CN113146845A - Highway engineering is with corrosion-resistant concrete processing equipment that permeates water - Google Patents

Abstract

The invention provides corrosion-resistant pervious concrete processing equipment for highway engineering, and relates to the technical field of preparation of corrosion-resistant pervious concrete. It includes the organism, and the inside broken subassembly that is provided with of organism, broken subassembly include two gears and curved bar, the first crushing board of connecting rod bottom fixedly connected with, the incomplete gear of the equal fixedly connected with in two gear front sides, incomplete gear bottom meshing has the rack board. This highway engineering is with corrosion-resistant concrete processing equipment that permeates water drives first breaker to carry out the breakage to the building stones through starter motor, utilizes the belt cooperation to make the rack board remove to drive the extrusion of second breaker broken plate broken simultaneously, drives the connecting plate through the meshing and removes and get back to the primary importance, inside less building stones and second breaker collided and made the building stones get into the third cavity, reached the purpose of distinguishing the building stones, make the crushing effect of building stones better, and broken efficiency is higher.

Description

Highway engineering is with corrosion-resistant concrete processing equipment that permeates water

Technical Field

The invention relates to corrosion-resistant pervious concrete processing equipment for highway engineering, and belongs to the technical field of preparation of corrosion-resistant pervious concrete.

Background

The corrosion-resistant pervious concrete has corrosion resistance and good water permeability and is favored by modern engineering, the concrete also uses cement as a cementing material, sand and stone as aggregates, and functional additives are added after being matched with water according to a certain proportion, and for the special concrete, besides the conventional aggregate, the special concrete actually adopts some aggregates in waste building waste to mix better. In addition, the common concrete aggregate is an unrenewable resource at present, with the improvement of urban construction, new buildings are built every day, the buildings cannot be separated from concrete in the construction process, the concrete market demand is increasingly large, the aggregate is more greatly exploited, the resource is reduced, the aggregate is required to be used in concrete preparation, and therefore, the raw stone in waste concrete generated in the building and dismantling process is utilized to crush the aggregate to produce the corrosion-resistant pervious concrete with special performance, and the aim of achieving two purposes is fulfilled.

At present, the conventional raw stone materials are crushed and then screened to obtain regenerated coarse and fine aggregates, but before crushing, various raw stone materials with different sizes are uniformly crushed without being distinguished, so that the task amount of crushing is increased, and the problem of insufficient crushing is caused, so that the quality of the crushed coarse and fine aggregates is influenced.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide corrosion-resistant pervious concrete processing equipment for highway engineering to solve the problems that various raw stones with different sizes are uniformly crushed without being subjected to differentiated treatment before crushing, so that the crushing is insufficient and the quality of crushed coarse and fine aggregates is influenced in the prior art.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the corrosion-resistant pervious concrete processing equipment for the highway engineering comprises a crushing device for crushing aggregate, wherein the crushing device comprises a machine body, and a crushing assembly is arranged in the machine body;

the crushing component comprises two gears and a curved bar, a first cavity, a second cavity and a third cavity are arranged in the machine body, the two gears are arranged in the first cavity, a baffle is arranged on one side of the two gears and is fixedly connected to the top end of the machine body, a fixed block is fixedly connected to one side of the baffle, a connecting rod is arranged in the fixed block, the curved bar is rotatably connected to the top end of the connecting rod, the curved bar is rotatably connected to the inside of the machine body, a first crushing plate is fixedly connected to the bottom end of the connecting rod, rotating bars are fixedly connected to the inside of the two gears, two ends of each rotating bar are rotatably connected with two sides of the inside of the machine body through bearings, incomplete gears are fixedly connected to the front sides of the two gears, the incomplete gears are fixedly connected to the inside of the rotating bars, rack plates are meshed to the bottom ends of the incomplete gears, and a connecting plate is arranged at the bottom ends of the gears, fixedly connected with even board between rack plate and the connecting plate, rack plate and the inside equal sliding connection of connecting plate have the slide, slide fixed connection is inside the organism, rack plate one side fixedly connected with second crushing board.

The inside cam that is provided with of second cavity, the inside fixedly connected with connecting rod of cam, the connecting rod rotates to be connected inside the organism, is favorable to improving the efficiency of the less former building stones of breakage, guarantees that crushing effect is good. Cam one end is rotated and is connected with the horizontal pole, the horizontal pole top articulates there is the broken board of third, the broken board of third pastes with second cavity inner wall both sides mutually, set up the passageway between second cavity and the third cavity, make things convenient for the access channel, for thoroughly broken on next step, improve crushing efficiency.

Preferably, the top end of the machine body is fixedly connected with a conveying plate, the conveying plate is hinged with a separating plate, a spring is fixedly connected between the separating plate and the first cavity, and the machine body is fixedly connected with a plurality of stabs, so that raw stones can be distinguished, and the working time can be saved.

Preferably, third cavity inner wall both sides are rotated and are connected with two crushing rollers, crushing roller bottom both sides all are provided with two swash plates, two equal fixed connection in organism inner wall both sides of swash plate is favorable to improving thorough broken efficiency, reduces the crushing roller wearing and tearing.

Preferably, two be provided with the flitch of receiving between the swash plate, one the flitch fixed connection is in a swash plate one side, one a plurality of logical grooves have been seted up to the inside of flitch of receiving, two the flitch of receiving is fixed connection, two the bottom of flitch one side is provided with the receipts workbin respectively, is favorable to collecting the fine aggregate and the coarse aggregate of production, improves recovery efficiency.

Preferably, the organism outside is provided with the motor, bent lever one end runs through organism and fixed connection in the output of motor, connecting rod and bull stick one end all run through the organism, one a plurality of band pulleys of the equal fixedly connected with in bull stick, connecting rod and the bent lever outside, one bull stick, connecting rod and the bent lever outside all overlap and are equipped with two belts, improve and rotate the flexibility, make things convenient for broken former building stones.

The invention provides corrosion-resistant pervious concrete processing equipment for highway engineering, which has the following beneficial effects:

1. rotate first breaker to carry out the breakage to the crude material through starter motor, utilize the belt cooperation to make the rack board remove to drive the extrusion of second breaker simultaneously broken, drive the connecting plate through the meshing and remove and get back to original position, inside less crude material and second breaker collided and made crude material get into the third cavity through the belt cooperation, reached the purpose of distinguishing crude material for the crushing effect of crude material is better, and is more even, and broken efficiency is higher.

2. When the raw stone material after being crushed enters the third cavity, the crushing rollers are utilized to continue crushing, the two sloping plates are reused to enable the coarse and fine aggregates to fall into the two material receiving plates, the purpose of collecting the coarse and fine aggregates is achieved, the working efficiency is improved, the raw stone material can be crushed to separate the coarse and fine aggregates, and the quality of the aggregates is improved.

Drawings

FIG. 1 is a schematic view of an overall structure of the present invention;

FIG. 2 is an enlarged view of the portion A of FIG. 1 according to the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is an enlarged view of the portion B of FIG. 3 according to the present invention;

FIG. 5 is a schematic diagram of the pumping apparatus of the present invention;

FIG. 6 is a schematic diagram of a cache according to the present invention;

FIG. 7 is a schematic view of a rack structure according to the present invention;

FIG. 8 is a schematic view of a lead screw structure according to the present invention;

FIG. 9 is a schematic view of the stirring apparatus of the present invention;

FIG. 10 is an internal structural view of a stirring apparatus in the present invention;

FIG. 11 is a schematic view of a first bevel gear according to the present invention;

fig. 12 is a schematic view of a concrete screw structure of the stirring device.

In the figure: k1, body; k2, gears; k3, a knee lever; k4, a first cavity; k5, a second cavity; k6, third cavity; k7, baffles; k8, fixed block; k9, connecting rod; k10, a first breaker plate; k11, rotating rod; k12, incomplete gear; k13, rack plate; k14, connecting plate; k15, connecting plate; k16, a slider; k17, a second breaker plate; k18, connecting rod; k19, a third crushing plate; k20, separator plate; k21, a crushing roller; k22, a material collecting plate; k23, a motor; k24, pulley; k25, belt; m1, a box body; m2, a spring; m3, a telescopic rod; m4, cache bins; m5, fixing plate; m6, rack; m7, gear; m8, rotating rod; m9, eccentric wheel; m10, outer frame; m11, a baffle; m12, feed pipe; m13, a discharge pipe; m14, electromagnetic valve; m15, a sleeve; m16, a positive and negative motor; m17, a screw rod; m18, a support plate; m19, a stirring rod; m20, a strut; g1, outer box; g2, cannula; g3, screw; g4, a first bevel gear; g5, a first stirring rod; g6, disc; g7, connecting rod; g8, second bevel gear; g9, a second stirring rod; g10, cross bar; g11, annular chute; g12, a scraper; g13, a strip groove; g14, support plate; g15, a slide block; g16, a positive and negative motor; g17, support bars; g18, feed pipe.

Detailed Description

The embodiment of the invention provides corrosion-resistant pervious concrete processing equipment for highway engineering, and with specific structures shown in figures 1, 2, 3 and 4, the corrosion-resistant pervious concrete processing equipment comprises a machine body k1, and a crushing assembly is arranged in the machine body k 1. The crushing assembly comprises two gears k2 and a crank lever k3, a first cavity k4, a second cavity k5 and a third cavity k6 are arranged inside a machine body k1, the two gears k2 are arranged inside the first cavity k4, a baffle k7 is arranged on one side of each gear k2, and the baffle k7 is fixedly connected to the top end inside the machine body k 1. Baffle k7 one side fixedly connected with fixed block k8, the inside connecting rod k9 that is provided with of fixed block k8, curved bar k3 rotates and connects in connecting rod k9 top, curved bar k3 rotates and connects inside organism k1, connecting rod k9 bottom fixedly connected with first broken plate k10, the inside equal fixedly connected with bull stick k11 of two gears k2, bull stick k11 rotates and connects inside organism k 1. The front sides of the two gears k2 are fixedly connected with an incomplete gear k12, the incomplete gear k12 is fixedly connected inside a rotating rod k11, the bottom end of the incomplete gear k12 is meshed with a rack plate k13, the bottom end of the gear k2 is provided with a connecting plate k14, a connecting plate k15 is fixedly connected between the rack plate k13 and the connecting plate k14, sliding plates k16 are respectively and slidably connected inside the rack plate k13 and the connecting plate k14, the sliding plates k16 are fixedly connected inside a machine body k1, one side of the rack plate k13 is fixedly connected with a second crushing plate k17, a cam is arranged inside a second cavity k5, a connecting rod k18 is fixedly connected inside the cam, the connecting rod k18 is rotatably connected inside the machine body k1, one end of the cam is rotatably connected with a cross rod, and the top end of the cross rod is hinged with a third crushing plate k 19. Third crushing board k19 pastes with second cavity k5 inner wall both sides mutually, the passageway has been seted up between second cavity k5 and the third cavity k6, the organism k1 outside is provided with motor k23, bent lever k3 one end runs through organism k1 and fixed connection in motor k 23's output, connecting rod k18 and rotating lever k11 one end all run through organism k1, a rotating lever k11, the outside of connecting rod k18 and bent lever k3 all fixedly connected with a plurality of band pulleys k24, one rotating lever k11, the outside of connecting rod k18 and bent lever k3 all overlaps and is equipped with two belt k 25.

Specifically, when the separating plate k20 cannot bear the weight of the large raw stone material, the separating plate k20 is quickly moved downward to the first cavity k4 by the hinge so that the raw stone material falls into the first cavity k 4. Because organism k1 inside fixed connection's baffle k7 can block great former stone material, avoid the former stone material to hit first crushing plate k10, thereby fall on a plurality of stabs, when starter motor k23 rotates and drives curved bar k3 and rotate, utilize curved bar k3 to drive connecting rod k9 and go up and down, because connecting rod k9 and first crushing plate k10 descend for fixed connection, thereby connecting rod k9 goes up and down to drive first crushing plate k10 and carry out the breakage to former stone material. Meanwhile, the belt k25 is used to drive the rotating rod k11 to rotate, and the rotating rod k11 rotates to drive the gear k2 fixedly connected with the outer side to rotate, two incomplete gears k12 are indirectly driven to rotate through the meshing rotation of the two gears k2, because the two incomplete gears k12 are parallel to each other and staggered, one incomplete gear k12 drives the rack plate k13 to move, and by using the connecting plate k15 fixedly connected between the connecting plate k14 and the rack plate k13, therefore, the connecting plate k14 is driven to move, the larger raw stone is blocked by the movement of the connecting plate k14, the second crushing plate k17 is indirectly driven to move to one side to crush the raw stone, during the crushing process, the other incomplete gear k12 drives the rack plate k13 to move through meshing, thereby driving the connecting plate k14 to move back to the original position, and leading the raw stone material to continuously fall and break to enter the third cavity k6 through the through hole. When less raw stones move to second cavity k5 and drop and collide with second crushing board k17 inside second cavity k5, belt k25 cooperation of establishing through connecting rod k18 and bull stick k11 outside cover, make third crushing board k19 drive cam and connecting rod k18 and do reciprocating motion from top to bottom, make the less raw stones of broken back pass through the passageway and get into inside third cavity k6, the mesh of distinguishing the raw stones has been reached, the efficiency of the broken raw stones of extrusion has been improved, make the crushing effect of raw stones better, and is more even, and broken efficiency is higher.

Referring to fig. 1 and 3 again, a transport plate is fixedly connected to the top end of the machine body k1, a separation plate k20 is hinged inside the transport plate, a spring is fixedly connected between the separation plate k20 and the first cavity k4, a plurality of stabs are fixedly connected inside the machine body k1, two crushing rollers k21 are rotatably connected to two sides of the inner wall of the third cavity k6, and two inclined plates are arranged on two sides of the bottom end of each crushing roller k 21. Inside two equal fixed connection of swash plate in organism k1, be provided with material receiving plate k22 between two swash plates, material receiving plate k22 fixed connection in an swash plate one side, a plurality of logical grooves have been seted up to material receiving plate k22 inside, and two material receiving plate k22 are fixed connection, and two material receiving plate k22 one side bottoms are provided with the material receiving box respectively.

It is specific, when the raw stones through after the breakage got into third cavity k6 inside, utilize two crushing rollers k21 to rotate the raw stones to the after breakage and continue the breakage, it is more thorough to make the breakage, recycle two swash plates and make the raw stones after the breakage produce during thick and thin aggregate drops two receipts flitch k22, thereby sieve thick and thin aggregate, make the receipts workbin can collect thick and thin aggregate, reached the purpose of collecting thick and thin aggregate, and the work efficiency is improved, be favorable to broken raw stones to separate thick and thin aggregate, and the quality of aggregate is improved.

Corresponding matched equipment, such as a pumping device for conveying powder and a stirring device for mixing and stirring all materials, can be added in the corrosion-resistant pervious concrete preparation system, the equipment are matched with each other for use, and a person skilled in the art can adaptively associate and match the equipment together through a common spiral conveying shaft, a belt or other existing transfer tools to form a more complete corrosion-resistant pervious concrete preparation system.

Referring to fig. 5, 6 and 7, the present invention further includes a pumping device for pumping powder during concrete preparation, which mainly includes a box m1, and a dosing assembly is disposed inside the box m 1. Specifically, the quantitative assembly comprises a spring m2, a telescopic rod m3, a buffer storage bin m4, a fixing plate m5, a rack m6, a gear m7, a rotating rod m8, an eccentric wheel m9, an outer frame m10 and a baffle m11, wherein the spring m2 and the telescopic rod m3 are fixedly connected inside the buffer storage bin m4, the spring m2 and the telescopic rod m3 are fixedly connected to one side of the fixing plate m5, and the fixing plate m5 is slidably connected inside the buffer storage bin m 4. Buffer bin m4 is fixedly connected inside box m1, rack m6 is fixedly connected on the top of fixed plate m5, gear m7 is arranged on the top of rack m6 and is meshed with rack m6, gear m7 and eccentric wheel m9 are both fixedly connected on the outer side of rotating rod m8, outer frame m10 is arranged on the outer side of eccentric wheel m9, baffle m11 is fixedly connected on the bottom of outer frame m10, and baffle m11 is connected on one side inside the buffer box in a sliding mode.

When the invention is used: when the device needs to be used, concrete enters the interior of the buffer bin m4 through the feeding pipe m12, the fixing plate m5 is connected to the interior of the buffer bin m4 in a sliding mode, the fixing plate m5 can be driven to move leftwards due to extrusion force of the concrete, the spring m2 and the telescopic rod m3 are fixedly connected to the other side of the fixing plate m5, the fixing plate m5 can drive the spring m2 and the telescopic rod m3 to contract due to leftward movement of the fixing plate m5, meanwhile, the rack m6 is fixedly connected to the top of the fixing plate m5, and the rack 387m 6 is driven to move leftwards due to leftward movement of the fixing plate m 5. Since the gear m7 is arranged on the top of the rack m6 and is meshed with the rack m6, the rack m6 moves leftwards to drive the gear m7 to rotate, since the gear m7 is fixedly connected to the outer side of the rotating rod m8, the gear m7 rotates to drive the rotating rod m8 to rotate, since the eccentric wheel m9 is fixedly connected to the outer side of the rotating rod m8, the rotating rod m8 rotates to drive the eccentric wheel m9 to rotate, and since the outer frame m10 is arranged on the outer side of the eccentric wheel m9, the eccentric wheel m9 rotates to drive the outer frame m10 to move downwards. Because baffle m11 fixed connection is in frame m10 bottom, and frame m10 downstream drives baffle m11 downstream, and baffle m11 downstream can block the feed inlet, and this structure is favorable to the ration and adds powder raw materials such as cement, mountain flour toward buffer memory storehouse m4 inside, is convenient for mix cement, mountain flour in the back, saves time, uses manpower sparingly.

Referring to fig. 5, 6 and 7 again, feeding pipes m12 are fixedly connected to both sides of a box m1, a discharging pipe m13 is fixedly connected to the bottom of a buffer storage bin m4, a solenoid valve m14 is arranged on the outer side of the discharging pipe m13, a sleeve m15 is rotatably connected to the top of a box m1, a positive and negative motor m16 is fixedly connected to the top of the sleeve m15, and a sliding groove is formed in the sleeve m 15. The inside sliding connection of sleeve m15 has lead screw m17, the outside fixedly connected with slider in lead screw m17, slider sliding connection is inside the spout, the inside fixedly connected with extension board m18 of box m1, lead screw m17 runs through extension board m18 and with extension board m18 threaded connection, the outside fixedly connected with puddler m19 of lead screw m17, box m1 top fixedly connected with branch m20, branch m20 fixedly connected in the positive and negative motor m16 outside.

When the invention is used: open solenoid valve m14, make the raw materials all pour into in box m1 and protect, after the completion of mixing, start positive and negative motor m16 this moment, because sleeve m15 fixed connection is in the output of positive and negative motor m16, positive and negative motor m16 rotates and drives sleeve m15 and rotate, because slider sliding connection is inside the spout, sleeve m15 rotates and drives lead screw m17 and rotates. Because lead screw m17 runs through extension board m18 and with extension board m18 threaded connection, sleeve m15 rotates and drives lead screw m17 and rotates the limit and move down, lead screw m17 rotates the limit and can drive puddler m19 and rotate the limit and move down, mix the stirring to the raw materials, positive and negative motor m16 drives lead screw m17 upward movement in the contrary direction, drive puddler m19 upward movement, can make the raw materials carry out abundant mixing, this structure is favorable to carrying out abundant mixing to the raw materials, increase the product quality of later stage concrete.

That is, when the invention is used, the fixing plate m5 moves leftwards to drive the baffle plate m11 to move downwards, the baffle plate m11 moves downwards to block the feeding hole, and the fixing plate m5 moves leftwards to drive the spring m2 and the telescopic rod m3 to contract. The fixed plate m5 moves leftwards to drive the rack m6 to move leftwards, the rack m6 moves leftwards to drive the gear m7 to rotate, the gear m7 rotates to drive the rotating rod m8 to rotate, the rotating rod m8 rotates to drive the eccentric wheel m9 to rotate, the eccentric wheel m9 rotates to drive the outer frame m10 to move downwards, the outer frame m10 moves downwards to drive the baffle m11 to move downwards, and the baffle m11 moves downwards to block the feeding hole.

Finally, the invention is also provided with a stirring device matched with the stirring device for preparing the corrosion-resistant pervious concrete, and the structure of the stirring device is shown in fig. 9-12, and the stirring device is provided with an outer box g1, and a stirring component is arranged inside the outer box g 1. In detail, the stirring assembly comprises a sleeve g2, a screw g3, a first bevel gear g4, a first stirring rod g5, a disk g6, two connecting rods g7, two second bevel gears g8 and a second stirring rod g9, wherein the sleeve g2 penetrates through an outer box g1 and is in rotating connection with the outer box g1, the sleeve g2 is slidably connected to the outer side of the screw g3, the first bevel gear g4 and the disk g6 are both fixedly connected to the outer side of the screw g3, the disk g6 is arranged at the top of the first bevel gear g4, the first stirring rod g5 is fixedly connected to one end of the screw g3, one ends of the two connecting rods g7 are both extended into the interior of the disk g6 and are in rotating connection with the disk g6, and the second bevel gears g8 are both fixedly connected to the outer side of the connecting rod g 7. Two second bevel gears g8 are respectively arranged on two sides of a first bevel gear g4 and meshed with the first bevel gear g4, a second stirring rod g9 is fixedly connected to one end of a connecting rod g7, a support plate g14 is fixedly connected inside an outer box g1, a screw g3 penetrates through the support plate g14 and is in threaded connection with a support plate g14, a sliding block g15 is fixedly connected to the outer side of the screw g3, and a groove is formed inside a sleeve g 2. Inside slider g15 sliding connection in the recess, positive and negative motor g16 of sleeve pipe g2 top fixedly connected with, positive and negative motor g16 outside fixedly connected with bracing piece g17, bracing piece g17 fixed connection in outer container g1 top, outer container g1 one side fixedly connected with inlet pipe g 18.

When the stirring device needs to be used, firstly, concrete raw materials are placed in the outer box g1, the forward and reverse motor g16 is started at the moment, the forward and reverse motor g16 rotates to drive the sleeve g2 to rotate, the slide block g15 is connected to the inside of the groove in a sliding mode, the sleeve g2 rotates to drive the screw g3 to rotate, and the screw g3 penetrates through the support plate g14 and is in threaded connection with the support plate g 14. The sleeve g2 drives the screw g3 to rotate and move downwards, the disc g6 is fixedly connected to the outer side of the screw g3, the screw g3 rotates to drive the disc g6 to rotate, the first bevel gear g4 is fixedly connected to the outer side of the screw g3, the screw g3 rotates to drive the first bevel gear g4 to rotate, and the first stirring rod g5 is fixedly connected to one end of the screw g 3. The screw g3 rotates to drive the first stirring rod g5 to rotate and move downwards, meanwhile, the two second bevel gears g8 are respectively arranged on two sides of the first bevel gear g4 and meshed with the first bevel gear g4, the first bevel gear g4 rotates to drive the second bevel gear g8 to rotate, the second bevel gear g8 is fixedly connected to the outer side of the screw g3, and the connecting rod g7 penetrates through the disc g6 and is rotatably connected with the disc g6, and the second bevel gear g8 rotates to drive the connecting rod g7 to rotate. Because second puddler g9 fixed connection is in connecting rod g7 one end, connecting rod g7 rotates and drives second puddler g9 and rotates, positive and negative rotation through positive and negative motor g16 can drive first puddler g5 and second puddler g9 limit and rotate the upward-downward motion of limit, can make the concrete mixing more even, this structure is of value to carry out all-round stirring with horizontal rotation about the concrete is perpendicular, make the concrete mix more evenly.

Referring to fig. 2 and 3 again, a cross bar g10 is fixedly connected to the outer side of the screw g3, an annular sliding groove g11 is formed in the outer box g1, a scraper g12 is slidably connected to one end of the cross bar g10, the scraper g12 is slidably connected to the annular sliding groove g11, a strip-shaped groove g13 is formed in one side of the scraper g12, and the cross bar g10 is slidably connected to the strip-shaped groove g 13.

When the invention is used: because horizontal pole g10 fixed connection is in the screw rod g3 outside, screw rod g3 rotates and drives horizontal pole g10 and rotates, because horizontal pole g10 sliding connection is inside strip-shaped groove g13, horizontal pole g10 slides from top to bottom in strip-shaped groove g13 is inside. Meanwhile, the scraper g12 is connected to the inside of the annular sliding groove g11 in a sliding mode, the cross rod g10 rotates to drive the scraper g12 to rotate inside the annular sliding groove g11, concrete adhered to the inner wall of the outer box g1 can be scraped, the structure is beneficial to scraping concrete generated inside the outer box g1, and the concrete is prevented from being adhered to the inner wall of the outer box g1 and affecting the use of the stirring device.

In the specific application, the forward and reverse motor g16 rotates to drive the screw g3 to rotate and move downwards, the screw g3 rotates to drive the disc g6 to rotate, the screw g3 rotates to drive the first stirring rod g5 to rotate and move downwards, the first bevel gear g4 rotates to drive the second bevel gear g8 to rotate, the second bevel gear g8 rotates to drive the connecting rod g7 to rotate, and the connecting rod g7 rotates to drive the second stirring rod g9 to rotate. Positive and negative motor g 16's positive and negative rotation can drive first puddler g5 and second puddler g9 limit and rotate the upward downstream in limit, can make concrete mixing more even, and screw g3 rotates and drives horizontal pole g10 and rotate, and horizontal pole g10 rotates and drives scraper blade g12 at the inside rotation of annular spout g11, can strike off the concrete of outer container g1 inner wall adhesion.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, which are described in the specification and illustrated only for the purpose of illustrating the principles of the present invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a highway engineering is with corrosion-resistant pervious concrete processing equipment, is including the breaker that is used for broken aggregate to use which characterized in that: the crushing device comprises a machine body (k1), wherein a crushing assembly is arranged inside the machine body (k 1);

the crushing assembly comprises two gears (k2) and a curved bar (k3), a first cavity (k4), a second cavity (k5) and a third cavity (k6) are arranged inside a machine body (k1), the two gears (k2) are arranged inside the first cavity (k4), a baffle (k7) is arranged on one side of each gear (k2), the baffle (k7) is fixedly connected to the top end inside the machine body (k1), a fixing block (k8) is fixedly connected to one side of the baffle (k7), a connecting bar (k9) is arranged inside the fixing block (k8), the curved bar (k3) is rotatably connected to the top end of the connecting bar (k9), the curved bar (k3) is rotatably connected to the inside of the machine body (k1), a first crushing plate (k10) is fixedly connected to the bottom end of the connecting bar (k9), a rotating bar (k11) is fixedly connected to the two ends inside the two gears (k2), and two ends of the rotating bar (k11) are connected with two sides of the rotating bearing (1), the front sides of the two gears (k2) are fixedly connected with an incomplete gear (k12), the incomplete gear (k12) is fixedly connected inside a rotating rod (k11), the bottom end of the incomplete gear (k12) is meshed with a rack plate (k13), the bottom end of the gear (k2) is provided with a connecting plate (k14), a connecting plate (k15) is fixedly connected between the rack plate (k13) and the connecting plate (k14), sliding plates (k16) are slidably connected inside the rack plate (k13) and the connecting plate (k14), the sliding plates (k16) are fixedly connected inside a machine body (k1), and one side of the rack plate (k13) is fixedly connected with a second crushing plate (k 17);

a cam is arranged in the second cavity (k5), a connecting rod (k18) is fixedly connected in the cam, and the connecting rod (k18) is rotatably connected in the machine body (k 1); cam one end is rotated and is connected with the horizontal pole, the horizontal pole top articulates there is third broken board (k19), third broken board (k19) pastes with second cavity (k5) inner wall both sides mutually, the passageway has been seted up between second cavity (k5) and third cavity (k6), third broken board (k19) sets up in the passageway bottom.

2. The corrosion-resistant pervious concrete processing equipment for highway engineering according to claim 1, wherein: the machine body (k1) top end fixedly connected with transport plate, transport plate inside articulates there is separator plate (k20), fixedly connected with spring between separator plate bottom (k20) and first cavity inner wall one side (k4), the inside fixedly connected with a plurality of pricks of machine body (k 1).

3. The corrosion-resistant pervious concrete processing equipment for highway engineering according to claim 1, wherein: two crushing rollers (k21) are rotatably connected to two sides of the inner wall of the third cavity (k6), two inclined plates are arranged on two sides of the bottom end of each crushing roller (k21), and the two inclined plates are fixedly connected to two sides of the inner wall of the machine body (k 1).

4. The corrosion-resistant pervious concrete processing equipment for highway engineering according to claim 3, wherein: two be provided with between the swash plate and receive flitch (k22), one receive flitch (k22) fixed connection in an swash plate one side, one a plurality of logical grooves have been seted up to receive flitch (k22) inside, two receive flitch (k22) are fixed connection, two receive flitch (k22) one side bottom is provided with respectively and receives the workbin.

5. The corrosion-resistant pervious concrete processing equipment for highway engineering according to claim 1, wherein: organism (k1) outside is provided with motor (k23), bent lever (k3) one end runs through organism (k1) and fixed connection in the output of motor (k23), connecting rod (k18) and bull stick (k11) one end all run through organism (k1), one equal fixedly connected with a plurality of pulleys (k24) in bull stick (k11), connecting rod (k18) and bent lever (k3) outside, one the bull stick (k11), connecting rod (k18) and bent lever (k3) outside all is equipped with two belt (k 25).

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