CN115233518B - Storage tank for hot-mix modified asphalt concrete production and processing - Google Patents

Abstract

The invention relates to the technical field of storage tanks, and particularly discloses a storage tank for hot-mix modified asphalt concrete production and processing, which comprises a tank body, a discharge port arranged at the bottom of the side wall of the tank body and three groups of supporting legs connected at the bottom of the tank body, wherein one side of the tank body, which is far away from the discharge port, is connected with a trash discharging pipe, one side of the tank body, which is close to the discharge port, is connected with a discharge hopper, and one side of the discharge port, which is far away from the inner cavity of the tank body, is connected with a door frame; the inner cavity of the tank body is provided with a central column, and the bottom of the tank body is provided with driving equipment for driving the central column to rotate; according to the invention, the first stirring piece and the second stirring piece are matched, so that asphalt concrete in the tank body can be uniformly stirred, the retaining plate and the stirring mechanism are matched, so that a vehicle is stopped on the bearing table, when the carriage pushes the retaining plate, the stirring mechanism can work to drive the material blocking door to lift, asphalt concrete can flow into the carriage from the discharge hole and the discharge hopper, and the limiting mechanism can limit the work of the stirring mechanism.

Description

Storage tank for hot-mix modified asphalt concrete production and processing

Technical Field

The invention relates to the technical field of storage tanks, in particular to a storage tank for hot-mix modified asphalt concrete production and processing.

Background

The existing road surface engineering surface layers mainly comprise a cement concrete surface layer and an asphalt concrete surface layer, wherein asphalt concrete is manually selected and matched with mineral aggregate with a certain grading composition, and is mixed with road asphalt materials with a certain proportion by crushed stone or crushed gravel, stone scraps or sand, mineral powder and the like, and the mixture is stirred under a strict control condition, so that the road surface engineering surface layer is a main pavement material for road construction of roads, urban roads and the like, and the road surface layer directly tolerates wheel loads and various natural factors, but sunlight, temperature, air, rainwater and the like can also cause performance and state changes. In order to ensure that the asphalt pavement keeps a good use state for a long time, the asphalt mixture must have good high-temperature stability, low-temperature crack resistance, durability, water damage resistance, skid resistance and the like. In order to improve the performance of asphalt concrete, 2.5% or 3.0% or 4.0% of SBS modifier is added on the basis of original matrix asphalt, and compared with the original asphalt, the modified asphalt has the advantages of increased high-temperature viscosity, increased softening point, and obviously improved aging resistance and high-temperature stability of asphalt pavement under good design mixing ratio and construction conditions. The asphalt concrete is processed mainly at an asphalt mixing factory site, and is composed of a modified asphalt manufacturing device and a stirrer in an on-line mode, wherein the modified asphalt manufacturing device is used for manufacturing asphalt, then the asphalt concrete is mixed in the stirrer, the stirrer is usually a storage tank (storage tank), the stirrer is used for storing or storing at the same time, the asphalt concrete is subjected to hot mixing in the storage or storing process, and the stirrer can enable the asphalt concrete to be uniformly stored and keep the asphalt concrete at a proper temperature. The vehicle stops to storage tank one side, and the asphalt concrete in the storage tank can be discharged to the vehicle storage department from the ejection of compact part, and the vehicle can transport to the target point after loading, carries out the construction use of newly-built road surface.

In the concrete storage protection equipment for the building disclosed in the prior publication No. CN108748679B, a sealing seat is cooperatively arranged on a sealing groove, a stirring cavity is isolated into a first cavity and a second cavity which are not communicated, after a sealing cover is covered, the first cavity can form a closed space, concrete is stored in the first cavity and can be uniformly stirred and mixed, the sealing seat is pushed by a sleeve to leave the sealing groove through screw thread transmission, so that the concrete flows to a discharge hole, and the discharge can be carried out by opening a valve; the storage protection equipment can store and mix concrete, but materials are easy to accumulate on the top and the inner wall of the sealing seat during stirring, a large amount of materials exist in the first chamber, and during discharging, the materials are discharged through upward movement of the sealing seat and opening of the valve, and the sealing seat is upward moved to bear larger force so as to influence the discharging stability; in the asphalt concrete manufacturing and processing equipment disclosed in the prior publication No. CN111472235B, the sealing mechanism can automatically seal the lower end of the fixed barrel after feeding is finished, so that heat dissipation in the stirring device is reduced, the asphalt concrete is beneficial to processing, when the rotating shaft moves downwards, the driven gear at the lower end of the rotating shaft is meshed with the driving gear, the driving gear drives the rotating shaft to rotate in a gear transmission mode, and the stirring frame uniformly stirs so that broken stone can be fully mixed with asphalt in a molten state; the driving gear and the driven gear in the asphalt concrete manufacturing and processing equipment are arranged in the stirring tank and are influenced by asphalt concrete, so that the meshing of the driving gear and the driven gear is influenced, the stirring cannot be normally carried out, and the uniform discharging is inconvenient after the processing; in the concrete stirring device for the building disclosed by the prior publication No. CN112045849B, a controller controls a rotating motor to do reciprocating arc-shaped movement, the rotating motor drives a stirring tank to do reciprocating movement, a motor II is started to work to drive a stirring shaft to rotate, and the stirring speed and the stirring effect of concrete are improved by combining the reciprocating arc-shaped movement of the stirring tank while the stirring shaft is stirring; however, the stirring part in the shell of the concrete stirring device can only stir the concrete in the shell locally, and the reciprocating motion of the stirring tank can influence the discharging stability, so that the material receiving of a transport vehicle or a transport container is inconvenient.

The above disclosed devices or apparatuses all suffer from the following drawbacks: 1. when asphalt concrete is stored and stirred, the mixing uniformity of the asphalt concrete is low and needs to be improved; 2. the stored asphalt concrete is not convenient for uniform and stable discharging. In order to solve the problems, a storage tank for producing and processing hot-mix modified asphalt concrete is provided.

Disclosure of Invention

The invention aims to provide a storage tank for hot-mix modified asphalt concrete production and processing, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the storage tank for hot-mix modified asphalt concrete production and processing comprises a tank body, a discharge hole arranged at the bottom of the side wall of the tank body and three groups of supporting legs connected at the bottom of the tank body, wherein one side, far away from the discharge hole, of the tank body is connected with a trash discharging pipe, one side, close to the discharge hole, of the tank body is connected with a discharge hopper, and one side, far away from the inner cavity of the tank body, of the discharge hole is connected with a door frame;

the inner cavity of the tank body is provided with a central column, the bottom of the tank body is provided with driving equipment for driving the central column to rotate, the top of the central column is connected with a diamond frame, and the bottoms of two opposite ends of the diamond frame are respectively connected with a first stirring piece for stirring asphalt concrete and scraping the asphalt concrete on the inner wall and the bottom of the tank body; the bottoms of two ends of the diamond frame which are arranged oppositely are connected with second stirring pieces for stirring asphalt concrete in the middle of the inner cavity of the tank body and scraping asphalt concrete at the bottom of the tank body;

the bottom of the discharging hopper is connected with a retaining plate through a rotating seat, one side of the door frame, which is far away from the tank body, is provided with a retaining door, two sides of the door frame are provided with guide plates connected to the tank body, and two sides of the retaining door are connected with sliding parts arranged in the guide plates and used for stably lifting the retaining door; the side, far away from the door frame, of the material blocking door is connected with a tilting rod through a central shaft, the outer side wall of the tank body is connected with a central seat, and one side, close to the tank body, of the resisting plate is provided with a toggle mechanism which is used for controlling the material blocking door to rise after toggling the tilting rod to rotate around the central seat when the carriage extrusion resisting plate rotates around the rotating seat;

a bearing table is arranged on one side of the tank body, a limiting mechanism is connected to the bearing table and used for limiting the operation of the toggle mechanism, and a wheel plate which is in contact with the rear wheel of the vehicle is arranged on the bearing table and used for controlling the limiting mechanism to release the limit of the toggle mechanism when the rear wheel presses the wheel plate;

the top of the tank body is connected with a tank cover with an adjustable opening.

Preferably, the first stirring piece comprises a first stirring rod, a plurality of first stirring paddles uniformly arranged in the vertical direction are connected to the first stirring rod, a wall scraping rod matched with the inner wall of the tank body is connected between the same sides of the two first stirring paddles, and the first stirring paddles positioned at the bottom are contacted with the bottom of the inner cavity of the tank body; the second stirring piece comprises a second stirring rod, a plurality of second stirring paddles uniformly arranged in the vertical direction are connected to the second stirring rod, and the second stirring paddles positioned at the bottom are contacted with the bottom of the inner cavity of the tank body.

Preferably, the slider is including connecting the guide block in keeping off the bin gate both sides, be provided with the guide chute that is used for the guide block to reciprocate on the deflector, the one side that keeps off the bin gate and is close to the jar body and door frame sliding fit, center pin connection is in the top middle part that keeps off bin gate one side away from the door frame, and center pin and perk pole rotate and be connected.

Preferably, the toggle mechanism comprises a pressing rod hinged to one side of the tank body, the pressing rod is far away from the lifting seat hinged to one end of the lifting plate, the pressing rod is obliquely arranged to one side close to the lifting seat, the bottom of the tank body is connected with a positioning box for stably lifting the lifting seat, one side, close to the positioning box, of the top of the lifting seat is connected with a lifting block, the lifting block is slidably arranged in an inner cavity of the positioning box, a spring is arranged in the inner cavity of the positioning box, the top of the spring is connected with the bottom of the lifting block, the lifting seat is connected with a lifting pull rod, the lifting pull rod is arranged in the vertical direction of the lifting seat, the lifting pull rod is far away from the lifting seat, the top of one end of the lifting pull rod is hinged to the lifting pull rod, and the lifting pull rod is far away from one end of the lifting pull rod.

Preferably, the warping rod is provided with a shaft hole for a rotating shaft on the center seat to pass through, the distance between the shaft hole and the center shaft is smaller than the distance between the shaft hole and the top end of the shifting rod, the resisting plate is provided with a gap, and the gap is provided with a plurality of contact rollers.

Preferably, the stop gear is including promoting the seat and connecting the catch bar that is close to jar body one side at the catch bar, the pole setting is connected at the catch bar top, the pole setting is close to the top of catch bar one side and is connected the stopper, the lift seat bottom is equipped with the locking hole that is used for the stopper to pass, the catch bar one end is kept away from to the catch bar and two sets of pressure bars are articulated, and two sets of wheel plates are connected with and are kept away from the articulated linking post of catch bar one end with the pressure bar near the bottom of catch bar one end, be equipped with the storage tank that is used for accomodating the wheel plate on the plummer, the wheel plate is kept away from linking post one end and is rotated and connect storage tank inner wall, still be equipped with two sets of resilience pieces on the plummer for the rear wheel leaves behind the wheel plate and promotes the seat and reset.

Preferably, the rebound piece includes sleeve and slip setting shrink pole in the sleeve, the spring is installed to the sleeve inner chamber, the spring other end is connected with the one end that shrink pole extended to the sleeve inner chamber, be equipped with on the plummer and be used for pushing seat gliding removal groove, sleeve keeps away from shrink pole one end and connects the removal inslot wall, shrink pole is kept away from sleeve one end and is connected the one side that the pushing seat is close to the pushing pole, shrink pole setting direction is parallel with the pushing pole setting direction, the plummer is close to jar body one end and is connected with extension platform, be equipped with in the extension platform and be used for pushing pole gliding spacing groove, spacing groove and removal groove intercommunication, removal groove and storage groove intercommunication, pushing seat and pushing pole bottom all are connected with T type stopper, removal groove and spacing groove bottom all are equipped with the T type spacing groove with T type stopper complex, plummer is close to extension platform one end top and is connected with the support frame that is used for supporting out the hopper.

Preferably, the tank cover comprises an inner cover and an outer ring connected to the outer wall of the inner cover, at least three groups of lifting blocks which are uniformly arranged are connected to the outer side wall of the outer ring, the inner cover is fixed to the top of the tank body through bolts, the inner wall of the inner cover is connected with a center block through positioning fan-shaped pieces, the bottom of the center block is provided with a rotating groove which is in rotary fit with the top of the center column, the positioning fan-shaped pieces are fixedly connected to the inner wall of the inner cover, one side of the positioning fan-shaped pieces is connected with a plurality of fan-shaped storage plates which can be stored, one side of the positioning fan-shaped pieces is provided with a terminal fan-shaped piece connected with one group of fan-shaped storage plates, a first storage groove which is used for storing the fan-shaped storage plates is arranged in the positioning fan-shaped pieces, a second storage groove which is used for storing the adjacent fan-shaped storage plates is arranged in the fan-shaped storage plates, a fan-shaped storage plate inner cavity which is connected with the terminal fan-shaped storage plates is provided with a third storage groove which is used for storing the fan-shaped pieces of the terminal, the fan-shaped storage plates and the annular inner side wall and the outer side wall of the terminal fan-shaped pieces are all connected with a sliding block, the inner wall and the inner cover is provided with a sliding chute which is used for sliding.

Preferably, the driving piece includes the ring gear of installing in the outer ring and connects the drive box in outer ring one side, install in the drive box with ring gear meshing's gear, the motor case is connected to the drive box bottom, be equipped with in the motor case and be used for driving gear pivoted motor, the outer ring top is equipped with the ring channel, the fixed block is kept away from the bottom of terminal fan-shaped piece one end and is connected the ring gear top through the linking piece, the linking piece slides and sets up in the ring channel.

Preferably, jar body one side is equipped with climbing mechanism, climbing mechanism includes climbing ladder and articulates the seat of going up at climbing ladder top, go up locating seat fixed connection on jar external lateral wall, climbing ladder bottom is close to jar body one side and articulates tooth pole, locating rack down is connected to jar body bottom, locating rack bottom is equipped with the perforation that is used for tooth pole to pass down, tooth pole bottom is equipped with a plurality of tooth groove, tooth groove joint is on the horizontal pole of perforation bottom.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the first stirring piece and the second stirring piece are matched, so that asphalt concrete in the tank body can be uniformly stirred, residues of materials on the inner wall and the bottom of the tank body can be reduced during stirring, the discharge hole is arranged on one side of the bottom of the side wall of the tank body, and the first stirring piece and the second stirring piece can also assist in uniformly outputting asphalt concrete during working;

according to the invention, the retaining plate and the shifting mechanism are matched, so that a vehicle is stopped on the bearing table, when the carriage pushes the retaining plate, the shifting mechanism can be driven to work, the shifting mechanism can pull the tilting rod to rotate around the center seat and then control the material blocking door to rise, when the vehicle pushes the retaining plate, the discharge end of the discharge hopper is arranged at the top of the carriage, and asphalt concrete can flow out of the discharge port and flow into the carriage from the discharge hopper after the material blocking door rises;

the limiting mechanism is arranged, so that when a vehicle leaves the bearing table, the limiting mechanism can limit the shifting mechanism, and after the shifting mechanism is limited, the abutting plate cannot rotate, and the shifting mechanism is prevented from driving the material blocking door to rise;

according to the invention, the tank cover can shield the opening at the top of the tank body, so that sundries are reduced, the asphalt concrete in the tank body is insulated, and meanwhile, the opening is adjustable, so that the feeding is convenient.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the impurity removing pipe according to the present invention.

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

FIG. 4 is a schematic diagram of a partial side view of a toggle mechanism according to the present invention.

Fig. 5 is a schematic structural view of a toggle mechanism according to the present invention.

Fig. 6 is a schematic structural view of a limiting mechanism in the present invention.

Fig. 7 is a schematic structural view of the tank body in the present invention.

FIG. 8 is a schematic view of the climbing mechanism of the present invention.

Fig. 9 is a schematic view of the structure of the can lid according to the present invention.

Fig. 10 is a schematic top view of the outer ring and the inner cavity of the drive case of the present invention.

In the figure: 11. a tank body; 12. a discharge port; 13. discharging a hopper; 14. a toggle mechanism; 15. a carrying platform; 16. a limiting mechanism; 17. a support leg; 18. a driving device; 19. a can lid; 20. a motor case; 21. a trash discharging pipe; 22. a climbing mechanism; 23. a support frame; 24. a retaining plate; 25. a contact roller; 26. a rotating seat; 27. a compression bar; 28. a lifting seat; 29. a positioning box; 30. a lifting block; 31. lifting pull rods; 32. a deflector rod; 33. a tilting rod; 34. a center seat; 35. a material blocking door; 36. a central shaft; 37. a guide plate; 38. a door frame; 39. a locking hole; 40. a wheel plate; 41. a connecting column; 42. a pressing rod; 43. a pushing seat; 44. a push rod; 45. a vertical rod; 46. a limiting block; 47. a moving groove; 48. a retracting lever; 49. a sleeve; 50. an extension table; 51. a limit groove; 52. a center column; 53. a diamond-shaped frame; 54. a first stirring rod; 55. a first stirring pulling piece; 56. a wall scraping rod; 57. a second stirring rod; 58. a second stirring pulling piece; 59. climbing ladder; 60. an upper positioning seat; 61. a lower positioning frame; 62. tooth bar; 63. perforating; 64. an inner cover; 65. an outer ring; 66. hoisting the block; 67. positioning the sector plates; 68. a fan-shaped storage plate; 69. a terminal fan-shaped piece; 70. a fixed block; 71. a joint block; 72. an annular groove; 73. a drive box; 74. a toothed ring; 75. a gear.

Detailed Description

Referring to fig. 1-10, in the embodiment of the invention, a storage tank for producing and processing hot-mix modified asphalt concrete comprises a tank body 11, a discharge port 12 arranged at the bottom of the side wall of the tank body 11, and three groups of supporting legs 17 connected at the bottom of the tank body 11, wherein one side of the tank body 11 far away from the discharge port 12 is connected with a trash discharging pipe 21, one side of the tank body 11 near the discharge port 12 is connected with a discharge hopper 13, and one side of the discharge port 12 far away from the inner cavity of the tank body 11 is connected with a door frame 38; when the subsequent tank 11 is cleaned, sewage can be discharged from the discharge hole 12 or the impurity discharging pipe 21; the material of the tank body 11 can be selected from the existing asphalt thermal insulation tank, and can be selected according to actual requirements, and the application is not repeated, and the existing asphalt thermal insulation tank can be used for insulating asphalt concrete;

the inner cavity of the tank body 11 is provided with a central column 52, the bottom of the tank body 11 is provided with a driving device 18 for driving the central column 52 to rotate, the top of the central column 52 is connected with a diamond-shaped frame 53, the bottoms of two opposite ends of the diamond-shaped frame 53 are respectively connected with a first stirring piece, and the stirring pieces are used for stirring asphalt concrete and scraping the asphalt concrete on the inner wall and the bottom of the tank body 11; the bottoms of the two ends of the diamond 53 which are arranged oppositely are connected with second stirring pieces for stirring asphalt concrete in the middle of the inner cavity of the tank 11 and scraping asphalt concrete at the bottom of the tank 11;

the driving device 18 can be combined with a worm gear reducer by using an existing motor, and the driving device 18 can drive the center column 52 to rotate when working, so that the diamond 53 is driven to rotate, and the diamond 53 can drive the first stirring piece and the second stirring piece to uniformly stir asphalt concrete.

The bottom of the discharging hopper 13 is connected with the retaining plate 24 through the rotating seat 26, one side, far away from the tank 11, of the door frame 38 is provided with a retaining door 35, two sides of the door frame 38 are provided with guide plates 37 connected to the tank 11, and two sides of the retaining door 35 are connected with sliding parts arranged in the guide plates 37 and used for stably lifting the retaining door 35; the material blocking door 35 is connected with the tilting rod 33 through a central shaft 36 on the side far away from the door frame 38, the outer side wall of the tank 11 is connected with a central seat 34, and a toggle mechanism 14 is arranged on the side, close to the tank 11, of the abutting plate 24 and is used for controlling the material blocking door 35 to rise after the tilting rod 33 is toggled to rotate around the central seat 34 when the carriage extrusion abutting plate 24 rotates around the rotation seat 26; when the carriage pushes the retaining plate 24, the shifting mechanism 14 can be driven to work, so that the shifting mechanism 14 can pull the tilting rod 33 to rotate around the center seat 34 and then control the material blocking door 35 to rise, and when the vehicle pushes the retaining plate 24, the discharging end of the discharging hopper 13 can be placed at the top of the carriage, and asphalt concrete after rising of the material blocking door 35 can flow out from the discharging hole 12 and flow into the carriage from the discharging hopper 13.

A bearing table 15 is arranged on one side of the tank 11, a limiting mechanism 16 is connected to the bearing table 15 and used for limiting the operation of the toggle mechanism 14, a wheel plate 40 contacted with the rear wheel of the vehicle is arranged on the bearing table 15 and used for controlling the limiting mechanism 16 to release the limit of the toggle mechanism 14 when the rear wheel presses the wheel plate 40; when the vehicle leaves the bearing table 15, the limiting mechanism 16 can limit the toggle mechanism 14, and after the toggle mechanism 14 is limited, the retaining plate 24 can not rotate, so that the toggle mechanism 14 is prevented from driving the material blocking door 35 to rise.

The first stirring piece comprises a first stirring rod 54, a plurality of first stirring paddles 55 uniformly arranged in the vertical direction are connected to the first stirring rod 54, a wall scraping rod 56 matched with the inner wall of the tank 11 is connected between the same sides of the two first stirring paddles 55, and the first stirring paddles 55 at the bottom are contacted with the bottom of the inner cavity of the tank 11; the second stirring piece comprises a second stirring rod 57, the second stirring rod 57 is connected with a plurality of second stirring paddles 58 which are uniformly arranged in the vertical direction, and the second stirring paddles 58 positioned at the bottom are contacted with the bottom of the inner cavity of the tank 11;

when the center post 52 drives the diamond 53 to rotate, the first stirring rod 54 and the second stirring rod 57 rotate around the axis of the center post 52, the first stirring pulling piece 55 and the second stirring pulling piece 58 can pull asphalt concrete, the first stirring pulling piece 55 and the second stirring pulling piece 58 at the bottom can pull asphalt concrete at the bottom of the inner cavity of the tank 11, the residue of asphalt concrete at the bottom of the inner cavity of the tank 11 is reduced, the scraping rod 56 can scrape asphalt concrete on the inner wall of the tank 11, and in actual operation, two groups of scraping rods 56 on two groups of first stirring pieces can be arranged in a staggered manner, as shown in fig. 7.

The sliding part comprises guide blocks connected to two sides of the material blocking door 35, a guide chute for the guide blocks to slide up and down is arranged on the guide plate 37, one side of the material blocking door 35 close to the tank 11 is in sliding fit with the door frame 38, the central shaft 36 is connected to the middle of the top end of one side of the material blocking door 35 far away from the door frame 38, and the central shaft 36 is in rotary connection with the warping rod 33;

when the material blocking door 35 is lifted, the discharge hole 12 can be communicated with the outside, and when the material blocking door 35 is lifted and adjusted, the guide block slides in the guide chute of the guide plate 37, so that the material blocking door 35 is lifted and lowered stably.

The toggle mechanism 14 comprises a pressing rod 27 hinged to one side of the retaining plate 24, which is close to the tank body 11, one end of the pressing rod 27, which is far away from the retaining plate 24, is hinged to a lifting seat 28, the pressing rod 27 is obliquely arranged towards one side, which is close to the lifting seat 28, the bottom of the tank body 11 is connected with a positioning box 29 for stably lifting the lifting seat 28, one side, which is close to the positioning box 29, of the top of the lifting seat 28 is connected with a lifting block 30, the lifting block 30 is slidably arranged in an inner cavity of the positioning box 29, a spring is installed in the inner cavity of the positioning box 29, the top end of the spring is connected with the bottom of the lifting block 30, the lifting seat 28 is connected with a lifting pull rod 31, the lifting pull rod 31 is arranged in the vertical direction of the lifting seat 28, one end, which is far away from the lifting seat 28, of the lifting pull rod 31 is hinged to a deflector rod 32, and one end, which is far away from the lifting pull rod 31, is hinged to a tilted rod 33, which is far away from one end of the central shaft 36;

when the side of the retaining plate 24 far away from the tank 11 is pushed and extruded, the retaining plate 24 rotates around the rotating seat 26, the lifting seat 28 is pushed to move downwards by the pressure rod 27 in the rotating process (the horizontal distance between the bottom of the retaining plate 24 and the lifting seat 28 is reduced, the angle between the pressure rod 27 and the retaining plate 24 is increased), when the lifting seat 28 moves downwards, the lifting block 30 slides in the positioning box 29 and presses the spring, and the lifting seat 28 drives the lifting pull rod 31 to descend;

the warping rod 33 is provided with a shaft hole for passing through a rotating shaft on the center seat 34, the distance between the shaft hole and the center shaft 36 is smaller than the distance between the shaft hole and the top end of the deflector rod 32, the withstanding plate 24 is provided with a gap, and a plurality of contact rollers 25 are arranged at the gap; the contact roller 25 is arranged to convert sliding friction into rolling friction when the carriage contacts the abutment plate 24;

the lifting pull rod 31 descends and drives the deflector rod 32 to move downwards, so that one end of the warping rod 33 far away from the central shaft 36 is pulled downwards, the warping rod 33 is pulled to rotate around the rotating shaft on the central seat 34, and the end of the warping rod 33 close to the central shaft 36 is lifted up due to the fact that the central shaft 36 is connected to the end of the warping rod 33 in a rotating mode, and the material blocking door 35 is driven to be lifted up;

when the pressing force of the retaining plate 24 is lost, the lifting block 30 drives the lifting seat 28 to reset under the force of the spring in the positioning box 29, so that the pressing rod 27 drives the retaining plate 24 to reset.

The limiting mechanism 16 comprises a pushing seat 43 and a pushing rod 44 connected to one side, close to the tank 11, of the pushing seat 43, the top of the pushing rod 44 is connected with a vertical rod 45, the top, close to one side of the pushing seat 43, of the vertical rod 45 is connected with a limiting block 46, a locking hole 39 for the limiting block 46 to pass through is formed in the bottom of the lifting seat 28, two groups of pushing rods 42 are hinged to one end, far away from the pushing rod 44, of the pushing seat 43, of the two groups of wheel plates 40, a connecting column 41 hinged to one end, far away from the pushing seat 43, of the pushing seat 43 is connected to the bottom, close to the pushing seat 43, of the pushing rod 42, a containing groove for containing the wheel plates 40 is formed in the bearing table 15, one end, far away from the connecting column 41, of the wheel plates 40 is rotatably connected with the inner wall of the containing groove, and two groups of rebound pieces are further arranged on the bearing table 15 and used for resetting the pushing seat 43 after the rear wheels leave the wheel plates 40;

when the wheel plate 40 is stored in the storage groove, the pushing seat 43 is driven by the pushing rod 42 to be away from the storage groove, so that the pushing rod 44 drives the upright rod 45 to be away from the lifting seat 28, the limiting block 46 is separated from the locking hole 39, and the height limiting of the lifting block 28 is released;

the rebound piece comprises a sleeve 49 and a contraction rod 48 arranged in the sleeve 49 in a sliding manner, a spring is arranged in the inner cavity of the sleeve 49, the other end of the spring is connected with one end of the contraction rod 48 extending to the inner cavity of the sleeve 49, a moving groove 47 for sliding the pushing seat 43 is formed in the bearing table 15, one end of the sleeve 49 far away from the contraction rod 48 is connected with the inner wall of the moving groove 47, one end of the contraction rod 48 far away from the sleeve 49 is connected with one side of the pushing seat 43 close to the pushing rod 44, the arrangement direction of the contraction rod 48 is parallel to the arrangement direction of the pushing rod 44, one end of the bearing table 15 close to the tank 11 is connected with an extension table 50, a limiting groove 51 for sliding the pushing rod 44 is formed in the extension table 50, the limiting groove 51 is communicated with the moving groove 47, the moving groove 47 is communicated with the accommodating groove, T-shaped limiting grooves matched with the T-shaped limiting grooves are formed in the bottoms of the pushing seat 43 and the pushing rod 44, the T-shaped limiting grooves are arranged at the bottoms of the moving groove 47 and the limiting groove 51, and the T-shaped limiting grooves are arranged at the bottoms of the pushing seat 43 and the pushing rod 44, and the limiting groove are not actually marked in the drawings; the top of one end of the bearing table 15, which is close to the extension table 50, is connected with a supporting frame 23 for supporting the discharging hopper 13;

the pushing seat 43 can stably slide in the moving groove 47, the pushing rod 44 can stably slide in the limiting groove 51, and when the pushing seat 43 is far away from the containing groove, the pushing seat 43 drives the contraction rod 48 to contract in the sleeve 49 and press the spring; when the wheel plate 40 loses the pressing force, the contracting rod 48 drives the pushing seat 43 to reset under the force of the spring, so that the wheel plate 40 can be driven to lift up through the pressing rod 42, and meanwhile, the pushing rod 44 drives the vertical rod 45 to reset.

The top of the tank body 11 is connected with a tank cover 19 with an adjustable opening;

the tank cover 19 comprises an inner cover 64 and an outer ring 65 connected to the outer wall of the inner cover 64, at least three groups of lifting blocks 66 which are uniformly arranged are connected to the outer wall of the outer ring 65, the inner cover 64 is fixed at the top of the tank 11 through bolts, the inner wall of the inner cover 64 is connected with a center block through a positioning fan-shaped sheet 67, the bottom of the center block is provided with a rotating groove which is in rotary fit with the top of the center column 52, the positioning fan-shaped sheet 67 is fixedly connected to the inner wall of the inner cover 64, one side of the positioning fan-shaped sheet 67 is connected with a plurality of fan-shaped containing plates 68 which can be contained, one side of the positioning fan-shaped sheet 67 is provided with a terminal fan-shaped sheet 69 connected with one group of fan-shaped containing plates 68, a first containing groove for containing the fan-shaped containing plates 68 is arranged in the positioning fan-shaped sheet 67, the fan-shaped containing plates 68 are internally provided with second containing grooves for containing adjacent fan-shaped containing plates 68, the inner cavity of each fan-shaped containing plate 68 connected with each terminal fan-shaped piece 69 is provided with a third containing groove for containing each terminal fan-shaped piece 69, the fan-shaped containing plates 68 and the annular inner side wall and the outer side wall of each terminal fan-shaped piece 69 are connected with sliding blocks, the inner wall of each inner cover 64 and the outer wall of each central block are provided with sliding grooves for sliding the sliding blocks, the annular inner side wall and the annular outer side wall of each fan-shaped containing plate 68 are respectively provided with an arc-shaped groove for the sliding blocks to penetrate through, one side, far away from the fan-shaped containing plates 68, of the top of each terminal fan-shaped piece 69 is connected with a fixed block 70, and the outer ring 65 is connected with a driving piece for controlling the fixed block 70 to rotate around the axis of the central block;

the terminal sector pieces 69 can be accommodated in the sector accommodating plates 68, the sector accommodating plates 68 can be sequentially folded and accommodated, a group of sector accommodating plates 68 close to the positioning sector pieces 67 can be accommodated in the positioning sector pieces 67, and the opening of the top of the tank 11 exposed can be adjusted;

the driving piece comprises a toothed ring 74 arranged in the outer ring 65 and a driving box 73 connected to one side of the outer ring 65, a gear 75 meshed with the toothed ring 74 is arranged in the driving box 73, the bottom of the driving box 73 is connected with the motor box 20, a motor for driving the gear 75 to rotate is arranged in the motor box 20, an annular groove 72 is arranged at the top of the outer ring 65, the bottom of one end, away from the terminal sector 69, of the fixing block 70 is connected with the top of the toothed ring 74 through a connecting block 71, and the connecting block 71 is slidably arranged in the annular groove 72;

when the motor drives the gear 75 to rotate, the gear 75 can drive the toothed ring 74 to rotate, and the toothed ring 74 can drive the connecting block 71 to rotate around the axis of the central block in the rotating process, so that the fixed block 70 can drive the terminal fan-shaped sheet 69 to rotate around the axis of the central block, and the top opening of the tank 11 is adjusted.

The climbing mechanism 22 comprises a climbing ladder 59 and an upper positioning seat 60 hinged to the top of the climbing ladder 59, the upper positioning seat 60 is fixedly connected to the outer side wall of the tank 11, a tooth bar 62 is hinged to the bottom of the climbing ladder 59 close to one side of the tank 11, a lower positioning frame 61 is connected to the bottom of the tank 11, a through hole 63 for the tooth bar 62 to pass through is formed in the bottom of the lower positioning frame 61, a plurality of tooth grooves are formed in the bottom of the tooth bar 62, and the tooth grooves are connected to a cross rod at the bottom of the through hole 63 in a clamping mode;

when the inner cavity of the tank body 11 is required to be checked or the forehead part at the top of the tank body 11 is required to be maintained, the tooth bar 62 can be lifted, so that tooth grooves are separated from the cross bars, the tooth bar 62 can move in the through holes 63, the climbing ladder 59 is operated to rotate around the positioning seat 60 while moving, the bottom of the climbing ladder 59 is far away from the tank body 11, the corresponding tooth grooves are clamped on the cross bars, the movement of the tooth bar 62 is limited, and the climbing ladder 59 is in an inclined state, so that personnel can climb conveniently.

When the asphalt stirring device is used, when the motor drives the gear 75 to rotate, the gear 75 can drive the gear 74 to rotate, the gear 74 can drive the connecting block 71 to rotate around the axis of the central block in the rotating process, so that the fixed block 70 can drive the terminal fan-shaped piece 69 to rotate around the axis of the central block, the top opening of the tank 11 is adjusted, the material can be fed into the tank 11 from the opening, the driving equipment 18 can drive the central column 52 to rotate when working, the diamond 53 is driven to rotate, the diamond 53 can drive the first stirring piece and the second stirring piece to uniformly stir asphalt concrete, the first stirring rod 54 and the second stirring rod 57 can rotate around the axis of the central column 52, the first stirring pulling piece 55 and the second stirring pulling piece 58 can pull asphalt concrete at the bottom, the first stirring pulling piece 55 and the second stirring pulling piece 58 at the bottom can pull asphalt concrete at the bottom of the inner cavity of the tank 11, the residue of the asphalt concrete at the bottom of the inner cavity of the tank 11 can be reduced, and the wall scraping rod 56 can scrape asphalt concrete on the inner wall of the tank 11;

when a vehicle receives materials, the carriage aligns to the bearing table 15 and backs up to the top of the bearing table 15, in the backing up process, the rear wheel firstly contacts with the wheel plate 40, the wheel plate 40 is gradually contained in the containing groove, the pushing seat 43 is driven by the supporting pressure rod 42 to be far away from the containing groove, the pushing seat 43 drives the contraction rod 48 to be contracted in the sleeve 49 and squeeze the spring, the moving rod 44 drives the vertical rod 45 to be far away from the lifting seat 28, the limiting block 46 is separated from the locking hole 39, the height limit of the lifting block 28 is relieved, the rear wheel continuously backs up after contacting with the wheel plate 40, the carriage rear part extrudes the bearing plate 24, the bearing plate 24 rotates around the rotating seat 26, in the rotating process, the lifting seat 28 is pushed to move downwards by the pressure rod 27, when the lifting seat 28 moves downwards, the lifting block 30 slides in the positioning box 29 and presses the spring, the lifting seat 28 drives the lifting pull rod 31 to descend, simultaneously drives the lifting pull rod 32 to move downwards, so that the lifting rod 33 is far away from one end of the central shaft 36, the lifting rod 33 rotates around a rotation axis on the central seat 34, and as the central shaft 36 is connected to the end of the lifting rod 33, when the central shaft 36 rotates, the lifting rod 36 is close to one end of the central shaft 36, the lifting gate 35 is still positioned at the end of the lifting gate 35, the hopper 13 is positioned at the top of the carriage, the top of the carriage can be discharged from the top of the material 13;

the carriage meets and can leave the plummer 15 after the material is accomplished, the in-process that the vehicle left plummer 15, receive the power of the spring in the positioning box 29, lifting block 30 drives lift seat 28 and resets, thereby make depression bar 27 drive and keep out the board 24 and reset, afterwards the vehicle rear wheel leaves wheel board 40, when wheel board 40 loses the pressure, receive the power of spring, shrink pole 48 drives and promotes the seat 43 and resets, thereby can drive wheel board 40 through supporting depression bar 42 and lift, simultaneously promote pole 44 and drive pole setting 45 and reset, stopper 46 inserts locking hole 39, the height limiting to lifting block 28.

Claims (8)

1. The utility model provides a hot-mix modified asphalt concrete production processing is with storage jar, includes jar body (11), sets up discharge gate (12) in jar body (11) lateral wall bottom and connects three group's landing leg (17) in jar body (11) bottom, jar body (11) are kept away from discharge gate (12) one side and are connected trash discharging tube (21), jar body (11) are close to discharge gate (12) one side and are connected out hopper (13), discharge gate (12) are kept away from jar body (11) inner chamber one side and are connected door frame (38);

the asphalt stirring device is characterized in that a central column (52) is arranged in an inner cavity of the tank body (11), driving equipment (18) for driving the central column (52) to rotate is arranged at the bottom of the tank body (11), a diamond-shaped frame (53) is connected to the top of the central column (52), and first stirring pieces are connected to the bottoms of two opposite ends of the diamond-shaped frame (53) and used for stirring asphalt concrete and scraping the asphalt concrete on the inner wall and the bottom of the tank body (11); the bottoms of the two ends of the diamond frame (53) which are arranged oppositely are connected with second stirring pieces for stirring asphalt concrete in the middle of the inner cavity of the tank body (11) and scraping asphalt concrete at the bottom of the tank body (11);

the bottom of the discharging hopper (13) is connected with the retaining plate (24) through the rotating seat (26), one side, far away from the tank body (11), of the door frame (38) is provided with a retaining door (35), two sides of the door frame (38) are provided with guide plates (37) connected to the tank body (11), and two sides of the retaining door (35) are connected with sliding parts arranged in the guide plates (37) and used for stably lifting the retaining door (35); one side, far away from a door frame (38), of the material blocking door (35) is connected with a tilting rod (33) through a central shaft (36), the outer side wall of the tank body (11) is connected with a central seat (34), one side, close to the tank body (11), of the resisting plate (24) is provided with a toggle mechanism (14) for controlling the material blocking door (35) to rise after the tilting rod (33) is toggled to rotate around the central seat (34) when the carriage extrusion resisting plate (24) rotates around a rotating seat (26);

a bearing table (15) is arranged on one side of the tank body (11), a limiting mechanism (16) is connected to the bearing table (15) and used for limiting the operation of the toggle mechanism (14), a wheel plate (40) which is in contact with the rear wheels of the vehicle is arranged on the bearing table (15), and the limiting mechanism (16) is controlled to release the limit of the toggle mechanism (14) when the rear wheels press the wheel plate (40);

the top of the tank body (11) is connected with a tank cover (19) with an adjustable opening;

the stirring mechanism (14) comprises a pressing rod (27) hinged to one side, close to the tank body (11), of the abutting plate (24), one end, close to the abutting plate (24), of the pressing rod (27) is hinged to a lifting seat (28), the pressing rod (27) is obliquely arranged on one side, close to the lifting seat (28), of the pressing rod, a positioning box (29) used for stably lifting the lifting seat (28) is connected to the bottom of the tank body (11), a lifting block (30) is connected to one side, close to the positioning box (29), of the top of the lifting seat (28), the lifting block (30) is slidably arranged in an inner cavity of the positioning box (29), a spring is mounted in the inner cavity of the positioning box (29), the top of the spring is connected to the bottom of the lifting block (30), a lifting pull rod (31) is connected to the lifting seat (28), the lifting pull rod (31) is arranged in the vertical direction, one end, close to the lifting pull rod (31), of the lifting pull rod (31) is hinged to a lifting rod (32), one end, close to the lifting pull rod (32) is hinged to one end, of the lifting pull rod (33), is hinged to the lifting rod (33), and is far from the central shaft (36).

Stop gear (16) are including pushing seat (43) and connecting in pushing seat (43) push rod (44) that are close to jar body (11) one side, pole setting (45) are connected at push rod (44) top, pole setting (45) are close to the top of pushing seat (43) one side and connect stopper (46), lifting seat (28) bottom is equipped with locking hole (39) that are used for stopper (46) to pass, push seat (43) are kept away from push rod (44) one end and are articulated have two sets of push rods (42), and the bottom that two sets of wheel boards (40) are close to push seat (43) one end is connected with and is kept away from push rod (42) and push seat (43) one end articulated linking post (41), be equipped with on plummer (15) and be used for accomodating the storage groove of wheel board (40), link up the inner wall is kept away from in link up post (41) one end rotation, still be equipped with two sets of resilience piece on plummer (15) for the rear wheel to leave behind wheel board (40) push seat (43) reset.

2. The storage tank for hot-mix modified asphalt concrete production and processing according to claim 1, wherein the first stirring piece comprises a first stirring rod (54), a plurality of first stirring paddles (55) uniformly arranged in the vertical direction are connected to the first stirring rod (54), a wall scraping rod (56) matched with the inner wall of the tank body (11) is connected between the same sides of the two first stirring paddles (55), and the first stirring paddles (55) at the bottom are contacted with the bottom of the inner cavity of the tank body (11);

the second stirring piece comprises a second stirring rod (57), a plurality of second stirring paddles (58) which are uniformly arranged in the vertical direction are connected to the second stirring rod (57), and the second stirring paddles (58) positioned at the bottom are contacted with the bottom of the inner cavity of the tank body (11).

3. The storage tank for hot-mix modified asphalt concrete production and processing according to claim 1, wherein the sliding part comprises guide blocks connected to two sides of a material blocking door (35), a guide chute for guiding the guide blocks to slide up and down is arranged on the guide plate (37), one side of the material blocking door (35) close to the tank body (11) is in sliding fit with a door frame (38), the central shaft (36) is connected to the middle part of the top end of one side of the material blocking door (35) far away from the door frame (38), and the central shaft (36) is rotationally connected with a warping rod (33).

4. A storage tank for hot-mix modified asphalt concrete production and processing according to claim 3, wherein the warping rod (33) is provided with a shaft hole for passing a rotating shaft on the center seat (34), the distance between the shaft hole and the center shaft (36) is smaller than the distance between the shaft hole and the top end of the deflector rod (32), the deflector plate (24) is provided with a gap, and a plurality of contact rollers (25) are arranged at the gap.

5. The storage tank for hot-mix modified asphalt concrete production and processing according to claim 1, wherein the rebound member comprises a sleeve (49) and a contraction rod (48) slidably arranged in the sleeve (49), a spring is arranged in an inner cavity of the sleeve (49), the other end of the spring is connected with one end of the contraction rod (48) extending to the inner cavity of the sleeve (49), a moving groove (47) for sliding a pushing seat (43) is formed in the bearing table (15), one end of the sleeve (49) far away from the contraction rod (48) is connected with the inner wall of the moving groove (47), one end of the contraction rod (48) far away from the sleeve (49) is connected with one side of the pushing seat (43) close to the pushing rod (44), and the arrangement direction of the contraction rod (48) is parallel to the arrangement direction of the pushing rod (44);

the utility model discloses a bucket, including bucket body (11), plummer (15), extension platform (50) are connected to plummer (15) near jar body (11) one end, be equipped with in extension platform (50) and be used for the gliding spacing groove (51) of catch bar (44), spacing groove (51) and remove groove (47) intercommunication, remove groove (47) and accomodate the groove intercommunication, promote seat (43) and catch bar (44) bottom all to be connected with T type stopper, remove groove (47) and spacing groove (51) bottom all to be equipped with T type stopper complex T type spacing groove, plummer (15) are close to extension platform (50) one end top and are connected with support frame (23) that are used for supporting out hopper (13).

6. The storage tank for hot-mix modified asphalt concrete production and processing according to claim 1, wherein the tank cover (19) comprises an inner cover (64) and an outer ring (65) connected to the outer wall of the inner cover (64), at least three groups of uniformly arranged hoisting blocks (66) are connected to the outer side wall of the outer ring (65), the inner cover (64) is fixed on the top of the tank body (11) through bolts, the inner wall of the inner cover (64) is connected with a center block through a positioning fan-shaped piece (67), and a rotating groove in running fit with the top of the center column (52) is formed in the bottom of the center block;

the positioning fan-shaped piece (67) is fixedly connected to the inner wall of the inner cover (64), one side of the positioning fan-shaped piece (67) is connected with a plurality of fan-shaped containing plates (68) which can be contained, one side of the positioning fan-shaped piece (67) is provided with a terminal fan-shaped piece (69) connected with one group of fan-shaped containing plates (68), a first containing groove for containing the fan-shaped containing plates (68) is formed in the positioning fan-shaped piece (67), a second containing groove for containing the adjacent fan-shaped containing plates (68) is formed in the fan-shaped containing plates (68), and a third containing groove for containing the terminal fan-shaped piece (69) is formed in the inner cavity of the fan-shaped containing plate (68) connected with the terminal fan-shaped piece (69);

the fan-shaped storage plate (68) and the terminal fan-shaped piece (69) are connected with the sliding blocks, sliding grooves used for sliding the sliding blocks are formed in the inner wall of the inner cover (64) and the outer wall of the central block, arc-shaped grooves through which the sliding blocks penetrate are formed in the annular inner wall of the fan-shaped storage plate (68) and the annular outer wall of the fan-shaped storage plate, the fixing block (70) is connected to one side, far away from the fan-shaped storage plate (68), of the top of the terminal fan-shaped piece (69), and a driving piece used for controlling the fixing block (70) to rotate around the axis of the central block is connected to the outer ring (65).

7. The storage tank for hot-mix modified asphalt concrete production and processing according to claim 6, wherein the driving piece comprises a toothed ring (74) arranged in the outer ring (65) and a driving box (73) connected to one side of the outer ring (65), a gear (75) meshed with the toothed ring (74) is arranged in the driving box (73), a motor case (20) is connected to the bottom of the driving box (73), a motor for driving the gear (75) to rotate is arranged in the motor case (20), an annular groove (72) is arranged at the top of the outer ring (65), the bottom of one end, far away from the terminal sector (69), of the fixing block (70) is connected with the top of the toothed ring (74) through a connecting block (71), and the connecting block (71) is arranged in the annular groove (72) in a sliding mode.

8. The storage tank for hot-mix modified asphalt concrete production and processing according to claim 1, wherein a climbing mechanism (22) is arranged on one side of the tank body (11);

climbing mechanism (22) are including climbing ladder (59) and articulated last positioning seat (60) at climbing ladder (59) top, go up positioning seat (60) fixed connection on jar body (11) lateral wall, climbing ladder (59) bottom is close to jar body (11) one side articulated tooth pole (62), locating rack (61) are connected down in jar body (11) bottom, locating rack (61) bottom is equipped with perforation (63) that are used for tooth pole (62) to pass down, tooth pole (62) bottom is equipped with a plurality of tooth groove, tooth groove joint is on the horizontal pole of perforation (63) bottom.