crush box, equipped with two crushing chambers that front and back is symmetrical and opening up, the crush box in the crush box
Solid refuse can be crushed to powder and be conveyed into the crushing device of the agitating device by interior be equipped with.
Valuably, it is equipped in the crush box and is located at the crushing chamber right side and linkage chamber up and down, the crushing
Case left end face is fixedly connected with material storing box, is equipped with the storage cavity for storing coagulator in the material storing box, front side it is described
Inner wall interlinks the efferent duct that is connected to and can be transported to solid refuse powder in the indexing mechanism on the downside of crushing chamber, the storing
Inner wall is equipped with the material-dropping hole that communicates and can be transported to coagulator in the indexing mechanism up and down on the downside of chamber.
Wherein, the molding machine includes and the shaping axle that inner wall rotation connection and front and back extend on rear side of the forming cavity,
It is connected by power the molding motor for being fixedly connected on inner wall on rear side of the forming cavity on the shaping axle, is fixed on the shaping axle
It is connected with the main pulley being located on front side of the molding motor, is fixedly connected on front side of the main pulley on the shaping axle
Bevel gear, the crank being fixedly connected on the shaping axle on front side of the bevel gear, the crank lower end has been respectively articulated with
Bull stick and connecting rod, and the bull stick, the connecting rod and the crank lower end are articulated with a bit, the connecting rod lower end is hinged with cunning
Bar is fixedly connected with boss on inner wall on the right side of the forming cavity, and the slide bar is slidably connected with the boss and is pierced by described convex
End face on the downside of platform, the Forming press being fixedly connected on the slide bar below the boss.
Wherein, the indexing mechanism includes being rotationally connected with inner wall and the dividing spindle extended up and down on the downside of the forming cavity,
Forming disk is fixedly connected on the dividing spindle, opening up four are distributed with for containing in circumferential array on the forming disk
The forming cavity of mixed raw material, the index dial being fixedly connected on the dividing spindle above the forming disk, described point
Circumferential array is uniformly distributed there are four allocating slot on scale, and the forming cavity upper inside walls, which are rotatably connected to, extends up and down and be located at described point
The shifting shaft on the left of axis is spent, is fixedly connected with the driver plate that can be abutted with the index dial on the shifting shaft, on the shifting shaft
It is fixedly connected with the secondary bevel gear for being located at below the driver plate and engaging connection with the bevel gear.
Wherein, the agitating device includes being fixedly connected with the forming cavity upper inside walls and opening up funnel, institute
It states funnel to be located on the left of the shifting shaft, be rotatably connected on the forming cavity rear side inner wall above the shaping axle and preceding
The agitating shaft extended afterwards, the agitating shaft front end are protruded into the funnel, are fixedly connected on the agitating shaft positioned at the leakage
Secondary pulley on rear side of struggling against, is connected with transmission belt, is fixedly connected on the agitating shaft between the secondary pulley and the main pulley
Agitator disk in the funnel, the funnel lower end, which interlinks, is connected to discharge nozzle, slidably connects and stretches on the discharge nozzle
End face and the block plate of discharge nozzle can be separated at left and right sides of discharge nozzle out, be fixedly connected in the discharge nozzle right end face positioned at institute
The fixed block below block plate is stated, lever is rotatably connected on the fixed block, the lever upper end is equipped with the lever facing forward that is open
Slot slidably connects lever sliding block in the lever slot, and the lever sliding block and the block plate right end are hinged and hinge joint
Outside the discharge nozzle right end face, the lever lower end is hinged with the bull stick lower end.
It may be preferred that the indexing mechanism and the agitating device Union Movement can make the mixed original in the funnel
Material is fed sequentially into each forming cavity.
Wherein, the proportioning device includes being fixedly connected and being located on the right side of the connecting rod with inner wall on the right side of the linkage chamber
Fixed link, be rotatably connected to interlocking bar in the fixed link, the interlocking bar upper end is hinged with push rod, the interlocking bar lower end
Equipped with the interlocking bar slot facing forward that is open, interlocking bar sliding block is slidably connected in the interlocking bar slot, the interlocking bar sliding block is hinged
Have with the mandril that is slidably connected of inner wall on the downside of the translation chamber, be equipped in the material storing box be located at below the storage cavity and with institute
State the cunning chamber that communicates of translation chamber, the cunning is intracavitary to slidably connect partition sliding block, the partition sliding block equipped with through-hole, it is described every
Disconnected sliding block right end is fixedly connected with the push top abutted with the mandril, the partition sliding block left end face in the sliding chamber left side
Reset spring is connected between wall.
It may be preferred that the proportioning device controls the on-off of the material-dropping hole by the mobile partition sliding block, thus real
Now coagulator is conveyed to the funnel quantification.
Wherein, the crushing device includes the band with inner wall rotation connection and front and back extension on rear side of the crushing chamber of rear side
Wheel shaft, the pulley shaft protrude into the crushing chamber of front side, are fixedly connected with belt wheel on the pulley shaft, on the pulley shaft
The pulley shaft being fixedly connected in the crushing chamber of front side, the pulley shaft right end are fixed to each other with the push rod left end
Connection, the pulley shaft upper end are hingedly moved jaw, are rotatably connected on inner wall positioned at the belt wheel on rear side of the crushing chamber of front side
Connecting rod below axis, the connecting rod other end are hinged with the dynamic jaw lower end, in the crushing chamber rear side of rear side
Wall is rotatably connected to front and back extension and symmetrical two crushing shafts, and the crushing shaft in left side protrudes into the crushing of front side
Compound belt wheel that is intracavitary, being fixedly connected on the crushing shaft in the crushing chamber of rear side, the left and right sides it is described multiple
It is connected with V band between crossed belt wheel, is connected with positioned at the V between the compound belt wheel in left side and the belt wheel with the same of rear side
Band is walked, the powder of rear side is connected by power on rear side of the compound belt wheel and be fixedly connected on the crushing shaft in left side
The broken motor of inner wall on rear side of broken chamber is fixedly connected on rear side of the compound belt wheel on the crushing shaft on right side, after
Front and back is rotatably connected on rear side of the crushing chamber of side on inner wall to extend and protrude into the crushing chamber of front side, it is described solid
Surely be connected in the crushing chamber of rear side and with it is described engaging connection, on the crushing shaft with left side respectively
The crushing wheel being fixedly connected in the crushing chamber of front side.
The beneficial effects of the present invention are: the present invention is a kind of silicate industry solid-waste treatment facility, it is therein broken
Powder and coagulator can be stirred by device by silicate industry solid refuse fast-crushing at powder, and by mixing arrangement
Mixing, mixing arrangement will carry out compacting and produce brick later in mixed feedstock transportation to pressure brick making device, due to pressure
Be provided with multiple stations in power brick making device, cooperation mixing arrangement can carry out simultaneously mixed feedstock transportation and pressure brickmaking and
The work for carrying brick, so as to efficiently handle solid refuse, while solving transport solid rubbish powder and be easy to causeing sky
The problem of gas pollutes.
Specific embodiment
Below with reference to Fig. 1-Fig. 7, the present invention is described in detail, for sake of convenience, now provides to hereafter described orientation
As follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
The present invention relates to a kind of silicate industry solid-waste treatment facilities, are mainly used in silicate industry solid refuse
Processing, below in conjunction with attached drawing of the present invention, the present invention will be further described:
A kind of silicate industry solid-waste treatment facility of the present invention, including shaping box 11 are set in the shaping box 11
There is forming cavity 12, is equipped with the molding machine 101 that mixed raw material is pressed into brick using pressure, institute in the forming cavity 12
The indexing mechanism 102 for being equipped with above molding machine 101 and being able to achieve continuous brickmaking is stated, is equipped with and is used on the left of the indexing mechanism 102
Raw material is mixed and by the agitating device 103 on mixed feedstock transportation to the molding machine 101, the shaping box 11
Interior be equipped with is located at the translation chamber 43 forming cavity 12 top and communicated with the forming cavity 12, is equipped with energy in the translation chamber 43
The proportioning device 104 of coagulator is quantitatively conveyed into the agitating device 103, is fixedly connected on the 43 upside end face of translation chamber
There is a crush box 30, two crushing chambers 40 symmetrical and opening up equipped with front and back in the crush box 30, in the crush box 30
Equipped with solid refuse capable of being crushed to powder and be conveyed into the crushing device 105 of the agitating device 103.
Valuably, it is equipped in the crush box 30 and is located at 40 right side of crushing chamber and linkage chamber 36 up and down, institute
It states 30 left end face of crush box and is fixedly connected with material storing box 28, the storage cavity for storing coagulator is equipped in the material storing box 28
29, the 40 downside inner wall of the crushing chamber of front side interlinks to be connected to and solid refuse powder can be transported to the indexing mechanism 102
Interior efferent duct 45, the 29 downside inner wall of storage cavity are equipped with and communicate up and down and coagulator can be transported to the indexing mechanism
Material-dropping hole 27 in 102.
According to embodiment, molding machine 101 is described in detail below, the molding machine 101 include with it is described at
12 rear side inner wall of type chamber is rotatablely connected and the shaping axle 69 of front and back extension, has been connected by power and has been fixedly connected on the shaping axle 69
The molding motor 68 of the 12 rear side inner wall of forming cavity is fixedly connected with before the molding motor 68 on the shaping axle 69
The main pulley 70 of side is fixedly connected with the bevel gear 51 positioned at 70 front side of main pulley, the molding on the shaping axle 69
The crank 60 positioned at 51 front side of bevel gear is fixedly connected on axis 69,60 lower end of crank has been respectively articulated with 61 He of bull stick
Connecting rod 58, and the bull stick 61, the connecting rod 58 and 60 lower end of crank are articulated with a bit, 58 lower end of connecting rod is hinged with
Slide bar 55 is fixedly connected with boss 54 on the 12 right side inner wall of forming cavity, and the slide bar 55 is slidably connected with the boss 54
And it is pierced by the 54 downside end face of boss, the Forming press positioned at 54 lower section of boss is fixedly connected on the slide bar 55
56。
According to embodiment, indexing mechanism 102 is described in detail below, the indexing mechanism 102 includes rotation connection
The dividing spindle 13 extended in the 12 downside inner wall of forming cavity and up and down is fixedly connected with forming disk 14 on the dividing spindle 13,
The forming cavity 15 that opening up four are used to contain mixed raw material is distributed in circumferential array on the forming disk 14, described
The index dial 48 being fixedly connected with above the forming disk 14 on dividing spindle 13, circumferential array is uniformly distributed on the index dial 48
There are four allocating slot 59,12 upper inside walls of forming cavity, which are rotatably connected to, extends up and down and is located at dialling for 13 left side of dividing spindle
Moving axis 47, is fixedly connected with the driver plate 49 that can be abutted with the index dial 48 on the shifting shaft 47, solid on the shifting shaft 47
Surely it is connected with the secondary bevel gear 50 that connection is engaged positioned at 49 lower section of driver plate and with the bevel gear 51.
According to embodiment, agitating device 103 is described in detail below, the agitating device 103 includes being fixedly connected
There are 12 upper inside walls of forming cavity and opening up funnel 22, the funnel 22 is located at 47 left side of shifting shaft, described
The agitating shaft 21 that above the shaping axle 69 and front and back extends, the stirring are rotatably connected on 12 rear side inner wall of forming cavity
21 front end of axis is protruded into the funnel 22, and the secondary pulley positioned at 22 rear side of funnel is fixedly connected on the agitating shaft 21
72, it is connected with transmission belt 71 between the secondary pulley 72 and the main pulley 70, is fixedly connected with and is located on the agitating shaft 21
Agitator disk 20 in the funnel 22,22 lower end of funnel, which interlinks, is connected to discharge nozzle 16, the company of sliding on the discharge nozzle 16
It is connected to stretching 16 left and right sides end face of discharge nozzle and the block plate 19 of discharge nozzle 16 can be separated, it is solid in 16 right end face of discharge nozzle
Surely it is connected with the fixed block 17 positioned at 19 lower section of block plate, is rotatably connected to lever 18, the lever on the fixed block 17
18 upper ends are equipped with the lever slot 76 facing forward that is open, and slidably connect lever sliding block 75, the lever sliding block in the lever slot 76
75 are hinged and hinge joint is located at outside 16 right end face of discharge nozzle with 19 right end of block plate, 18 lower end of lever and
61 lower end of bull stick is hinged.
Valuably, the indexing mechanism 102 can make the mixing in the funnel 22 with 103 Union Movement of agitating device
Raw material afterwards is fed sequentially into each forming cavity 15.
According to embodiment, proportioning device 104 is described in detail below, the proportioning device 104 include with it is described
Dynamic 36 right side inner wall of chamber is fixedly connected with and is located at the fixed link 39 on 38 right side of connecting rod, is rotatablely connected in the fixed link 39
There is interlocking bar 35,35 upper end of interlocking bar is hinged with push rod 34, and 35 lower end of interlocking bar is equipped with the interlocking bar facing forward that is open
Slot 73 slidably connects interlocking bar sliding block 74 in the interlocking bar slot 73, and the interlocking bar sliding block 74 is hinged with and the translation
The mandril 44 that 43 downside inner wall of chamber is slidably connected, interior be equipped with of the material storing box 28 are located at 29 lower section of storage cavity and put down with described
The cunning chamber 26 that chamber 43 communicates is moved, partition sliding block 24 is slidably connected in the sliding chamber 26, the partition sliding block 24 is equipped with through-hole
23, partition 24 right end of sliding block is fixedly connected with the push top 46 abutted with the mandril 44,24 left-hand end of partition sliding block
Reset spring 25 is connected between face and 26 inner left wall of sliding chamber.
Valuably, the proportioning device 104 controls the on-off of the material-dropping hole 27 by the mobile partition sliding block 24, from
And it realizes to 22 quantification of funnel and conveys coagulator.
According to embodiment, crushing device 105 is described in detail below, the crushing device 105 includes and rear side
The pulley shaft 31 that 40 rear side inner wall of the crushing chamber rotation connection and front and back extend, the pulley shaft 31 protrude into the powder of front side
In broken chamber 40, it is fixedly connected with belt wheel 66 on the pulley shaft 31, the institute positioned at front side is fixedly connected on the pulley shaft 31
The pulley shaft 31 in crushing chamber 40 is stated, 31 right end of pulley shaft is mutually permanently connected with 34 left end of push rod, the belt wheel
Jaw 37 is hingedly moved in 31 upper end of axis, is rotatably connected on the 40 rear side inner wall of the crushing chamber of front side positioned at 31 lower section of pulley shaft
Connecting rod 38,38 other end of connecting rod is hinged with dynamic 37 lower end of jaw, 40 rear side of the crushing chamber of rear side
Inner wall is rotatably connected to front and back extension and symmetrical two crushing shafts 42, and the crushing shaft 42 in left side protrudes into the institute of front side
It states in crushing chamber 40, the compound belt wheel 62 being fixedly connected on the crushing shaft 42 in the crushing chamber 40 of rear side, it is left
It is connected with V band 63 between the compound belt wheel 62 of right two sides, connects between the compound belt wheel 62 and the belt wheel 66 in left side
It is connected to the synchronous belt 64 for being located at 63 rear side of V band, has been connected by power on the crushing shaft 42 in left side positioned at the composite band
It takes turns 62 rear sides and is fixedly connected on the broken motor 52 of the 40 rear side inner wall of the crushing chamber of rear side, the crushing shaft 42 on right side
On be fixedly connected with 73 positioned at 62 rear side of compound belt wheel, be rotatably connected on the 40 rear side inner wall of the crushing chamber of rear side
Front and back extend and protrude into the crushing chamber 40 of front side 74, described 74 on be fixedly connected with the crushing chamber positioned at rear side
It engages in 40 and with described 73 and has been respectively fixedly connected on 75, described the 74 of connection and the crushing shaft 42 in left side positioned at front side
The crushing chamber 40 in crushing wheel 41.
Below in conjunction with Fig. 1 to Fig. 7 to herein one of silicate industry solid-waste treatment facility use step into
Row is described in detail:
When beginning, partition sliding block 24 is located at partition material-dropping hole 27 at right limit, and block plate 19 separates discharge nozzle 16, will by external equipment
Solid refuse is conveyed into the crushing chamber 40 of front side, and enough coagulators are injected into storage cavity 29.
When work, starting is crushed motor 52 and molding motor 68, is crushed motor 52 and passes through the compound belt wheel 62 in left side, synchronizes
Band 64, belt wheel 66, pulley shaft 31 drive pulley shaft 31 to rotate, and pulley shaft 31 drives dynamic jaw 37, connecting rod 38 to rotate, move jaw 37 with
The 40 inner left wall synergy of crushing chamber of front side is to tentatively crush solid refuse, while crushing shaft 42 passes through compound belt wheel
62, the compound belt wheel 62, V band 63 in left side, right side compound belt wheel 62 to drive the left and right sides crushing wheel 41 rotate, into one
Solid refuse is ground into powder by step, and powder is fallen into funnel 22 by efferent duct 45, while pulley shaft 31 passes through push rod 34, connection
Lever 35, mandril 44, push top 46 drive partition sliding block 24 to be moved to the left, so that storage cavity 29 will by material-dropping hole 27, through-hole 23
Coagulator is conveyed into funnel 22, and molding motor 68 drives shaping axle 69 to rotate, and shaping axle 69 passes through main pulley 70, transmission belt
71, secondary pulley 72, agitating shaft 21 drive agitator disk 20 to rotate, to solid refuse powder be mixed with bar coagulant whisk, simultaneously
Shaping axle 69 drives crank 60 to rotate, and crank 60 drives block plate 19 to move right by bull stick 61, lever 18, and what is made is mixed
Raw material can be flowed into forming cavity 15 by discharge nozzle 16, at the same shaping axle 69 by bevel gear 51, secondary bevel gear 50, driver plate 49,
Index dial 48, dividing spindle 13 drive forming disk 14 turn over 90 degree, rear crank 60 drive connecting rod 58 by slide bar 55 drive at
It is moved up under type briquetting 56 in forming cavity 15 and be compacted into brick to mixed raw material, equipment repeats above-mentioned movement and will be at
The brick of type turns to outside 11 right end face of shaping box, and external equipment takes brick away, to realize the Continuous maching of brick.
The beneficial effects of the present invention are: the present invention is a kind of silicate industry solid-waste treatment facility, it is therein broken
Powder and coagulator can be stirred by device by silicate industry solid refuse fast-crushing at powder, and by mixing arrangement
Mixing, mixing arrangement will carry out compacting and produce brick later in mixed feedstock transportation to pressure brick making device, due to pressure
Be provided with multiple stations in power brick making device, cooperation mixing arrangement can carry out simultaneously mixed feedstock transportation and pressure brickmaking and
The work for carrying brick, so as to efficiently handle solid refuse, while solving transport solid rubbish powder and be easy to causeing sky
The problem of gas pollutes.
In the above manner, those skilled in the art can be made within the scope of the invention according to operating mode it is various
Change.